Creating study carrel named biochemistry-from-biorxiv
Initializing database
Creating cache from Bioarxiv xml file
10.1101/2021.01.08.425887
10_1101-2021_01_08_425887.pdf
10.1101/2021.01.08.425897
10_1101-2021_01_08_425897.pdf
10.1101/2021.01.08.425855
10_1101-2021_01_08_425855.pdf
10.1101/2020.03.27.012757
10_1101-2020_03_27_012757.pdf
10.1101/2021.01.08.425976
10_1101-2021_01_08_425976.pdf
10.1101/2021.01.08.425918
10_1101-2021_01_08_425918.pdf
10.1101/2021.01.08.425952
10_1101-2021_01_08_425952.pdf
10.1101/2021.01.08.426008
10_1101-2021_01_08_426008.pdf
10.1101/2021.01.08.425967
10_1101-2021_01_08_425967.pdf
10.1101/2021.01.08.425379
10_1101-2021_01_08_425379.pdf
10.1101/2021.01.06.425657
10_1101-2021_01_06_425657.pdf
10.1101/2021.01.07.425723
10_1101-2021_01_07_425723.pdf
10.1101/2021.01.07.425675
10_1101-2021_01_07_425675.pdf
10.1101/2021.01.07.425737
10_1101-2021_01_07_425737.pdf
10.1101/2021.01.06.425584
10_1101-2021_01_06_425584.pdf
10.1101/2021.01.08.425875
10_1101-2021_01_08_425875.pdf
10.1101/2021.01.08.423993
10_1101-2021_01_08_423993.pdf
10.1101/2021.01.06.425392
10_1101-2021_01_06_425392.pdf
10.1101/2021.01.08.425864
10_1101-2021_01_08_425864.pdf
10.1101/2021.01.08.425958
10_1101-2021_01_08_425958.pdf
10.1101/2020.07.08.188672
10_1101-2020_07_08_188672.pdf
10.1101/2021.01.05.425448
10_1101-2021_01_05_425448.pdf
10.1101/2021.01.04.425348
10_1101-2021_01_04_425348.pdf
10.1101/2021.01.04.425209
10_1101-2021_01_04_425209.pdf
10.1101/2021.01.05.425440
10_1101-2021_01_05_425440.pdf
10.1101/2021.01.06.425536
10_1101-2021_01_06_425536.pdf
10.1101/2020.06.17.156679
10_1101-2020_06_17_156679.pdf
10.1101/2021.01.06.425610
10_1101-2021_01_06_425610.pdf
10.1101/2021.01.07.425621
10_1101-2021_01_07_425621.pdf
10.1101/2021.01.06.425465
10_1101-2021_01_06_425465.pdf
10.1101/2020.09.18.291195
10_1101-2020_09_18_291195.pdf
10.1101/2021.01.02.425093
10_1101-2021_01_02_425093.pdf
10.1101/2020.05.10.087288
10_1101-2020_05_10_087288.pdf
10.1101/2020.04.24.059154
10_1101-2020_04_24_059154.pdf
10.1101/2021.01.04.425218
10_1101-2021_01_04_425218.pdf
10.1101/2020.12.29.424482
10_1101-2020_12_29_424482.pdf
10.1101/2021.01.04.425171
10_1101-2021_01_04_425171.pdf
10.1101/2021.01.05.425367
10_1101-2021_01_05_425367.pdf
10.1101/2020.11.24.390039
10_1101-2020_11_24_390039.pdf
10.1101/2021.01.05.425432
10_1101-2021_01_05_425432.pdf
10.1101/2020.12.30.424894
10_1101-2020_12_30_424894.pdf
10.1101/2020.12.31.424931
10_1101-2020_12_31_424931.pdf
10.1101/2020.12.31.424969
10_1101-2020_12_31_424969.pdf
10.1101/674051
10_1101-674051.pdf
10.1101/2020.12.31.424971
10_1101-2020_12_31_424971.pdf
10.1101/2020.12.31.424989
10_1101-2020_12_31_424989.pdf
10.1101/2021.01.01.425047
10_1101-2021_01_01_425047.pdf
10.1101/2021.01.03.425155
10_1101-2021_01_03_425155.pdf
10.1101/2021.01.04.425177
10_1101-2021_01_04_425177.pdf
10.1101/2021.01.03.425159
10_1101-2021_01_03_425159.pdf
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425855v1.full.pdf [997276] -> "./cache/10_1101-2021_01_08_425855.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.426008v1.full.pdf [1085923] -> "./cache/10_1101-2021_01_08_426008.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425967v1.full.pdf [1024766] -> "./cache/10_1101-2021_01_08_425967.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425952v1.full.pdf [756020] -> "./cache/10_1101-2021_01_08_425952.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.07.425675v1.full.pdf [1500552] -> "./cache/10_1101-2021_01_07_425675.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425887v1.full.pdf [2003129] -> "./cache/10_1101-2021_01_08_425887.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.03.425159v1.full.pdf [884501] -> "./cache/10_1101-2021_01_03_425159.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.07.425737v1.full.pdf [1158468] -> "./cache/10_1101-2021_01_07_425737.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.04.425177v1.full.pdf [566576] -> "./cache/10_1101-2021_01_04_425177.pdf" [1]
2021-01-10 04:07:19 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425897v1.full.pdf [5264590] -> "./cache/10_1101-2021_01_08_425897.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425864v1.full.pdf [2682323] -> "./cache/10_1101-2021_01_08_425864.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2020.12.31.424989v1.full.pdf [1011334] -> "./cache/10_1101-2020_12_31_424989.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.04.425209v2.full.pdf [1707548] -> "./cache/10_1101-2021_01_04_425209.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/674051v5.full.pdf [1397202] -> "./cache/10_1101-674051.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.05.425440v1.full.pdf [1117847] -> "./cache/10_1101-2021_01_05_425440.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2020.06.17.156679v2.full.pdf [1172348] -> "./cache/10_1101-2020_06_17_156679.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.02.425093v1.full.pdf [1670858] -> "./cache/10_1101-2021_01_02_425093.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2020.09.18.291195v2.full.pdf [1817849] -> "./cache/10_1101-2020_09_18_291195.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425976v1.full.pdf [1166131] -> "./cache/10_1101-2021_01_08_425976.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.06.425610v1.full.pdf [3604786] -> "./cache/10_1101-2021_01_06_425610.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.07.425723v1.full.pdf [4487629] -> "./cache/10_1101-2021_01_07_425723.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.423993v1.full.pdf [3067502] -> "./cache/10_1101-2021_01_08_423993.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2021.01.04.425348v1.full.pdf [2722872] -> "./cache/10_1101-2021_01_04_425348.pdf" [1]
2021-01-10 04:07:20 URL:https://www.biorxiv.org/content/10.1101/2020.12.31.424931v1.full.pdf [1881062] -> "./cache/10_1101-2020_12_31_424931.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2021.01.05.425432v1.full.pdf [2819378] -> "./cache/10_1101-2021_01_05_425432.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2021.01.06.425657v1.full.pdf [5409934] -> "./cache/10_1101-2021_01_06_425657.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2020.11.24.390039v2.full.pdf [2977514] -> "./cache/10_1101-2020_11_24_390039.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2021.01.04.425218v1.full.pdf [2862512] -> "./cache/10_1101-2021_01_04_425218.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2021.01.06.425536v1.full.pdf [4500515] -> "./cache/10_1101-2021_01_06_425536.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2021.01.05.425448v1.full.pdf [1792249] -> "./cache/10_1101-2021_01_05_425448.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2020.05.10.087288v2.full.pdf [3147002] -> "./cache/10_1101-2020_05_10_087288.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425875v1.full.pdf [4826928] -> "./cache/10_1101-2021_01_08_425875.pdf" [1]
2021-01-10 04:07:21 URL:https://www.biorxiv.org/content/10.1101/2020.03.27.012757v3.full.pdf [8740861] -> "./cache/10_1101-2020_03_27_012757.pdf" [1]
2021-01-10 04:07:22 URL:https://www.biorxiv.org/content/10.1101/2021.01.06.425584v1.full.pdf [8392171] -> "./cache/10_1101-2021_01_06_425584.pdf" [1]
2021-01-10 04:07:22 URL:https://www.biorxiv.org/content/10.1101/2020.12.29.424482v2.full.pdf [5107697] -> "./cache/10_1101-2020_12_29_424482.pdf" [1]
2021-01-10 04:07:22 URL:https://www.biorxiv.org/content/10.1101/2020.12.31.424971v1.full.pdf [3029988] -> "./cache/10_1101-2020_12_31_424971.pdf" [1]
2021-01-10 04:07:22 URL:https://www.biorxiv.org/content/10.1101/2021.01.04.425171v1.full.pdf [6755520] -> "./cache/10_1101-2021_01_04_425171.pdf" [1]
2021-01-10 04:07:22 URL:https://www.biorxiv.org/content/10.1101/2021.01.01.425047v1.full.pdf [7900117] -> "./cache/10_1101-2021_01_01_425047.pdf" [1]
2021-01-10 04:07:22 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425958v1.full.pdf [9155781] -> "./cache/10_1101-2021_01_08_425958.pdf" [1]
2021-01-10 04:07:23 URL:https://www.biorxiv.org/content/10.1101/2020.12.30.424894v1.full.pdf [7987030] -> "./cache/10_1101-2020_12_30_424894.pdf" [1]
2021-01-10 04:07:24 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425918v1.full.pdf [16151735] -> "./cache/10_1101-2021_01_08_425918.pdf" [1]
2021-01-10 04:07:24 URL:https://www.biorxiv.org/content/10.1101/2020.12.31.424969v1.full.pdf [9988532] -> "./cache/10_1101-2020_12_31_424969.pdf" [1]
2021-01-10 04:07:25 URL:https://www.biorxiv.org/content/10.1101/2021.01.05.425367v1.full.pdf [13215181] -> "./cache/10_1101-2021_01_05_425367.pdf" [1]
2021-01-10 04:07:25 URL:https://www.biorxiv.org/content/10.1101/2021.01.06.425392v2.full.pdf [13819606] -> "./cache/10_1101-2021_01_06_425392.pdf" [1]
2021-01-10 04:07:26 URL:https://www.biorxiv.org/content/10.1101/2020.07.08.188672v2.full.pdf [13718020] -> "./cache/10_1101-2020_07_08_188672.pdf" [1]
2021-01-10 04:07:26 URL:https://www.biorxiv.org/content/10.1101/2021.01.06.425465v1.full.pdf [17617740] -> "./cache/10_1101-2021_01_06_425465.pdf" [1]
2021-01-10 04:07:28 URL:https://www.biorxiv.org/content/10.1101/2021.01.07.425621v1.full.pdf [3289768] -> "./cache/10_1101-2021_01_07_425621.pdf" [1]
2021-01-10 04:07:28 URL:https://www.biorxiv.org/content/10.1101/2021.01.08.425379v1.full.pdf [23721305] -> "./cache/10_1101-2021_01_08_425379.pdf" [1]
2021-01-10 04:07:30 URL:https://www.biorxiv.org/content/10.1101/2021.01.03.425155v1.full.pdf [1508671] -> "./cache/10_1101-2021_01_03_425155.pdf" [1]
2021-01-10 04:07:31 URL:https://www.biorxiv.org/content/10.1101/2020.04.24.059154v2.full.pdf [5672715] -> "./cache/10_1101-2020_04_24_059154.pdf" [1]
=== updating bibliographic database
Building study carrel named biochemistry-from-biorxiv
FILE: cache/10_1101-2021_01_08_426008.pdf
OUTPUT: txt/10_1101-2021_01_08_426008.txt
FILE: cache/10_1101-2021_01_08_425887.pdf
OUTPUT: txt/10_1101-2021_01_08_425887.txt
FILE: cache/10_1101-2021_01_07_425737.pdf
OUTPUT: txt/10_1101-2021_01_07_425737.txt
FILE: cache/10_1101-2021_01_03_425159.pdf
OUTPUT: txt/10_1101-2021_01_03_425159.txt
FILE: cache/10_1101-2021_01_07_425675.pdf
OUTPUT: txt/10_1101-2021_01_07_425675.txt
FILE: cache/10_1101-2021_01_04_425171.pdf
OUTPUT: txt/10_1101-2021_01_04_425171.txt
FILE: cache/10_1101-674051.pdf
OUTPUT: txt/10_1101-674051.txt
FILE: cache/10_1101-2020_06_17_156679.pdf
OUTPUT: txt/10_1101-2020_06_17_156679.txt
FILE: cache/10_1101-2021_01_06_425536.pdf
OUTPUT: txt/10_1101-2021_01_06_425536.txt
FILE: cache/10_1101-2021_01_08_425967.pdf
OUTPUT: txt/10_1101-2021_01_08_425967.txt
FILE: cache/10_1101-2021_01_04_425177.pdf
OUTPUT: txt/10_1101-2021_01_04_425177.txt
FILE: cache/10_1101-2021_01_08_425976.pdf
OUTPUT: txt/10_1101-2021_01_08_425976.txt
FILE: cache/10_1101-2020_12_31_424989.pdf
OUTPUT: txt/10_1101-2020_12_31_424989.txt
FILE: cache/10_1101-2021_01_08_425918.pdf
OUTPUT: txt/10_1101-2021_01_08_425918.txt
FILE: cache/10_1101-2021_01_08_425855.pdf
OUTPUT: txt/10_1101-2021_01_08_425855.txt
FILE: cache/10_1101-2021_01_08_425958.pdf
OUTPUT: txt/10_1101-2021_01_08_425958.txt
FILE: cache/10_1101-2021_01_05_425440.pdf
OUTPUT: txt/10_1101-2021_01_05_425440.txt
FILE: cache/10_1101-2021_01_08_425897.pdf
OUTPUT: txt/10_1101-2021_01_08_425897.txt
FILE: cache/10_1101-2021_01_04_425209.pdf
OUTPUT: txt/10_1101-2021_01_04_425209.txt
FILE: cache/10_1101-2021_01_08_425952.pdf
OUTPUT: txt/10_1101-2021_01_08_425952.txt
FILE: cache/10_1101-2020_05_10_087288.pdf
OUTPUT: txt/10_1101-2020_05_10_087288.txt
FILE: cache/10_1101-2021_01_07_425621.pdf
OUTPUT: txt/10_1101-2021_01_07_425621.txt
FILE: cache/10_1101-2020_04_24_059154.pdf
OUTPUT: txt/10_1101-2020_04_24_059154.txt
FILE: cache/10_1101-2020_11_24_390039.pdf
OUTPUT: txt/10_1101-2020_11_24_390039.txt
FILE: cache/10_1101-2021_01_03_425155.pdf
OUTPUT: txt/10_1101-2021_01_03_425155.txt
FILE: cache/10_1101-2021_01_02_425093.pdf
OUTPUT: txt/10_1101-2021_01_02_425093.txt
FILE: cache/10_1101-2021_01_08_425864.pdf
OUTPUT: txt/10_1101-2021_01_08_425864.txt
FILE: cache/10_1101-2021_01_06_425657.pdf
OUTPUT: txt/10_1101-2021_01_06_425657.txt
FILE: cache/10_1101-2020_09_18_291195.pdf
OUTPUT: txt/10_1101-2020_09_18_291195.txt
FILE: cache/10_1101-2021_01_06_425392.pdf
OUTPUT: txt/10_1101-2021_01_06_425392.txt
FILE: cache/10_1101-2021_01_05_425367.pdf
OUTPUT: txt/10_1101-2021_01_05_425367.txt
FILE: cache/10_1101-2020_12_30_424894.pdf
OUTPUT: txt/10_1101-2020_12_30_424894.txt
FILE: cache/10_1101-2021_01_06_425465.pdf
OUTPUT: txt/10_1101-2021_01_06_425465.txt
FILE: cache/10_1101-2021_01_08_423993.pdf
OUTPUT: txt/10_1101-2021_01_08_423993.txt
FILE: cache/10_1101-2021_01_04_425218.pdf
OUTPUT: txt/10_1101-2021_01_04_425218.txt
FILE: cache/10_1101-2021_01_06_425610.pdf
OUTPUT: txt/10_1101-2021_01_06_425610.txt
FILE: cache/10_1101-2020_03_27_012757.pdf
OUTPUT: txt/10_1101-2020_03_27_012757.txt
FILE: cache/10_1101-2021_01_05_425448.pdf
OUTPUT: txt/10_1101-2021_01_05_425448.txt
FILE: cache/10_1101-2020_12_31_424969.pdf
OUTPUT: txt/10_1101-2020_12_31_424969.txt
FILE: cache/10_1101-2021_01_07_425723.pdf
OUTPUT: txt/10_1101-2021_01_07_425723.txt
FILE: cache/10_1101-2020_12_29_424482.pdf
OUTPUT: txt/10_1101-2020_12_29_424482.txt
FILE: cache/10_1101-2021_01_01_425047.pdf
OUTPUT: txt/10_1101-2021_01_01_425047.txt
FILE: cache/10_1101-2021_01_05_425432.pdf
OUTPUT: txt/10_1101-2021_01_05_425432.txt
FILE: cache/10_1101-2021_01_08_425875.pdf
OUTPUT: txt/10_1101-2021_01_08_425875.txt
FILE: cache/10_1101-2020_12_31_424931.pdf
OUTPUT: txt/10_1101-2020_12_31_424931.txt
FILE: cache/10_1101-2021_01_04_425348.pdf
OUTPUT: txt/10_1101-2021_01_04_425348.txt
FILE: cache/10_1101-2020_07_08_188672.pdf
OUTPUT: txt/10_1101-2020_07_08_188672.txt
FILE: cache/10_1101-2020_12_31_424971.pdf
OUTPUT: txt/10_1101-2020_12_31_424971.txt
FILE: cache/10_1101-2021_01_06_425584.pdf
OUTPUT: txt/10_1101-2021_01_06_425584.txt
FILE: cache/10_1101-2021_01_08_425379.pdf
OUTPUT: txt/10_1101-2021_01_08_425379.txt
=== file2bib.sh ===
OMP: Error #34: System unable to allocate necessary resources for OMP thread:
OMP: System error #11: Resource temporarily unavailable
OMP: Hint Try decreasing the value of OMP_NUM_THREADS.
/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34749 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
=== file2bib.sh ===
OMP: Error #34: System unable to allocate necessary resources for OMP thread:
OMP: System error #11: Resource temporarily unavailable
OMP: Hint Try decreasing the value of OMP_NUM_THREADS.
/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34607 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
10_1101-2021_01_08_426008 txt/../wrd/10_1101-2021_01_08_426008.wrd
/data-disk/reader-compute/reader-classic/bin/txt2urls.sh: fork: retry: Resource temporarily unavailable
=== file2bib.sh ===
OMP: Error #34: System unable to allocate necessary resources for OMP thread:
OMP: System error #11: Resource temporarily unavailable
OMP: Hint Try decreasing the value of OMP_NUM_THREADS.
/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34074 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
=== file2bib.sh ===
OMP: Error #34: System unable to allocate necessary resources for OMP thread:
OMP: System error #11: Resource temporarily unavailable
OMP: Hint Try decreasing the value of OMP_NUM_THREADS.
/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34421 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
10_1101-2021_01_07_425737 txt/../wrd/10_1101-2021_01_07_425737.wrd
10_1101-2021_01_08_426008 txt/../pos/10_1101-2021_01_08_426008.pos
=== file2bib.sh ===
OMP: Error #34: System unable to allocate necessary resources for OMP thread:
OMP: System error #11: Resource temporarily unavailable
OMP: Hint Try decreasing the value of OMP_NUM_THREADS.
/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34375 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
=== file2bib.sh ===
OMP: Error #34: System unable to allocate necessary resources for OMP thread:
OMP: System error #11: Resource temporarily unavailable
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/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34972 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
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/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34142 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
10_1101-674051 txt/../pos/10_1101-674051.pos
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10_1101-674051 txt/../ent/10_1101-674051.ent
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OMP: Error #34: System unable to allocate necessary resources for OMP thread:
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/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34351 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
10_1101-674051 txt/../wrd/10_1101-674051.wrd
10_1101-2021_01_04_425209 txt/../wrd/10_1101-2021_01_04_425209.wrd
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10_1101-2021_01_08_425967 txt/../pos/10_1101-2021_01_08_425967.pos
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10_1101-2021_01_07_425737 txt/../pos/10_1101-2021_01_07_425737.pos
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OMP: Error #34: System unable to allocate necessary resources for OMP thread:
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/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 34249 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
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OMP: Error #34: System unable to allocate necessary resources for OMP thread:
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OMP: Error #34: System unable to allocate necessary resources for OMP thread:
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OMP: Error #34: System unable to allocate necessary resources for OMP thread:
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/data-disk/reader-compute/reader-classic/bin/file2bib.sh: line 39: 35029 Aborted $FILE2BIB "$FILE" > "$OUTPUT"
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Done mapping.
Reducing biochemistry-from-biorxiv
=== reduce.pl bib ===
id = 10_1101-2021_01_08_425887
author = Hu, Yan
title = Auto-CORPus: Automated and Consistent Outputs from Research Publications
date = 2021
pages = 10
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sentences = 553
flesch = 53
summary = the same structured model, so that these can be used as input to rule-based or deep learning algorithms for data extraction. example, at this point in this article the main headers are 'abstract' followed by 'introduction' and 'materials and methods' that could make up a digraph. We use this process to evaluate new potential synonyms for existing terms and identify abstract → introduction → materials → results → discussion → conclusion → acknowledgements → footnotes section → references. Based on the digraph, we then assigned data and data description to be synonyms of the materials section, and participants From the analysis of ego-networks four new potential categories were identified: disclosure, graphical abstract, highlights and participants. Newly identified synonyms for existing IAO terms (00006xx) from the digraph mapping of 2,441 publications. Newly identified synonyms for existing IAO terms (00006xx) from the digraph mapping of 2,441 publications.
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=== reduce.pl bib ===
id = 10_1101-2021_01_08_425897
author = Soleymanjahi, Saeed
title = APOBEC1 mediated C-to-U RNA editing: target sequence and trans-acting factor contribution to 177 RNA editing events in 119 murine transcripts in-vivo
date = 2021
pages = 46
extension = .pdf
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words = 12176
sentences = 1239
flesch = 63
summary = APOBEC1 mediated C-to-U RNA editing: target sequence and trans-acting factor contribution to Cofactor dominance was associated with editing frequency, with RNAs targeted by both RBM47 for site-specific Apob RNA editing and editosome assembly (Backus and Smith 1991). four subgroups based on overall structure and location of the edited cytidine: loop (Cloop), stem editing frequency (Table 1) with RNAs targeted by both RBM47 and A1CF observed to be mismatches in mooring sequence, spacer length, location of the edited cytidine, and relative The current study reflects our analysis of 177 C-to-U RNA editing sites from 119 target mRNAs, downstream sequences, host tissue and secondary structure of target mRNA were associated mooring sequence model as applied to the entire range of C-to-U RNA editing targets. independently associated with co-factor dominance in RNA editing sites. of AU base content (%) of nucleotides flanking modified cytidine in RNA editing targets and
cache = ./cache/10_1101-2021_01_08_425897.pdf
txt = ./txt/10_1101-2021_01_08_425897.txt
=== reduce.pl bib ===
id = 10_1101-2021_01_08_425918
author = Yogodzinski, Christopher H
title = A global cancer data integrator reveals principles of synthetic lethality, sex disparity and immunotherapy.
date = 2021
pages = 32
extension = .pdf
mime = application/pdf
words = 8025
sentences = 1285
flesch = 66
summary = CanDI identifies genes that are conditionally essential in BRCA-mutant ovarian cancer. (A) Average gene essentiality for KRAS and EGFR in groups of NSCLC cell lines Gene essentiality is an averaged Bayes Factor score for each group of cell lines. Average gene essentiality for KRAS and EGFR in groups of NSCLC cell lines stratified by identify genes that are differentially expressed between male and female cell lines within each factor gene essentiality scores in male and female CRC cell lines. differentially essential genes are shown in violin plots split by the sex of the cell lines. differentially essential genes are shown in violin plots split by the sex of the cell lines. differentially essential genes are shown in violin plots split by the sex of the cell lines. CD151 SLC4A2 B2M ITGA3 SLC3A2 HLA-C CD44 LRPAP1 DDR1 VDAC2 SLC29A1 SLCO4A1 B2M CD151 THY1 SLC3A2 SLC4A2 LRPAP1 HLA-C DDR1 SLC29A1 ITGA3 PTGFRN VDAC2
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txt = ./txt/10_1101-2021_01_08_425918.txt
=== reduce.pl bib ===
id = 10_1101-2021_01_08_425952
author = Nash, Anthony
title = rdrugtrajectory: An R Package for the Analysis of Drug Prescriptions in Electronic Health Care Records
date = 2021
pages = 30
extension = .pdf
mime = application/pdf
words = 10191
sentences = 1837
flesch = 56
summary = publication is by no means a complete tutorial, we will expand on some of the main package features, such as, how to: Isolate patients by first drug prescriptions at given clinical Fabricated CPRD clinical and CPRD prescription records in addition to age, gender and index of multiple deprivation scores are included Several rdrugtrajectory functions use the CPRD product.txt file for assigning a text description to a prescription prodcode. dataframes require, as a minimum, a patid and eventdate column, and either medcode or prodcode (for therapy data, issueseq is necessary), and presented in that order. functions to retrieve CPRD data, including, patient year of birth, gender (male or female) and The examples presented here and those in the reference manual rely on searching and subsetting EHR data using a list or vector of patient identifier. The final example of EHR dataframe manipulation presented here demonstrates how to retrieve all prescription records for patients prescribed a specific prescription treatment.
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txt = ./txt/10_1101-2021_01_08_425952.txt
=== reduce.pl bib ===
id = 10_1101-2020_03_27_012757
author = Peng, Da
title = Evaluating the transcriptional fidelity of cancer models
date = 2021
pages = 55
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words = 18403
sentences = 2037
flesch = 62
summary = measures the similarity of cancer models to 22 naturally occurring tumor types and 36 subtypes, 62 randomly shuffled gene-pair profiles generated from the training data of 22 tumor types to 144 CCLs. We mined RNA-seq expression data of 657 different cell lines across 20 cancer types 174 classification range for cell lines of each tumor type (Fig 2A, Supp Tab 1). CCN scores > threshold for tumor types other than that of the cell line's origin were annotated 198 Cell lines that did not receive a CCN score > threshold for any tumor type were 199 purity of general tumor type and mean CCN classification scores of CCLs in the corresponding 224 training data of general CCN classifier has little impact in the classification of SKCM cell lines. classified cell lines from each general tumor type (Fig 4D). subjected the RNA-seq expression profiles of 415 PDX models from 13 different types of cancer 357
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txt = ./txt/10_1101-2020_03_27_012757.txt
=== reduce.pl bib ===
id = 10_1101-2021_01_08_425855
author = Wu, Canbiao
title = DeepHBV: A deep learning model to predict hepatitis B virus (HBV) integration sites.
date = 2021
pages = 31
extension = .pdf
mime = application/pdf
words = 7280
sentences = 806
flesch = 53
summary = DeepHBV: A deep learning model to predict hepatitis B virus (HBV) integration sites. deep learning model DeepHBV to predict HBV integration sites by learning local learning model DeepHBV to predict HBV integration sites by learning local genomic DeepHBV effectively predicts HBV integration sites by adding genomic features. mixed HBV integration sequences, positive genome feature samples, and randomly peaks and DeepHBV with HBV integration sequences + TCGA Pan Cancer peaks) on model trained with HBV integrated sequences + TCGA Pan Cancer showed an performed better compared with DeepHBV model with HBV integration sequences + HBV integration sites + TCGA Pan Cancer, a cluster of attention weights much output of DeepHBV with HBV integration sites plus TCGA Pan Cancer showed the of DeepHBV with HBV integration sequences + TCGA Pan Cancer showed strong DeepHBV with HBV integration sequences + TCGA Pan Cancer model on (a) DeepHBV with HBV integration sequences + TCGA Pan Cancer model on (a)
cache = ./cache/10_1101-2021_01_08_425855.pdf
txt = ./txt/10_1101-2021_01_08_425855.txt
=== reduce.pl bib ===
id = 10_1101-2021_01_08_425976
author = Ahuja, Yuri
title = Semi-supervised Calibration of Risk with Noisy Event Times (SCORNET) Using Electronic Health Record Data
date = 2021
pages = 23
extension = .pdf
mime = application/pdf
words = 7047
sentences = 861
flesch = 50
summary = Semi-supervised Calibration of Risk with Noisy Event Times (SCORNET) Using Electronic Health Record Data yielding highly biased disease risk estimators if used as event time labels (Cipparone and others, 2015; Uno and SCORNET utilizes current status labels while also employing a robust semisupervised imputation approach on the extensive unlabeled set to maximize survival estimation efficiency. further illustrate the utility of SCORNET in clinical applications, we apply it to a real-world EHR study estimating the risk of heart failure among rheumatoid arthritis patients in Section 4. existing survival function estimators with current status data: 1) parametric Weibull Accelerated Failure Time confidence intervals constructed with the bootstrap (red) and plug-in (blue) standard error estimators in various simulated settings with = = 200 observed current status labels. set with observed current status labels, the SCORNET estimator serves as a robust and efficient alternative
cache = ./cache/10_1101-2021_01_08_425976.pdf
txt = ./txt/10_1101-2021_01_08_425976.txt
=== reduce.pl bib ===
id = 10_1101-2021_01_08_425379
author = Wilmes, Stephan
title = Competitive binding of STATs to receptor phospho-Tyr motifs accounts for altered cytokine responses in autoimmune disorders
date = 2021
pages = 75
extension = .pdf
mime = application/pdf
words = 36633
sentences = 7715
flesch = 76
summary = Competitive binding of STATs to receptor phospho-Tyr motifs accounts for altered cytokine responses in autoimmune disorders STAT1/3 effector activation to an unbiased and quantitative multi-omics approach: phosphoproteomics after early cytokine stimulation, kinetics of transcriptomic changes and alteration action between sustained pSTAT1 and IRF1 expression to drive the induction of an interferonlike gene signature that profoundly shaped the T-cell proteome. IL-27 induces a more sustained STAT1 activation than HypIL-6 in human Th-1 cells little effect on STAT1 activation kinetics when compared to RPE1 wild type cells, suggesting Our data suggest that STAT molecules compete for binding to a limited number of phosphoTyr motifs in the intracellular domains of cytokine receptors. immune cells differ in their expression of cytokine receptors and STATs, we investigated levels STAT1 protein levels in SLE patients modify HypIL-6 and IL-27 signaling responses STAT1 expression could significantly change cytokine-induced cellular responses by HypIL-6
cache = ./cache/10_1101-2021_01_08_425379.pdf
txt = ./txt/10_1101-2021_01_08_425379.txt
=== reduce.pl bib ===
id = 10_1101-2021_01_07_425737
author = Schepers, Matthew J
title = Isolation of the Buchnera aphidicola flagellum basal body from the Buchnera membrane
date = 2021
pages = 17
extension = .pdf
mime = application/pdf
words = 4384
sentences = 427
flesch = 59
summary = basal body structural proteins and for flagellum type III export machinery. Buchnera of the pea aphid (Acyrthosiphon pisum) maintains 26 genes coding for flagellum Buchnera maintains genes coding for the proteins required for a functional T3SS2,12, procedure for isolation of flagellum basal body complexes adapted for an endosymbiont26, allowing for removal of these structures directly from Buchnera and enrichment of flagellum basal samples were enriched during the isolation procedure: structural proteins FilE, FliF, FlgI, FlgE, Type III secretion proteins FlhA and FliP were shown to be enriched by this procedure The widespread enrichment of Buchnera flagellum proteins Though heavily expressed in Buchnera of pea aphids, components of the flagellum basal with type III secretion activity (flhA, flhB, fliP, fliQ, and fliR) and basal body structural proteins (fliE, Isolation of flagellum basal bodies from Buchnera cells accessory proteins maintained by Buchnera aphidicola in pea aphids.
cache = ./cache/10_1101-2021_01_07_425737.pdf
txt = ./txt/10_1101-2021_01_07_425737.txt
=== reduce.pl bib ===
=== reduce.pl bib ===
id = 10_1101-2021_01_06_425584
author = Moreno-Ulloa, Aldo
title = Comprehensive multi-omics study of the molecular perturbations induced by simulated diabetes on coronary artery endothelial cells
date = 2021
pages = 41
extension = .pdf
mime = application/pdf
words = 16261
sentences = 3067
flesch = 69
summary = induced by simulated diabetes on coronary artery endothelial cells 2 Coronary artery endothelial cells (CAEC) exert an important role in the development of 26 novel signatures of DNA/RNA, aminoacid, peptide, and lipid metabolism in cells under a diabetic 35 Keywords: SWATH-Proteomics; Metabolomics; Type 2 Diabetes Mellitus; Endothelial cells; 44 Artery Endothelial Cells (BCAEC) under a prolonged diabetic environment. composite network comprising PPI between the modulated proteins by simulated diabetes (seed 338 To better understand the effects that simulated diabetes exerts on endothelial cells the changes 364 used an in vitro model involving endothelial cells that modulate the heart function, CAEC (46). the understanding of amino acid metabolism in endothelial cells under simulated diabetes. glucose enhances oxidative stress and apoptosis in human coronary artery endothelial cells. high glucose on the aerobic metabolism of endothelial EA.hy926 cells. Bovine coronary artery endothelial cells (BCAEC) metabolite molecular network. by simulated diabetes in bovine coronary artery endothelial cells (BCAEC).
cache = ./cache/10_1101-2021_01_06_425584.pdf
txt = ./txt/10_1101-2021_01_06_425584.txt
=== reduce.pl bib ===
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id = 10_1101-2021_01_07_425675
author = Peng, Weiwei
title = Mass spectrometry-based sequencing of the anti-FLAG-M2 antibody using multiple proteases and a dual fragmentation scheme
date = 2021
pages = 17
extension = .pdf
mime = application/pdf
words = 7264
sentences = 569
flesch = 60
summary = Mass spectrometry-based sequencing of the anti-FLAG-M2 antibody using multiple proteases and a dual fragmentation scheme Mass spectrometry-based sequencing of the anti-FLAG-M2 antibody using multiple 1 mass spectrometry, antibody, de novo sequencing, EThcD, stepped HCD, Herceptin, FLAG tag, 16 method for direct de novo sequencing of monoclonal IgG from the purified antibody products. Direct mass spectrometry (MS)-based sequencing of the secreted antibody products is a useful 50 protocol achieved full sequence coverage of the variable domains of both heavy and light chains, 81 mass spectrometry-based de novo sequencing of the monoclonal antibody Herceptin. Mass spectrometry based de novo sequence of the mouse monoclonal anti-FLAG-M2 antibody. We next applied our sequencing protocol to the mouse monoclonal anti-FLAG-M2 antibody as a 159 antibody produced with the experimentally determined sequence demonstrate equivalent FLAG-tag binding 181 There are four other monoclonal antibody sequences against the FLAG tag publicly available 205
cache = ./cache/10_1101-2021_01_07_425675.pdf
txt = ./txt/10_1101-2021_01_07_425675.txt
=== reduce.pl bib ===
id = 10_1101-2021_01_08_425875
author = Bhaskar, Akash Kumar
title = A high content lipidomics method using scheduled MRM with variable retention time window and relative dwell time weightage
date = 2021
pages = 25
extension = .pdf
mime = application/pdf
words = 10257
sentences = 1487
flesch = 70
summary = A high content lipidomics method using scheduled MRM with variable retention time window and relative dwell time weightage However, as the retention time window width varies for each lipid species, a variable window width for each lipid species could reduce the time necessary to develop high 611 species were identified in positive mode (SM, CE, Cer, TAG, DAG, MAG) and 625 The raw analytical signal obtained for standards from plasma lipid extract (spiked with We developed a scheduled-MRM method that can identify more than 1000 lipid species identify lipid species that are altered due to vitamin B12 deficiency. bonds in fatty acid chain, we could identify considerably higher number of lipid species Lipidomics study in normal and vitamin B12 deficient human plasmaUsing the method developed we identified lipid species that are altered in individuals to detect more than 1000 lipid species in plasma, including isomers of TAG, DAG and
cache = ./cache/10_1101-2021_01_08_425875.pdf
txt = ./txt/10_1101-2021_01_08_425875.txt
=== reduce.pl bib ===
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id = 10_1101-2021_01_06_425536
author = Bignon, Emmanuelle
title = Recognition of a Tandem Lesion by DNA Glycosylases Explored Combining Molecular Dynamics and Machine Learning
date = 2021
pages = 11
extension = .pdf
mime = application/pdf
words = 8192
sentences = 877
flesch = 65
summary = Recognition of a Tandem Lesion by DNA Glycosylases Explored Combining Molecular Dynamics and Machine Learning Keywords: MutM, DNA repair glycosylase, tandem lesion, molecular dynamics simulations important MutM/Fpg residues (K60, H74, Y242, K258, and R264) are known to stabilize the DNA helix by interacting with its structural behavior of Fpg and MutM in presence of tandem DNA lesions has been reported, despite the relevance that such show that the presence of the tandem lesion induces important structural deformations to the DNA that significantly perturb The interaction network as found in the MutM:DNA crystal containing a single 8-oxoG lesion is conserved stable along our Cartoon representation of MutM interacting with the DNA helix harboring a single 8-oxoG lesion (OG19, A) or dC7/Ap20 H-bond acceptor atoms lies at 2.6±1.1 Å and 3.0±1.8 Å, respectively, in the tandem-damaged MutM:DNA complex. Importance of the contribution of residues to the MutM:DNA complex bonding for the singly-damaged (blue) and
cache = ./cache/10_1101-2021_01_06_425536.pdf
txt = ./txt/10_1101-2021_01_06_425536.txt
=== reduce.pl bib ===
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id = 10_1101-2021_01_07_425723
author = Dekker, Wijb J.C.
title = Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth
date = 2021
pages = 61
extension = .pdf
mime = application/pdf
words = 18706
sentences = 2550
flesch = 60
summary = cerevisiae, fast anaerobic growth on synthetic media requires supplementation with a source of 44 S. cerevisiae can import exogenous sterols under severely oxygen-limited or anaerobic conditions20. chemostat cultures with different aeration and anaerobic-growth-factor (AGF) supplementation 137 Fig. 3, contrast 31) in severely oxygen-limited cultures supplemented with ergosterol and Tween 80. these anaerobic growth factors from the medium of these cultures (Supplementary Fig. 6, contrast 43). marxianus strains NBRC1777 and CBS6556 were each anaerobically incubated in four replicate shake-230 For whole-genome sequencing, yeast cells were harvested from overnight cultures and DNA 562 To determine if an oxygen-limited pre-culture was required for the strict anaerobic growth of IMX2323 640 Cerevisiae in Anaerobic Glucose-Limited Chemostat Cultures. Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth 935 Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth 935 Strains were grown in shake-flask cultures in an oxygen-limited (a) and strict anaerobic 979
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=== reduce.pl bib ===
id = 10_1101-2020_05_10_087288
author = Liu, Lin
title = Heparan sulfate proteoglycans as attachment factor for SARS-CoV-2
date = 2021
pages = 20
extension = .pdf
mime = application/pdf
words = 7229
sentences = 922
flesch = 74
summary = Surface plasma resonance (SPR) showed the SARS-CoV-2 spike protein binds SARS-CoV-2, coronavirus, heparan sulfate, heparin, spike glycoprotein, microarray, glycoprotein of the virus to angiotensin-converting enzyme 2 (ACE2) of the host.2 SARSCoV is closely related to SARS-CoV-2 and employs the same receptor.3 The spike protein RBD domain of SARS-CoV-2 spike protein can bind with heparin. binding of immobilized heparin with SARS-CoV-2 related proteins (A) RBD, (B) spike monomer, Intrigued by these results, we examined if the SARS-CoV-2 proteins bind to heparan Binding of synthetic heparan sulfate oligosaccharides to SARS-CoV-2-spike and RBD (A) Binding of SARS-CoV-2-spike (10 µg/mL) to the heparan sulfate microarray. immobilized ACE2 with SARS-CoV-2 derived proteins (A) RBD, (B) spike monomer, and (C) Binding of ACE2 antibody, SARS-CoV-2 RBD, and heparan sulfate antibody to of heparin to inhibit the binding between RBD or spike with ACE2. 8. Mycroft-West, C.; Su, D.; Elli, S.; Li, Y.; Guimond, S.; Miller, G.; Turnbull, J.;
cache = ./cache/10_1101-2020_05_10_087288.pdf
txt = ./txt/10_1101-2020_05_10_087288.txt
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id = 10_1101-2021_01_05_425440
author = Rossetti, Cecilia
title = Thermal proteome profiling reveals distinct target selectivity for differentially oxidized oxysterols
date = 2021
pages = 12
extension = .pdf
mime = application/pdf
words = 5468
sentences = 401
flesch = 56
summary = Thermal proteome profiling reveals distinct target selectivity for differentially oxidized oxysterols systematic identification of oxysterol target proteins using thermal proteome profiling (TPP). two proteins identified as targets for more than one oxysterol. Identification of oxysterol target proteins using thermal proteome profiling To identify potential oxysterol target proteins, TPP was selected as the method of choice [11][12] Target identification of oxysterols using thermal proteome profiling. profiling experiments and criteria for the identification of putative oxysterol targets; B) Structures of the tested proteins, upon the incubation of HeLa cell lysates with the different oxysterols (Figure 1C). validates the use of TPP for identifying novel oxysterol target proteins, but also highlights the polymerase III transcription complex was identified as putative oxysterol targets (Figure 2C). We focused our initial analysis of specific oxysterol target proteins with 7-KC, as it is the most approach for oxysterol target protein identification. profiles, with only two proteins identified as targets of more than one oxysterol.
cache = ./cache/10_1101-2021_01_05_425440.pdf
txt = ./txt/10_1101-2021_01_05_425440.txt
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id = 10_1101-2021_01_04_425348
author = Hirayama, Chihiro
title = Distinct roles and actions of PDI family enzymes in catalysis of nascent-chain disulfide formation
date = 2021
pages = 49
extension = .pdf
mime = application/pdf
words = 15285
sentences = 2586
flesch = 78
summary = ERp46-catalyzed disulfide bond formation in ribosome-associated nascent chains 35 and PDI could introduce a disulfide bond into the ribosome-associated HSA nascent 103 In contrast to PDI, ERp46 could introduce a native disulfide bond into RNC 181 Like PDI, ERp46 also introduced a non-native disulfide bond 182 Accessibility of PDI/ERp46 to cysteines on the ribosome-HSA nascent chain 195 Disulfide bond introduction into a longer HSA nascent chain by PDI/ERp46 251 somehow prevent PDI and ERp46 from introducing a disulfide bond into RNC 95-aa. PDI and ERp46 are predicted to bind RNCs transiently during disulfide bond 315 PDI I289A and ERp57 were found to introduce a disulfide bond into RNC 82-aa at a 375 B, D PDI(B) and ERp46 (D)-mediated disulfide bond introduction into RNC 82-aa 776 Figure 4 Disulfide bond introduction into RNC 95-aa by PDI and ERp46 787 A Disulfide bond introduction into RNC 82-aa by PDI I289A (upper) and ERp57 838
cache = ./cache/10_1101-2021_01_04_425348.pdf
txt = ./txt/10_1101-2021_01_04_425348.txt
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id = 10_1101-2021_01_06_425465
author = Guercio, Angelica M.
title = Structural Basis of KAI2 Divergence in Legume
date = 2021
pages = 41
extension = .pdf
mime = application/pdf
words = 11618
sentences = 1804
flesch = 68
summary = the substitution of a few amino acids can alter ligand specificity between KAI2 duplicated the legume crystal structure of Pisum sativum KAI2B at 1.6Å resolution (Figure 4 and Table 1). structural rearrangements between PsKAI2B and the previously determined Arabidopsis KAI2 To further determine the differential ligand specificity between PsKAI2A and PsKAI2B, we utilized the PsKAI2B crystal structure reported here to generate a 3D model for PsKAI2A. Structural comparative analysis within the ligandbinding pocket shows divergent solvent accessibility between PsKAI2A and PsKAI2B (Figure reported apo and ligand bound D14/KAI2 crystal structures11,12,19,36,50. structure highlights a potential new intermediate in the ligand cleavage mechanism by KAI2 Structural basis of unique ligand specificity of KAI2-like protein from Structural analysis of HTL and D14 proteins reveals the basis for ligand The Structure of the Karrikin-Insensitive Protein (KAI2) in The crystal structure of legume KAI2. Structural basis of PsKAI2B ligand interaction.
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txt = ./txt/10_1101-2021_01_06_425465.txt
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id = 10_1101-2021_01_04_425218
author = Masri, Rana El
title = Extracellular endosulfatase Sulf-2 harbours a chondroitin/dermatan sulfate chain that modulates its enzyme activity
date = 2021
pages = 42
extension = .pdf
mime = application/pdf
words = 12979
sentences = 1074
flesch = 58
summary = Extracellular endosulfatase Sulf-2 harbours a chondroitin/dermatan sulfate chain that modulates its enzyme activity In conclusion, our results highlight HSulf-2 as a unique proteoglycan enzyme and its newlyidentified GAG chain as a critical non-catalytic modulator of the enzyme activity. also failed to detect the C-terminal chain containing the enzyme HD domain using PAGE analysis (Figure Nano-scale liquid chromatography MS/MS analysis of trypsinand chondroitinase ABC-digested PGs isolated from the culture medium of human neuroblastoma SHSY5Y cells led to the identification of a HSulf-2 specific, 21 amino acid long glycopeptide highlighting a HSulf-2 GAG chain modulates enzyme activity in vitro These data therefore suggest that HSulf-2 GAG chain may also influence enzyme HSulf-2 GAG chain modulates tumor growth and metastasis in vivo Hsulf-2 GAG chain could also modulate the enzyme function through other mechanisms. We thus next analyzed the effect of HSulf-2 GAG chain in an in vivo mouse xenograft model of cancer
cache = ./cache/10_1101-2021_01_04_425218.pdf
txt = ./txt/10_1101-2021_01_04_425218.txt
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id = 10_1101-2021_01_06_425657
author = Johnson, Zane
title = The SCFMet30 ubiquitin ligase senses cellular redox state to regulate the transcription of sulfur metabolism gene
date = 2021
pages = 35
extension = .pdf
mime = application/pdf
words = 14821
sentences = 2231
flesch = 75
summary = The SCFMet30 ubiquitin ligase senses cellular redox state to regulate the transcription of sulfur metabolism gene In yeast, control of sulfur amino acid metabolism relies upon Met4, a transcription factor which 15 When yeast cells sense sufficiently high levels of sulfur in the environment, the MET gene 40 work together to regulate levels of MET gene transcripts in response to the availability of sulfur or 51 acute depletion of sulfur metabolites and the activation of the MET gene regulon (Sutter et al., 88 sulfur metabolic pathway was sufficient to rescue Met30 E3 ligase activity and re-ubiquitinate 125 yeast cells starved of sulfur readily reversed Met30 cysteine oxidation. Since the cysteine residues within Met30 became rapidly oxidized in sulfur-free conditions, the 214 we performed in parallel the Met30-Flag IP with cells grown in both high and low sulfur 223 metabolite levels in yeast, Met30, is regulated by reversible cysteine oxidation.
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txt = ./txt/10_1101-2021_01_06_425657.txt
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id = 10_1101-2021_01_08_425967
author = Camacho-Hernández, Diego A.
title = Partition Quantitative Assessment (PQA): A quantitative methodology to assess the embedded noise in clustered omics and systems biology data
date = 2021
pages = 9
extension = .pdf
mime = application/pdf
words = 4220
sentences = 355
flesch = 56
summary = Partition Quantitative Assessment (PQA): A quantitative methodology to assess the embedded noise in clustered omics and systems biology data noise in clustered omics and systems biology data noise is embedded in the resulting clustered vector. clustering algorithm orders the data, with several measures regarding external and internal classification yielded in clustering analysis of the data. Such partition vector is colored according to the classification that each item is associated cluster, this noise may be due to the intrinsic metric or marker used to order the data set. to a vector of numeric labels, in which a number represents a classification, to be able to calculate SC. Effect of the length and number of partitions of the vector in the Z-score distributions. statistical significance of the PQA score because of the less the number of items in the VP, the greater Finally, to assess the PQA methodology using systems biology data we clustered 210 networks
cache = ./cache/10_1101-2021_01_08_425967.pdf
txt = ./txt/10_1101-2021_01_08_425967.txt
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id = 10_1101-2021_01_08_426008
author = Pipes, Lenore
title = AncestralClust: Clustering of Divergent Nucleotide Sequences by Ancestral Sequence Reconstruction using Phylogenetic Trees
date = 2021
pages = 7
extension = .pdf
mime = application/pdf
words = 3682
sentences = 382
flesch = 63
summary = AncestralClust: Clustering of Divergent Nucleotide Sequences by Ancestral Sequence Reconstruction using Phylogenetic Trees Despite the exponential increase in the size of sequence databases of homologous genes, few methods exist to cluster At low identities, these methods produce uneven clusters where the majority of sequences are are no clustering methods that can accurately cluster large taxonomically divergent metabarcoding reference databases such as databases (Schoch et al., 2020), there is a need for new computationally efficient methods that can cluster divergent sequences. To cluster divergent sequences, we developed AncestralClust clustering methods: UCLUST (Edgar, 2010), meshclust2 (James dataset against UCLUST because it is the most widely used clustering program and it performs better than CD-HIT on low identity We developed a phylogenetic-based clustering method, AncestralClust, specifically to cluster divergent metabarcode sequences. Comparisons of clustering methods using 13,043 COI sequences from 11 different species.
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txt = ./txt/10_1101-2021_01_08_426008.txt
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id = 10_1101-2020_12_29_424482
author = Sauer, Maximilian M.
title = Structural basis for broad coronavirus neutralization
date = 2021
pages = 40
extension = .pdf
mime = application/pdf
words = 15457
sentences = 1555
flesch = 68
summary = B6 cross-reactivity with β-coronaviruses from three lineages along with proof-ofconcept for antibody-mediated broad coronavirus neutralization elicited through (mAbs) with potent neutralizing activity were identified against the SARS-CoV-2, SARSCoV and MERS-CoV RBDs and shown to protect against viral challenge in vivo (Alsoussi Crystal structures of B6 in complex with MERS-CoV S, SARSCoV/SARS-CoV-2 S, OC43 S and HKU4 S stem helix peptides combined with binding conformational changes leading to membrane fusion and identify a key target for nextgeneration structure-guided design of a pan-coronavirus vaccine. (A-B) Molecular surface representation of a composite model of the B6-bound MERSCoV S cryoEM structure and of the B6-bound MERS-CoV S stem helix peptide crystal docking the crystal structure of B6 bound to the MERS-CoV stem helix in the cryoEM Comparison of the B6-bound structures of MERS-CoV, HKU4, SARS-CoV/SARSCoV-2 and OC43 S stem helix peptides explains the broad mAb cross-reactivity with βclassification of neutralizing antibodies against the SARS-CoV-2 spike receptor-binding domain
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id = 10_1101-2020_12_31_424931
author = Banchenko, Sofia
title = Structural insights into Cullin4-RING ubiquitin ligase remodelling by Vpr from simian immunodeficiency viruses
date = 2021
pages = 45
extension = .pdf
mime = application/pdf
words = 16409
sentences = 1983
flesch = 68
summary = SDS-PAGE shows that SAMHD1-ΔCtD did not co-elute with DDB1/DCAF1-CtD/Vprmus (Fig 1A, B, 138 Crystal Structure analysis of apoand Vprmus-bound DDB1/DCAF1-CtD protein 154 Superposition of the apo-DDB1/DCAF1-CtD and Vprmus-bound crystal structures reveals 176 DDB1/DCAF1-CtD/Vprmus/SAMHD1 complex peak (Fig 2D, fraction 6), when compared to the wild 199 To obtain mechanistic insight into Vprmus-recruitment of SAMHD1-CtD, we initiated cryo-EM analyses 209 Molecular models of DDB1 BP domains A and C (BPA, BPC), DCAF1-CtD and Vprmus, derived from 218 biochemical data, showing that SAMHD1-CtD is sufficient for recruitment to DDB1/DCAF1/Vprmus, 226 SAMHD1-CtD cross-links were with the C-terminus of CUL4 and the "acidic loop" of DCAF1 (Fig 245 A66W mutant showed a reduction of DDB1/DCAF1-CtD/Vprmus/SAMHD1 complex peak intensity (Fig 261 Like SIV Vpx, "hybrid" Vpr proteins down-regulate the host restriction factor SAMHD1 by recruiting 324 both DDB1/DCAF1-CtD/Vprmus (core) and CUL4/ROC1 (stalk). (A) GF analysis of in vitro reconstitution of protein complexes containing DDB1/DCAF1-CtD, Vprmus 972 Crystal structure of the DDB1/DCAF1-CtD/Vprmus complex.
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id = 10_1101-2021_01_05_425432
author = Liu, Fan
title = High-throughput tandem-microwell assay for ammonia repositions FDA-Approved drugs to Helicobacter pylori infection
date = 2021
pages = 79
extension = .pdf
mime = application/pdf
words = 19304
sentences = 1986
flesch = 65
summary = urease inhibitor and clinically used drug for the treatment of bacterial infection. To determine the reversibility of the inhibition by panobinostat, dacinostat, EBS, captan 150 To identify the active chemical moiety of panobinostat, dacinostat, EBS or captan 280 inhibitory effects of panobinostat, dacinostat, EBS, captan and disulfiram, as well as the 453 analogs of EBS in the in vitro JBU activity assay, were determined in the presence of 454 Bacterial-cell-based assay for measuring the activity of urease in culture 592 Dose-dependent effects of panobinostat, dacinostat, EBS, captan and disulfiram on the activity of JBU 775 Figure 2 Panobinostat, dacinostat, EBS and captan inhibit the activity of JBU. Figure 3 EBS or captan allosterically inhibits the activity of urease by covalently modifying a 797 (B) Panobinostat, dacinostat, EBS, captan and disulfiram inhibit the activity of purified HPU 817 activity of JBU or the inhibition potency of panobinostat, dacinostat, EBS, captan or 211
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id = 10_1101-2020_12_31_424971
author = Gamper, Howard
title = Insights into Genome Recoding from the Mechanism of a Classic +1-Frameshifting tRNA
date = 2021
pages = 59
extension = .pdf
mime = application/pdf
words = 23040
sentences = 1945
flesch = 66
summary = codons by a +1-frameshifting tRNA, SufB2, that contains an extra nucleotide in its anticodon loop. We show that SufB2 uses triplet anticodon-codon pairing in the 0-frame to initially decode the 33 loops (ASLs) of +1-frameshifting tRNAs have been found to use triplet anticodon-codon pairing 78 +1 frameshifting activity of SufB2 relative to its closest counterpart, ProL, at a CCC-C motif, and 103 SufB2 and ProL lacking all post-transcriptional modifications (termed the G37-state tRNAs), or 131 ribosome in response to the CCC-C motif, and that the efficiency of delivery by G37-state SufB2 202 SufB2 exhibits triplet pairing in the 0-frame at the A site (Figures 3a-c, Supplementary Table 2, 290 SufB2 anticodon loop and/or the CCC-C motif at the 2nd codon position of the mRNA. as a function of time for delivery of G37or native-state SufB2or ProL-TC to the A site of a 70S 1267
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id = 10_1101-2020_12_31_424969
author = Garza, Natalie M.
title = A genome wide copper-sensitized screen identifies novel regulators of mitochondrial cytochrome c oxidase activity
date = 2021
pages = 26
extension = .pdf
mime = application/pdf
words = 13260
sentences = 1874
flesch = 65
summary = A genome wide copper-sensitized screen identifies novel regulators of mitochondrial cytochrome c oxidase activity A genome wide copper-sensitized screen identifies novel regulators of mitochondrial Keywords: Copper, mitochondria, vacuole, cytochrome c oxidase, pH, AP-3, Rim20, Rim21 respiratory growth of yeast mutants such as these genes in cellular copper homeostasis, ATPase function, mitochondrial copper genes required for respiratory growth, mitochondrial genome maintenance and nuclear gene function in respiratory growth and expression of the mitochondrial genome Yeast genes required for respiratory growth. Genes required for copper homeostasis. Normalization of vacuolar pH in rim20Δ cells restores mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper
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id = 10_1101-674051
author = Morabito, Gabriele
title = Easy Kinetics: a novel enzyme kinetic characterization software
date = 2021
pages = 9
extension = .pdf
mime = application/pdf
words = 3512
sentences = 328
flesch = 55
summary = Q.C.V.)*100 for Vmax, showing a non normal distribution of the values generated for 3 of the tested substrates medians values of Vmax generated by Easy Kinetics for all the tested substrates were correlated with those Fig.2 Model's precision analysis: A) Kinetic curves of the two enzymes tested for different limiting substrates, respectively Xanthine or B-D) Boxplots representing the distributions of Vmax, Km and nH values generated with Easy Kinetics showing graphically the linear correlation between the Vmax and Km generated both by Easy Kinetics (n=4) and GraphPad prism 8 (n=4). The tested substrates show a normal distributions of medians values for Vmax generated using Easy Kinetics (W = 0.87392, p-value = test, while a non normal distribution of mean values for Km generated using Easy Kinetics (W = 0.67175, p-value = 0.005173) and of by commercial software to evaluate the main kinetic parameters of an enzyme.
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id = 10_1101-2020_12_31_424989
author = Hojjatian, Alimohammad
title = Distinct cryo-EM Structure of α-synuclein Filaments derived by Tau
date = 2021
pages = 24
extension = .pdf
mime = application/pdf
words = 7945
sentences = 801
flesch = 58
summary = Distinct cryo-EM Structure of α-synuclein Filaments derived by Tau report structural characterizations of -synuclein filaments derived by a potential co-factor, tau, However, the Nand C-terminal regions of the tau-promoted -synuclein filament have investigation of tau-promoted α-synuclein filaments using solid-state NMR and cryo-EM to state NMR studies indicate that the tau-promoted α-synuclein filaments have similar structural Resolution of the tau-promoted α-synuclein filament density map was not high enough for de novo Solid-state NMR of Tau-promoted α-synuclein filaments Representative TEM images of tau-promoted α-synuclein filaments showing the Cryo-EM structure of the tau-promoted α-synuclein filaments Overlaid structures of the tau-promoted α-synuclein filament (purple) and polymorph 2b (green). In this work, we solved cryo-EM structure of α-synuclein filaments derived by tau and increased helical twist of the tau-promoted full-length α-synuclein filaments may result from the Gath, J., Bousset, L., Habenstein, B., Melki, R., Bockmann, A., and Meier, B.
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id = 10_1101-2021_01_04_425177
author = Gielnik, Maciej
title = The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP)
date = 2021
pages = 12
extension = .pdf
mime = application/pdf
words = 4668
sentences = 458
flesch = 64
summary = The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP) aggregation of the human prion protein (PrP) engineered cell-penetrating peptide constructs can reduce the amount of prion Udgaonkar, 2018; Verma et al., 2015), such as the prion (PrP) protein (CreutzfeldtJakob disease), α-synuclein (Parkinson's disease), and amyloid-β (Aβ) and tau As the NCAM1-Aβ construct inhibits fibrillation of the Aβ peptide (HenningKnechtel et al., 2020), but promotes (co-)aggregation of the S100A9 protein (Pansieri huPrP protein + 0.5 µM NCAM1-Aβ peptide, incubated for 72 hours. between NCAM1-Aβ and S100A9 protein, where amyloid aggregation is promoted might affect the aggregation of other disease-related prion proteins, such as those prion aggregates in infected cells, is that these peptide constructs directly interact with properties of prion protein-derived cell-penetrating peptides. Cytotoxicity of prion protein-derived cell-penetrating peptides is modulated by pH ProInflammatory S100A9 Protein Aggregation Promoted by NCAM1 Peptide Constructs. Formation and properties of amyloid fibrils of prion protein.
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id = 10_1101-2021_01_03_425159
author = Berntsson, Elina
title = 6-gingerol interferes with amyloid-beta (Aβ) peptide aggregation
date = 2021
pages = 16
extension = .pdf
mime = application/pdf
words = 5880
sentences = 569
flesch = 65
summary = 6-gingerol interferes with amyloid-beta (Aβ) peptide aggregation 6-gingerol interferes with amyloid-beta (Aβ) peptide aggregation Key Words: Alzheimer's disease; Amyloid aggregation; Neurodegeneration; Ginger; gingerols and Aβ peptides have not been studied at the molecular level. To monitor the effect of 6-gingerol on Aβ40 aggregation kinetics, 15 µM control sample without 6-gingerol but containing 2% DMSO was prepared. the samples to aggregate into mature fibrils that could be observed with AFM imaging gingerol, has minor effects on the aggregation kinetics, i.e. by slightly increasing the With 6-gingerol, some additions produce aggregation kinetics µM 6-gingerol appears to speed up the aggregation (τlag = 0.5 h; τ½ = 1.7 h). gingerol has no systematic effect on Aβ40 aggregation or amyloid formation. sample with 300 µM of 6-gingerol and 2% DMSO does however display a different interactions between 6-gingerol and the monomeric Aβ40 peptide. Alzheimer peptides aggregate Biophysical studies of the amyloid beta-peptide: interactions with metal
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id = 10_1101-2020_09_18_291195
author = Yui, Anna
title = Dimerization mechanism and structural features of human LI-cadherin
date = 2021
pages = 31
extension = .pdf
mime = application/pdf
words = 10845
sentences = 1053
flesch = 61
summary = Dimerization mechanism and structural features of human LI-cadherin Dimerization mechanism and structural features of human LI-cadherin Keywords: Cadherin, dimerization, cell adhesion, protein chemistry, crystal structure, small‐angle X‐ray The crystal structure also revealed that LI-cadherin the crystal structure is necessary for LI-cadherindependent cell adhesion by performing cell calcium ion-dependent cell adhesion molecule as For example, classical cadherins form a homodimer To validate if LI-cadherin-dependent cell adhesion LI-cadherin in our crystal structure (Fig. S8), its crucial for LI-cadherin-dependent cell adhesion and 4 homodimer observed by crystal structure (Fig. 3) movement of Ca2+-free linker to maintain LIcadherin-dependent cell adhesion (Fig. S15). The roles of LI-cadherin on cancer cells of cancer cells suggest that LI-cadherin acts differently with E-cadherin on cancer cells. role of LI-cadherin in cancer cells with respect to LI-cadherin-dependent cell adhesion. LI-cadherin-dependent cell adhesion. (2002) C-cadherin ectodomain structure and implications for cell adhesion mechanisms. by crystal structures of type i cadherins.
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id = 10_1101-2021_01_04_425209
author = Marzabani, Rezvan
title = Amino acids targeted based metabolomics study in non-segmental Vitiligo: a pilot study
date = 2021
pages = 20
extension = .pdf
mime = application/pdf
words = 6045
sentences = 437
flesch = 49
summary = Amino acids targeted based metabolomics study in non-segmental Vitiligo: a pilot study Methodology: The study of amino acid profiles in plasma of people with non-segmental vitiligo Keywords: Vitiligo, plasma, metabolomics, amino acids, liquid chromatography, R programing Oxidative stress biomarkers could be finding in the skin and blood of vitiligo patients. amino acids differences in concentration between vitiligo and healthy samples. (a) Volcano graph related to amino acids concentration change in the studied Vitiligo samples, (b) Gini Following the question on the variation of amino acids concentration inside Vitiligo cases with diagram for different ratio of amino acids in the Vitiligo samples are prepared. To best of our knowledge, there are few studied on the role of amino acids in vitiligo. profile of free amino acids, to investigate changes in those and metabolic pathways of vitiligo. autoimmunity, and oxidative stress (increased glutamic acid and proline and decreased arginine,
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id = 10_1101-2020_04_24_059154
author = Hossain, Musaddique
title = Biochemical, structural insights of newly isolated AA16 family of Lytic Polysaccharide Monooxygenase (LPMO) from Aspergillus fumigatus and investigation of its synergistic effect using biomass
date = 2021
pages = 30
extension = .pdf
mime = application/pdf
words = 9146
sentences = 1051
flesch = 58
summary = newly isolated AA16 family of Lytic Polysaccharide Monooxygenase (LPMO) from 9 study, we have biochemically and functionally characterized the new AA16 family of LPMO 48 characterization, biomass degradation activity of AfLPMO16, and cellulase cocktail 51 Keywords: A.fumigatus, Auxiliary activity, Cloning, Kinetics, LPMO, Lignocelluloses, 55 (unnamed domain) and later identified as C1-oxidizing LPMO active on cellulose [21]. The AfLPMO16 contains 19 amino acids long N-terminal signal peptide before His1 catalytic 147 interaction study suggests that the AfLPMO16 may also bind to cellulose [52]. AfLPMO16 showed efficient depolymerization activity on both CMC and PASC (Fig. 6a & 231 0.04 mg/ml to 0.06 mg/ml, reducing sugar quantified for AfLPMO16 treated biomass (Fig. 281 activity two-fold compared to the only cellulase treated biomass (Fig. 7c). 7c), where the only AfLPMO16 and only cellulase treated biomass hydrolysis activity is low 335 Biomass and cellulose hydrolysis by cellulase and AfLPMO16 429
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txt = ./txt/10_1101-2020_04_24_059154.txt
Building ./etc/reader.txt
10_1101-2021_01_05_425432
10_1101-2021_01_08_425379
10_1101-2021_01_07_425723
10_1101-2020_12_29_424482
10_1101-2020_07_08_188672
10_1101-2021_01_02_425093
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sum of words: 382,518
average size in words: 11,250
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nouns: preprint; version; author; review; holder; peer; copyright; funder; preprintthis; cells; license; perpetuity; %; protein; data; cell; fig; analysis; licenseavailable; figure; structure; proteins; p; c; model; a.; time; activity; site; b; membrane; licensemade; sequence; complex; dna; rights; reuse; permission; h; e; gene; study; min; expression; cancer; -; results; domain; genes; a
verbs: is; was; were; are; has; posted; certified; using; display; biorxiv; granted; be; made; used; binding; have; based; allowed; shown; performed; reserved; been; containing; found; bound; described; incubated; observed; showed; identified; associated; obtained; compared; determined; including; indicated; induced; calculated; measured; reported; followed; purified; increased; added; derived; show; following; showing; selected; analyzed
adjectives: -; available; different; international; human; high; other; molecular; single; structural; specific; non; same; such; dependent; biological; similar; new; multiple; free; first; relative; higher; low; active; final; cryo; significant; more; complex; additional; anti; disulfide; amino; independent; functional; standard; native; several; preprint; full; important; small; distinct; initial; cellular; large; negative; viral; positive
adverbs: not; also; then; well; only; however; respectively; previously; more; as; thus; here; further; out; most; together; highly; therefore; significantly; first; even; assays; above; very; directly; up; next; prior; finally; down; likely; interestingly; recently; m; twice; moreover; furthermore; at; least; subsequently; alone; thereby; still; specifically; e.g.; approximately; additionally; notably; much; left
pronouns: we; it; our; its; their; they; i; his; them; us; https://doi.org/10.1101/2021.01.05.425432; itself; ya; he; one; https://doi.org/10.1101/2021.01.08.425918; https://doi.org/10.1101/2020.06.17.156679; https://doi.org/10.1101/2020.04.24.059154; u; me; em; you; themselves; il-27ra; −)-gr24; zncl2; s; my; mtorc1; matchdrugwithdisease; ico; https://doi.org/10.1101/2021.01.08.425875; https://doi.org/10.1101/2021.01.08.423993; +1-frameshifting; 𝑓; †; biochim; ~1:50; ~125; your; us-; snm1b; rcsfgs2; pskai2a; pad2bsabi; oxysterols; ourself; ng; na; mrnas
proper nouns: al; january; et; c; j.; .; m.; s.; nd; m; s; nc; international; ⋅; c.; d.; a.; j; r.; figure; l.; k.; e.; h.; e; mm; p.; b.; a; fig; b; il-27; g.; t.; ph; d; n; biol; −; sars; f; p; y.; g; w.; l; n.; sp; cov-2; µm
keywords: january; international; fig; figure; sars; dna; ace2; supp; rna; rbd; cell; aβ40; 𝐷27; 𝐷23; −)-gr24; wärmländer; wang; vpx; vprmus; vitiligo; ulk1; uclust; type; trypanosoma; tmd; table; synuclein; supplemental; suppl; std; stat1; snm1a; scornet; samhd1; rpe1; rpe; roc1; rnc; rbd-62; protein; prescription; preprint; pre; pqa; ppe; pos; pnpla2; pi3kc3-c1; pedf; pdi
one topic; one dimension: 10
file(s): ./cache/10_1101-2021_01_08_425887.pdf
titles(s): Auto-CORPus: Automated and Consistent Outputs from Research Publications
three topics; one dimension: 10; org; 10
file(s): ./cache/10_1101-2021_01_07_425723.pdf, ./cache/10_1101-2020_12_31_424971.pdf, ./cache/10_1101-2021_01_08_425379.pdf
titles(s): Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth | Insights into Genome Recoding from the Mechanism of a Classic +1-Frameshifting tRNA | Competitive binding of STATs to receptor phospho-Tyr motifs accounts for altered cytokine responses in autoimmune disorders
five topics; three dimensions: 10 org et; 10 org 2021; 10 il doi; org 2021 10; org 10 https
file(s): , ./cache/10_1101-2020_03_27_012757.pdf, ./cache/10_1101-2021_01_08_425379.pdf, ./cache/10_1101-2021_01_07_425723.pdf, ./cache/10_1101-2020_12_31_424971.pdf
titles(s): Intramolecular quality control: HIV-1 Envelope gp160 signal-peptide cleavage as a functional folding checkpoint | Evaluating the transcriptional fidelity of cancer models | Competitive binding of STATs to receptor phospho-Tyr motifs accounts for altered cytokine responses in autoimmune disorders | Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth | Insights into Genome Recoding from the Mechanism of a Classic +1-Frameshifting tRNA
Type: biorxiv
title: biochemistry-from-biorxiv
date: 2021-01-10
time: 04:05
username: emorgan
patron: Eric Morgan
email: emorgan@nd.edu
input: kn8iMRwsPH.xml
==== make-pages.sh htm files
==== make-pages.sh complex files
==== make-pages.sh named enities
==== making bibliographics
id: 10_1101-2021_01_08_425976
author: Ahuja, Yuri
title: Semi-supervised Calibration of Risk with Noisy Event Times (SCORNET) Using Electronic Health Record Data
date: 2021
words: 7047.0
sentences: 861.0
pages: 23.0
flesch: 50.0
cache: ./cache/10_1101-2021_01_08_425976.pdf
txt: ./txt/10_1101-2021_01_08_425976.txt
summary: Semi-supervised Calibration of Risk with Noisy Event Times (SCORNET) Using Electronic Health Record Data yielding highly biased disease risk estimators if used as event time labels (Cipparone and others, 2015; Uno and SCORNET utilizes current status labels while also employing a robust semisupervised imputation approach on the extensive unlabeled set to maximize survival estimation efficiency. further illustrate the utility of SCORNET in clinical applications, we apply it to a real-world EHR study estimating the risk of heart failure among rheumatoid arthritis patients in Section 4. existing survival function estimators with current status data: 1) parametric Weibull Accelerated Failure Time confidence intervals constructed with the bootstrap (red) and plug-in (blue) standard error estimators in various simulated settings with = = 200 observed current status labels. set with observed current status labels, the SCORNET estimator serves as a robust and efficient alternative
id: 10_1101-2020_12_31_424931
author: Banchenko, Sofia
title: Structural insights into Cullin4-RING ubiquitin ligase remodelling by Vpr from simian immunodeficiency viruses
date: 2021
words: 16409.0
sentences: 1983.0
pages: 45.0
flesch: 68.0
cache: ./cache/10_1101-2020_12_31_424931.pdf
txt: ./txt/10_1101-2020_12_31_424931.txt
summary: SDS-PAGE shows that SAMHD1-ΔCtD did not co-elute with DDB1/DCAF1-CtD/Vprmus (Fig 1A, B, 138 Crystal Structure analysis of apoand Vprmus-bound DDB1/DCAF1-CtD protein 154 Superposition of the apo-DDB1/DCAF1-CtD and Vprmus-bound crystal structures reveals 176 DDB1/DCAF1-CtD/Vprmus/SAMHD1 complex peak (Fig 2D, fraction 6), when compared to the wild 199 To obtain mechanistic insight into Vprmus-recruitment of SAMHD1-CtD, we initiated cryo-EM analyses 209 Molecular models of DDB1 BP domains A and C (BPA, BPC), DCAF1-CtD and Vprmus, derived from 218 biochemical data, showing that SAMHD1-CtD is sufficient for recruitment to DDB1/DCAF1/Vprmus, 226 SAMHD1-CtD cross-links were with the C-terminus of CUL4 and the "acidic loop" of DCAF1 (Fig 245 A66W mutant showed a reduction of DDB1/DCAF1-CtD/Vprmus/SAMHD1 complex peak intensity (Fig 261 Like SIV Vpx, "hybrid" Vpr proteins down-regulate the host restriction factor SAMHD1 by recruiting 324 both DDB1/DCAF1-CtD/Vprmus (core) and CUL4/ROC1 (stalk). (A) GF analysis of in vitro reconstitution of protein complexes containing DDB1/DCAF1-CtD, Vprmus 972 Crystal structure of the DDB1/DCAF1-CtD/Vprmus complex.
id: 10_1101-2021_01_03_425155
author: Berntsson, Elina
title: Lithium ions display weak interaction with amyloid-beta (Aβ) peptides and have minor effects on their aggregation
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
txt:
summary:
id: 10_1101-2021_01_03_425159
author: Berntsson, Elina
title: 6-gingerol interferes with amyloid-beta (Aβ) peptide aggregation
date: 2021
words: 5880.0
sentences: 569.0
pages: 16.0
flesch: 65.0
cache: ./cache/10_1101-2021_01_03_425159.pdf
txt: ./txt/10_1101-2021_01_03_425159.txt
summary: 6-gingerol interferes with amyloid-beta (Aβ) peptide aggregation 6-gingerol interferes with amyloid-beta (Aβ) peptide aggregation Key Words: Alzheimer''s disease; Amyloid aggregation; Neurodegeneration; Ginger; gingerols and Aβ peptides have not been studied at the molecular level. To monitor the effect of 6-gingerol on Aβ40 aggregation kinetics, 15 µM control sample without 6-gingerol but containing 2% DMSO was prepared. the samples to aggregate into mature fibrils that could be observed with AFM imaging gingerol, has minor effects on the aggregation kinetics, i.e. by slightly increasing the With 6-gingerol, some additions produce aggregation kinetics µM 6-gingerol appears to speed up the aggregation (τlag = 0.5 h; τ½ = 1.7 h). gingerol has no systematic effect on Aβ40 aggregation or amyloid formation. sample with 300 µM of 6-gingerol and 2% DMSO does however display a different interactions between 6-gingerol and the monomeric Aβ40 peptide. Alzheimer peptides aggregate Biophysical studies of the amyloid beta-peptide: interactions with metal
id: 10_1101-2021_01_08_425875
author: Bhaskar, Akash Kumar
title: A high content lipidomics method using scheduled MRM with variable retention time window and relative dwell time weightage
date: 2021
words: 10257.0
sentences: 1487.0
pages: 25.0
flesch: 70.0
cache: ./cache/10_1101-2021_01_08_425875.pdf
txt: ./txt/10_1101-2021_01_08_425875.txt
summary: A high content lipidomics method using scheduled MRM with variable retention time window and relative dwell time weightage However, as the retention time window width varies for each lipid species, a variable window width for each lipid species could reduce the time necessary to develop high 611 species were identified in positive mode (SM, CE, Cer, TAG, DAG, MAG) and 625 The raw analytical signal obtained for standards from plasma lipid extract (spiked with We developed a scheduled-MRM method that can identify more than 1000 lipid species identify lipid species that are altered due to vitamin B12 deficiency. bonds in fatty acid chain, we could identify considerably higher number of lipid species Lipidomics study in normal and vitamin B12 deficient human plasmaUsing the method developed we identified lipid species that are altered in individuals to detect more than 1000 lipid species in plasma, including isomers of TAG, DAG and
id: 10_1101-2021_01_06_425536
author: Bignon, Emmanuelle
title: Recognition of a Tandem Lesion by DNA Glycosylases Explored Combining Molecular Dynamics and Machine Learning
date: 2021
words: 8192.0
sentences: 877.0
pages: 11.0
flesch: 65.0
cache: ./cache/10_1101-2021_01_06_425536.pdf
txt: ./txt/10_1101-2021_01_06_425536.txt
summary: Recognition of a Tandem Lesion by DNA Glycosylases Explored Combining Molecular Dynamics and Machine Learning Keywords: MutM, DNA repair glycosylase, tandem lesion, molecular dynamics simulations important MutM/Fpg residues (K60, H74, Y242, K258, and R264) are known to stabilize the DNA helix by interacting with its structural behavior of Fpg and MutM in presence of tandem DNA lesions has been reported, despite the relevance that such show that the presence of the tandem lesion induces important structural deformations to the DNA that significantly perturb The interaction network as found in the MutM:DNA crystal containing a single 8-oxoG lesion is conserved stable along our Cartoon representation of MutM interacting with the DNA helix harboring a single 8-oxoG lesion (OG19, A) or dC7/Ap20 H-bond acceptor atoms lies at 2.6±1.1 Å and 3.0±1.8 Å, respectively, in the tandem-damaged MutM:DNA complex. Importance of the contribution of residues to the MutM:DNA complex bonding for the singly-damaged (blue) and
id: 10_1101-2021_01_01_425047
author: Bullock, Jeanee
title: Degradation of Photoreceptor Outer Segments by the Retinal Pigment Epithelium Requires Pigment Epithelium-derived Factor Receptor (PEDF-R)
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
txt:
summary:
id: 10_1101-2021_01_08_425967
author: Camacho-Hernández, Diego A.
title: Partition Quantitative Assessment (PQA): A quantitative methodology to assess the embedded noise in clustered omics and systems biology data
date: 2021
words: 4220.0
sentences: 355.0
pages: 9.0
flesch: 56.0
cache: ./cache/10_1101-2021_01_08_425967.pdf
txt: ./txt/10_1101-2021_01_08_425967.txt
summary: Partition Quantitative Assessment (PQA): A quantitative methodology to assess the embedded noise in clustered omics and systems biology data noise in clustered omics and systems biology data noise is embedded in the resulting clustered vector. clustering algorithm orders the data, with several measures regarding external and internal classification yielded in clustering analysis of the data. Such partition vector is colored according to the classification that each item is associated cluster, this noise may be due to the intrinsic metric or marker used to order the data set. to a vector of numeric labels, in which a number represents a classification, to be able to calculate SC. Effect of the length and number of partitions of the vector in the Z-score distributions. statistical significance of the PQA score because of the less the number of items in the VP, the greater Finally, to assess the PQA methodology using systems biology data we clustered 210 networks
id: 10_1101-2021_01_08_425958
author: Chang, Chunmei
title: Reconstitution of cargo-induced LC3 lipidation in mammalian selective autophagy
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
txt:
summary:
id: 10_1101-2021_01_07_425723
author: Dekker, Wijb J.C.
title: Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth
date: 2021
words: 18706.0
sentences: 2550.0
pages: 61.0
flesch: 60.0
cache: ./cache/10_1101-2021_01_07_425723.pdf
txt: ./txt/10_1101-2021_01_07_425723.txt
summary: cerevisiae, fast anaerobic growth on synthetic media requires supplementation with a source of 44 S. cerevisiae can import exogenous sterols under severely oxygen-limited or anaerobic conditions20. chemostat cultures with different aeration and anaerobic-growth-factor (AGF) supplementation 137 Fig. 3, contrast 31) in severely oxygen-limited cultures supplemented with ergosterol and Tween 80. these anaerobic growth factors from the medium of these cultures (Supplementary Fig. 6, contrast 43). marxianus strains NBRC1777 and CBS6556 were each anaerobically incubated in four replicate shake-230 For whole-genome sequencing, yeast cells were harvested from overnight cultures and DNA 562 To determine if an oxygen-limited pre-culture was required for the strict anaerobic growth of IMX2323 640 Cerevisiae in Anaerobic Glucose-Limited Chemostat Cultures. Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth 935 Engineering the thermotolerant industrial yeast Kluyveromyces marxianus for anaerobic growth 935 Strains were grown in shake-flask cultures in an oxygen-limited (a) and strict anaerobic 979
id: 10_1101-2021_01_05_425367
author: El Rayes, Jessica
title: Disorder is a critical component of lipoprotein sorting in Gram-negative bacteria
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
txt:
summary:
id: 10_1101-2021_01_05_425448
author: Eusebio, Nadia
title: Distribution and diversity of dimetal-carboxylate halogenases in cyanobacteria
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
txt:
summary:
id: 10_1101-2020_12_31_424971
author: Gamper, Howard
title: Insights into Genome Recoding from the Mechanism of a Classic +1-Frameshifting tRNA
date: 2021
words: 23040.0
sentences: 1945.0
pages: 59.0
flesch: 66.0
cache: ./cache/10_1101-2020_12_31_424971.pdf
txt: ./txt/10_1101-2020_12_31_424971.txt
summary: codons by a +1-frameshifting tRNA, SufB2, that contains an extra nucleotide in its anticodon loop. We show that SufB2 uses triplet anticodon-codon pairing in the 0-frame to initially decode the 33 loops (ASLs) of +1-frameshifting tRNAs have been found to use triplet anticodon-codon pairing 78 +1 frameshifting activity of SufB2 relative to its closest counterpart, ProL, at a CCC-C motif, and 103 SufB2 and ProL lacking all post-transcriptional modifications (termed the G37-state tRNAs), or 131 ribosome in response to the CCC-C motif, and that the efficiency of delivery by G37-state SufB2 202 SufB2 exhibits triplet pairing in the 0-frame at the A site (Figures 3a-c, Supplementary Table 2, 290 SufB2 anticodon loop and/or the CCC-C motif at the 2nd codon position of the mRNA. as a function of time for delivery of G37or native-state SufB2or ProL-TC to the A site of a 70S 1267
id: 10_1101-2020_12_31_424969
author: Garza, Natalie M.
title: A genome wide copper-sensitized screen identifies novel regulators of mitochondrial cytochrome c oxidase activity
date: 2021
words: 13260.0
sentences: 1874.0
pages: 26.0
flesch: 65.0
cache: ./cache/10_1101-2020_12_31_424969.pdf
txt: ./txt/10_1101-2020_12_31_424969.txt
summary: A genome wide copper-sensitized screen identifies novel regulators of mitochondrial cytochrome c oxidase activity A genome wide copper-sensitized screen identifies novel regulators of mitochondrial Keywords: Copper, mitochondria, vacuole, cytochrome c oxidase, pH, AP-3, Rim20, Rim21 respiratory growth of yeast mutants such as these genes in cellular copper homeostasis, ATPase function, mitochondrial copper genes required for respiratory growth, mitochondrial genome maintenance and nuclear gene function in respiratory growth and expression of the mitochondrial genome Yeast genes required for respiratory growth. Genes required for copper homeostasis. Normalization of vacuolar pH in rim20Δ cells restores mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper Genetic regulators of mitochondrial copper
id: 10_1101-2021_01_04_425177
author: Gielnik, Maciej
title: The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP)
date: 2021
words: 4668.0
sentences: 458.0
pages: 12.0
flesch: 64.0
cache: ./cache/10_1101-2021_01_04_425177.pdf
txt: ./txt/10_1101-2021_01_04_425177.txt
summary: The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP) aggregation of the human prion protein (PrP) engineered cell-penetrating peptide constructs can reduce the amount of prion Udgaonkar, 2018; Verma et al., 2015), such as the prion (PrP) protein (CreutzfeldtJakob disease), α-synuclein (Parkinson''s disease), and amyloid-β (Aβ) and tau As the NCAM1-Aβ construct inhibits fibrillation of the Aβ peptide (HenningKnechtel et al., 2020), but promotes (co-)aggregation of the S100A9 protein (Pansieri huPrP protein + 0.5 µM NCAM1-Aβ peptide, incubated for 72 hours. between NCAM1-Aβ and S100A9 protein, where amyloid aggregation is promoted might affect the aggregation of other disease-related prion proteins, such as those prion aggregates in infected cells, is that these peptide constructs directly interact with properties of prion protein-derived cell-penetrating peptides. Cytotoxicity of prion protein-derived cell-penetrating peptides is modulated by pH ProInflammatory S100A9 Protein Aggregation Promoted by NCAM1 Peptide Constructs. Formation and properties of amyloid fibrils of prion protein.
id: 10_1101-2021_01_02_425093
author: Gijsbers, Abril
title: Priming mycobacterial ESX-secreted protein B to form a channel-like structure
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
txt:
summary:
id: 10_1101-2021_01_06_425465
author: Guercio, Angelica M.
title: Structural Basis of KAI2 Divergence in Legume
date: 2021
words: 11618.0
sentences: 1804.0
pages: 41.0
flesch: 68.0
cache: ./cache/10_1101-2021_01_06_425465.pdf
txt: ./txt/10_1101-2021_01_06_425465.txt
summary: the substitution of a few amino acids can alter ligand specificity between KAI2 duplicated the legume crystal structure of Pisum sativum KAI2B at 1.6Å resolution (Figure 4 and Table 1). structural rearrangements between PsKAI2B and the previously determined Arabidopsis KAI2 To further determine the differential ligand specificity between PsKAI2A and PsKAI2B, we utilized the PsKAI2B crystal structure reported here to generate a 3D model for PsKAI2A. Structural comparative analysis within the ligandbinding pocket shows divergent solvent accessibility between PsKAI2A and PsKAI2B (Figure reported apo and ligand bound D14/KAI2 crystal structures11,12,19,36,50. structure highlights a potential new intermediate in the ligand cleavage mechanism by KAI2 Structural basis of unique ligand specificity of KAI2-like protein from Structural analysis of HTL and D14 proteins reveals the basis for ligand The Structure of the Karrikin-Insensitive Protein (KAI2) in The crystal structure of legume KAI2. Structural basis of PsKAI2B ligand interaction.
id: 10_1101-2021_01_04_425348
author: Hirayama, Chihiro
title: Distinct roles and actions of PDI family enzymes in catalysis of nascent-chain disulfide formation
date: 2021
words: 15285.0
sentences: 2586.0
pages: 49.0
flesch: 78.0
cache: ./cache/10_1101-2021_01_04_425348.pdf
txt: ./txt/10_1101-2021_01_04_425348.txt
summary: ERp46-catalyzed disulfide bond formation in ribosome-associated nascent chains 35 and PDI could introduce a disulfide bond into the ribosome-associated HSA nascent 103 In contrast to PDI, ERp46 could introduce a native disulfide bond into RNC 181 Like PDI, ERp46 also introduced a non-native disulfide bond 182 Accessibility of PDI/ERp46 to cysteines on the ribosome-HSA nascent chain 195 Disulfide bond introduction into a longer HSA nascent chain by PDI/ERp46 251 somehow prevent PDI and ERp46 from introducing a disulfide bond into RNC 95-aa. PDI and ERp46 are predicted to bind RNCs transiently during disulfide bond 315 PDI I289A and ERp57 were found to introduce a disulfide bond into RNC 82-aa at a 375 B, D PDI(B) and ERp46 (D)-mediated disulfide bond introduction into RNC 82-aa 776 Figure 4 Disulfide bond introduction into RNC 95-aa by PDI and ERp46 787 A Disulfide bond introduction into RNC 82-aa by PDI I289A (upper) and ERp57 838
id: 10_1101-2020_12_31_424989
author: Hojjatian, Alimohammad
title: Distinct cryo-EM Structure of α-synuclein Filaments derived by Tau
date: 2021
words: 7945.0
sentences: 801.0
pages: 24.0
flesch: 58.0
cache: ./cache/10_1101-2020_12_31_424989.pdf
txt: ./txt/10_1101-2020_12_31_424989.txt
summary: Distinct cryo-EM Structure of α-synuclein Filaments derived by Tau report structural characterizations of -synuclein filaments derived by a potential co-factor, tau, However, the Nand C-terminal regions of the tau-promoted -synuclein filament have investigation of tau-promoted α-synuclein filaments using solid-state NMR and cryo-EM to state NMR studies indicate that the tau-promoted α-synuclein filaments have similar structural Resolution of the tau-promoted α-synuclein filament density map was not high enough for de novo Solid-state NMR of Tau-promoted α-synuclein filaments Representative TEM images of tau-promoted α-synuclein filaments showing the Cryo-EM structure of the tau-promoted α-synuclein filaments Overlaid structures of the tau-promoted α-synuclein filament (purple) and polymorph 2b (green). In this work, we solved cryo-EM structure of α-synuclein filaments derived by tau and increased helical twist of the tau-promoted full-length α-synuclein filaments may result from the Gath, J., Bousset, L., Habenstein, B., Melki, R., Bockmann, A., and Meier, B.
id: 10_1101-2020_04_24_059154
author: Hossain, Musaddique
title: Biochemical, structural insights of newly isolated AA16 family of Lytic Polysaccharide Monooxygenase (LPMO) from Aspergillus fumigatus and investigation of its synergistic effect using biomass
date: 2021
words: 9146.0
sentences: 1051.0
pages: 30.0
flesch: 58.0
cache: ./cache/10_1101-2020_04_24_059154.pdf
txt: ./txt/10_1101-2020_04_24_059154.txt
summary: newly isolated AA16 family of Lytic Polysaccharide Monooxygenase (LPMO) from 9 study, we have biochemically and functionally characterized the new AA16 family of LPMO 48 characterization, biomass degradation activity of AfLPMO16, and cellulase cocktail 51 Keywords: A.fumigatus, Auxiliary activity, Cloning, Kinetics, LPMO, Lignocelluloses, 55 (unnamed domain) and later identified as C1-oxidizing LPMO active on cellulose [21]. The AfLPMO16 contains 19 amino acids long N-terminal signal peptide before His1 catalytic 147 interaction study suggests that the AfLPMO16 may also bind to cellulose [52]. AfLPMO16 showed efficient depolymerization activity on both CMC and PASC (Fig. 6a & 231 0.04 mg/ml to 0.06 mg/ml, reducing sugar quantified for AfLPMO16 treated biomass (Fig. 281 activity two-fold compared to the only cellulase treated biomass (Fig. 7c). 7c), where the only AfLPMO16 and only cellulase treated biomass hydrolysis activity is low 335 Biomass and cellulose hydrolysis by cellulase and AfLPMO16 429
id: 10_1101-2021_01_08_425887
author: Hu, Yan
title: Auto-CORPus: Automated and Consistent Outputs from Research Publications
date: 2021
words: 6886.0
sentences: 553.0
pages: 10.0
flesch: 53.0
cache: ./cache/10_1101-2021_01_08_425887.pdf
txt: ./txt/10_1101-2021_01_08_425887.txt
summary: the same structured model, so that these can be used as input to rule-based or deep learning algorithms for data extraction. example, at this point in this article the main headers are ''abstract'' followed by ''introduction'' and ''materials and methods'' that could make up a digraph. We use this process to evaluate new potential synonyms for existing terms and identify abstract → introduction → materials → results → discussion → conclusion → acknowledgements → footnotes section → references. Based on the digraph, we then assigned data and data description to be synonyms of the materials section, and participants From the analysis of ego-networks four new potential categories were identified: disclosure, graphical abstract, highlights and participants. Newly identified synonyms for existing IAO terms (00006xx) from the digraph mapping of 2,441 publications. Newly identified synonyms for existing IAO terms (00006xx) from the digraph mapping of 2,441 publications.
id: 10_1101-2021_01_06_425657
author: Johnson, Zane
title: The SCFMet30 ubiquitin ligase senses cellular redox state to regulate the transcription of sulfur metabolism gene
date: 2021
words: 14821.0
sentences: 2231.0
pages: 35.0
flesch: 75.0
cache: ./cache/10_1101-2021_01_06_425657.pdf
txt: ./txt/10_1101-2021_01_06_425657.txt
summary: The SCFMet30 ubiquitin ligase senses cellular redox state to regulate the transcription of sulfur metabolism gene In yeast, control of sulfur amino acid metabolism relies upon Met4, a transcription factor which 15 When yeast cells sense sufficiently high levels of sulfur in the environment, the MET gene 40 work together to regulate levels of MET gene transcripts in response to the availability of sulfur or 51 acute depletion of sulfur metabolites and the activation of the MET gene regulon (Sutter et al., 88 sulfur metabolic pathway was sufficient to rescue Met30 E3 ligase activity and re-ubiquitinate 125 yeast cells starved of sulfur readily reversed Met30 cysteine oxidation. Since the cysteine residues within Met30 became rapidly oxidized in sulfur-free conditions, the 214 we performed in parallel the Met30-Flag IP with cells grown in both high and low sulfur 223 metabolite levels in yeast, Met30, is regulated by reversible cysteine oxidation.
id: 10_1101-2020_12_30_424894
author: Justice, Sarah A. Peck
title: Boosting detection of low abundance proteins in thermal proteome profiling experiments by addition of an isobaric trigger channel to TMT multiplexes
date: 2020
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
txt:
summary:
id: 10_1101-2020_06_17_156679
author: Kantsadi, Anastassia L.
title: A COVID Moonshot: assessment of ligand binding to the SARS-CoV-2 main protease by saturation transfer difference NMR spectroscopy
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
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id: 10_1101-2021_01_05_425432
author: Liu, Fan
title: High-throughput tandem-microwell assay for ammonia repositions FDA-Approved drugs to Helicobacter pylori infection
date: 2021
words: 19304.0
sentences: 1986.0
pages: 79.0
flesch: 65.0
cache: ./cache/10_1101-2021_01_05_425432.pdf
txt: ./txt/10_1101-2021_01_05_425432.txt
summary: urease inhibitor and clinically used drug for the treatment of bacterial infection. To determine the reversibility of the inhibition by panobinostat, dacinostat, EBS, captan 150 To identify the active chemical moiety of panobinostat, dacinostat, EBS or captan 280 inhibitory effects of panobinostat, dacinostat, EBS, captan and disulfiram, as well as the 453 analogs of EBS in the in vitro JBU activity assay, were determined in the presence of 454 Bacterial-cell-based assay for measuring the activity of urease in culture 592 Dose-dependent effects of panobinostat, dacinostat, EBS, captan and disulfiram on the activity of JBU 775 Figure 2 Panobinostat, dacinostat, EBS and captan inhibit the activity of JBU. Figure 3 EBS or captan allosterically inhibits the activity of urease by covalently modifying a 797 (B) Panobinostat, dacinostat, EBS, captan and disulfiram inhibit the activity of purified HPU 817 activity of JBU or the inhibition potency of panobinostat, dacinostat, EBS, captan or 211
id: 10_1101-2020_05_10_087288
author: Liu, Lin
title: Heparan sulfate proteoglycans as attachment factor for SARS-CoV-2
date: 2021
words: 7229.0
sentences: 922.0
pages: 20.0
flesch: 74.0
cache: ./cache/10_1101-2020_05_10_087288.pdf
txt: ./txt/10_1101-2020_05_10_087288.txt
summary: Surface plasma resonance (SPR) showed the SARS-CoV-2 spike protein binds SARS-CoV-2, coronavirus, heparan sulfate, heparin, spike glycoprotein, microarray, glycoprotein of the virus to angiotensin-converting enzyme 2 (ACE2) of the host.2 SARSCoV is closely related to SARS-CoV-2 and employs the same receptor.3 The spike protein RBD domain of SARS-CoV-2 spike protein can bind with heparin. binding of immobilized heparin with SARS-CoV-2 related proteins (A) RBD, (B) spike monomer, Intrigued by these results, we examined if the SARS-CoV-2 proteins bind to heparan Binding of synthetic heparan sulfate oligosaccharides to SARS-CoV-2-spike and RBD (A) Binding of SARS-CoV-2-spike (10 µg/mL) to the heparan sulfate microarray. immobilized ACE2 with SARS-CoV-2 derived proteins (A) RBD, (B) spike monomer, and (C) Binding of ACE2 antibody, SARS-CoV-2 RBD, and heparan sulfate antibody to of heparin to inhibit the binding between RBD or spike with ACE2. 8. Mycroft-West, C.; Su, D.; Elli, S.; Li, Y.; Guimond, S.; Miller, G.; Turnbull, J.;
id: 10_1101-2021_01_04_425209
author: Marzabani, Rezvan
title: Amino acids targeted based metabolomics study in non-segmental Vitiligo: a pilot study
date: 2021
words: 6045.0
sentences: 437.0
pages: 20.0
flesch: 49.0
cache: ./cache/10_1101-2021_01_04_425209.pdf
txt: ./txt/10_1101-2021_01_04_425209.txt
summary: Amino acids targeted based metabolomics study in non-segmental Vitiligo: a pilot study Methodology: The study of amino acid profiles in plasma of people with non-segmental vitiligo Keywords: Vitiligo, plasma, metabolomics, amino acids, liquid chromatography, R programing Oxidative stress biomarkers could be finding in the skin and blood of vitiligo patients. amino acids differences in concentration between vitiligo and healthy samples. (a) Volcano graph related to amino acids concentration change in the studied Vitiligo samples, (b) Gini Following the question on the variation of amino acids concentration inside Vitiligo cases with diagram for different ratio of amino acids in the Vitiligo samples are prepared. To best of our knowledge, there are few studied on the role of amino acids in vitiligo. profile of free amino acids, to investigate changes in those and metabolic pathways of vitiligo. autoimmunity, and oxidative stress (increased glutamic acid and proline and decreased arginine,
id: 10_1101-2021_01_04_425218
author: Masri, Rana El
title: Extracellular endosulfatase Sulf-2 harbours a chondroitin/dermatan sulfate chain that modulates its enzyme activity
date: 2021
words: 12979.0
sentences: 1074.0
pages: 42.0
flesch: 58.0
cache: ./cache/10_1101-2021_01_04_425218.pdf
txt: ./txt/10_1101-2021_01_04_425218.txt
summary: Extracellular endosulfatase Sulf-2 harbours a chondroitin/dermatan sulfate chain that modulates its enzyme activity In conclusion, our results highlight HSulf-2 as a unique proteoglycan enzyme and its newlyidentified GAG chain as a critical non-catalytic modulator of the enzyme activity. also failed to detect the C-terminal chain containing the enzyme HD domain using PAGE analysis (Figure Nano-scale liquid chromatography MS/MS analysis of trypsinand chondroitinase ABC-digested PGs isolated from the culture medium of human neuroblastoma SHSY5Y cells led to the identification of a HSulf-2 specific, 21 amino acid long glycopeptide highlighting a HSulf-2 GAG chain modulates enzyme activity in vitro These data therefore suggest that HSulf-2 GAG chain may also influence enzyme HSulf-2 GAG chain modulates tumor growth and metastasis in vivo Hsulf-2 GAG chain could also modulate the enzyme function through other mechanisms. We thus next analyzed the effect of HSulf-2 GAG chain in an in vivo mouse xenograft model of cancer
id: 10_1101-2020_07_08_188672
author: McCaul, Nicholas
title: Intramolecular quality control: HIV-1 Envelope gp160 signal-peptide cleavage as a functional folding checkpoint
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
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summary:
id: 10_1101-674051
author: Morabito, Gabriele
title: Easy Kinetics: a novel enzyme kinetic characterization software
date: 2021
words: 3512.0
sentences: 328.0
pages: 9.0
flesch: 55.0
cache: ./cache/10_1101-674051.pdf
txt: ./txt/10_1101-674051.txt
summary: Q.C.V.)*100 for Vmax, showing a non normal distribution of the values generated for 3 of the tested substrates medians values of Vmax generated by Easy Kinetics for all the tested substrates were correlated with those Fig.2 Model''s precision analysis: A) Kinetic curves of the two enzymes tested for different limiting substrates, respectively Xanthine or B-D) Boxplots representing the distributions of Vmax, Km and nH values generated with Easy Kinetics showing graphically the linear correlation between the Vmax and Km generated both by Easy Kinetics (n=4) and GraphPad prism 8 (n=4). The tested substrates show a normal distributions of medians values for Vmax generated using Easy Kinetics (W = 0.87392, p-value = test, while a non normal distribution of mean values for Km generated using Easy Kinetics (W = 0.67175, p-value = 0.005173) and of by commercial software to evaluate the main kinetic parameters of an enzyme.
id: 10_1101-2021_01_06_425584
author: Moreno-Ulloa, Aldo
title: Comprehensive multi-omics study of the molecular perturbations induced by simulated diabetes on coronary artery endothelial cells
date: 2021
words: 16261.0
sentences: 3067.0
pages: 41.0
flesch: 69.0
cache: ./cache/10_1101-2021_01_06_425584.pdf
txt: ./txt/10_1101-2021_01_06_425584.txt
summary: induced by simulated diabetes on coronary artery endothelial cells 2 Coronary artery endothelial cells (CAEC) exert an important role in the development of 26 novel signatures of DNA/RNA, aminoacid, peptide, and lipid metabolism in cells under a diabetic 35 Keywords: SWATH-Proteomics; Metabolomics; Type 2 Diabetes Mellitus; Endothelial cells; 44 Artery Endothelial Cells (BCAEC) under a prolonged diabetic environment. composite network comprising PPI between the modulated proteins by simulated diabetes (seed 338 To better understand the effects that simulated diabetes exerts on endothelial cells the changes 364 used an in vitro model involving endothelial cells that modulate the heart function, CAEC (46). the understanding of amino acid metabolism in endothelial cells under simulated diabetes. glucose enhances oxidative stress and apoptosis in human coronary artery endothelial cells. high glucose on the aerobic metabolism of endothelial EA.hy926 cells. Bovine coronary artery endothelial cells (BCAEC) metabolite molecular network. by simulated diabetes in bovine coronary artery endothelial cells (BCAEC).
id: 10_1101-2021_01_08_425952
author: Nash, Anthony
title: rdrugtrajectory: An R Package for the Analysis of Drug Prescriptions in Electronic Health Care Records
date: 2021
words: 10191.0
sentences: 1837.0
pages: 30.0
flesch: 56.0
cache: ./cache/10_1101-2021_01_08_425952.pdf
txt: ./txt/10_1101-2021_01_08_425952.txt
summary: publication is by no means a complete tutorial, we will expand on some of the main package features, such as, how to: Isolate patients by first drug prescriptions at given clinical Fabricated CPRD clinical and CPRD prescription records in addition to age, gender and index of multiple deprivation scores are included Several rdrugtrajectory functions use the CPRD product.txt file for assigning a text description to a prescription prodcode. dataframes require, as a minimum, a patid and eventdate column, and either medcode or prodcode (for therapy data, issueseq is necessary), and presented in that order. functions to retrieve CPRD data, including, patient year of birth, gender (male or female) and The examples presented here and those in the reference manual rely on searching and subsetting EHR data using a list or vector of patient identifier. The final example of EHR dataframe manipulation presented here demonstrates how to retrieve all prescription records for patients prescribed a specific prescription treatment.
id: 10_1101-2020_11_24_390039
author: O’Keefe, Sarah
title: Ipomoeassin-F inhibits the in vitro biogenesis of the SARS-CoV-2 spike protein and its host cell membrane receptor
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
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summary:
id: 10_1101-2020_03_27_012757
author: Peng, Da
title: Evaluating the transcriptional fidelity of cancer models
date: 2021
words: 18403.0
sentences: 2037.0
pages: 55.0
flesch: 62.0
cache: ./cache/10_1101-2020_03_27_012757.pdf
txt: ./txt/10_1101-2020_03_27_012757.txt
summary: measures the similarity of cancer models to 22 naturally occurring tumor types and 36 subtypes, 62 randomly shuffled gene-pair profiles generated from the training data of 22 tumor types to 144 CCLs. We mined RNA-seq expression data of 657 different cell lines across 20 cancer types 174 classification range for cell lines of each tumor type (Fig 2A, Supp Tab 1). CCN scores > threshold for tumor types other than that of the cell line''s origin were annotated 198 Cell lines that did not receive a CCN score > threshold for any tumor type were 199 purity of general tumor type and mean CCN classification scores of CCLs in the corresponding 224 training data of general CCN classifier has little impact in the classification of SKCM cell lines. classified cell lines from each general tumor type (Fig 4D). subjected the RNA-seq expression profiles of 415 PDX models from 13 different types of cancer 357
id: 10_1101-2021_01_07_425675
author: Peng, Weiwei
title: Mass spectrometry-based sequencing of the anti-FLAG-M2 antibody using multiple proteases and a dual fragmentation scheme
date: 2021
words: 7264.0
sentences: 569.0
pages: 17.0
flesch: 60.0
cache: ./cache/10_1101-2021_01_07_425675.pdf
txt: ./txt/10_1101-2021_01_07_425675.txt
summary: Mass spectrometry-based sequencing of the anti-FLAG-M2 antibody using multiple proteases and a dual fragmentation scheme Mass spectrometry-based sequencing of the anti-FLAG-M2 antibody using multiple 1 mass spectrometry, antibody, de novo sequencing, EThcD, stepped HCD, Herceptin, FLAG tag, 16 method for direct de novo sequencing of monoclonal IgG from the purified antibody products. Direct mass spectrometry (MS)-based sequencing of the secreted antibody products is a useful 50 protocol achieved full sequence coverage of the variable domains of both heavy and light chains, 81 mass spectrometry-based de novo sequencing of the monoclonal antibody Herceptin. Mass spectrometry based de novo sequence of the mouse monoclonal anti-FLAG-M2 antibody. We next applied our sequencing protocol to the mouse monoclonal anti-FLAG-M2 antibody as a 159 antibody produced with the experimentally determined sequence demonstrate equivalent FLAG-tag binding 181 There are four other monoclonal antibody sequences against the FLAG tag publicly available 205
id: 10_1101-2021_01_08_426008
author: Pipes, Lenore
title: AncestralClust: Clustering of Divergent Nucleotide Sequences by Ancestral Sequence Reconstruction using Phylogenetic Trees
date: 2021
words: 3682.0
sentences: 382.0
pages: 7.0
flesch: 63.0
cache: ./cache/10_1101-2021_01_08_426008.pdf
txt: ./txt/10_1101-2021_01_08_426008.txt
summary: AncestralClust: Clustering of Divergent Nucleotide Sequences by Ancestral Sequence Reconstruction using Phylogenetic Trees Despite the exponential increase in the size of sequence databases of homologous genes, few methods exist to cluster At low identities, these methods produce uneven clusters where the majority of sequences are are no clustering methods that can accurately cluster large taxonomically divergent metabarcoding reference databases such as databases (Schoch et al., 2020), there is a need for new computationally efficient methods that can cluster divergent sequences. To cluster divergent sequences, we developed AncestralClust clustering methods: UCLUST (Edgar, 2010), meshclust2 (James dataset against UCLUST because it is the most widely used clustering program and it performs better than CD-HIT on low identity We developed a phylogenetic-based clustering method, AncestralClust, specifically to cluster divergent metabarcode sequences. Comparisons of clustering methods using 13,043 COI sequences from 11 different species.
id: 10_1101-2021_01_05_425440
author: Rossetti, Cecilia
title: Thermal proteome profiling reveals distinct target selectivity for differentially oxidized oxysterols
date: 2021
words: 5468.0
sentences: 401.0
pages: 12.0
flesch: 56.0
cache: ./cache/10_1101-2021_01_05_425440.pdf
txt: ./txt/10_1101-2021_01_05_425440.txt
summary: Thermal proteome profiling reveals distinct target selectivity for differentially oxidized oxysterols systematic identification of oxysterol target proteins using thermal proteome profiling (TPP). two proteins identified as targets for more than one oxysterol. Identification of oxysterol target proteins using thermal proteome profiling To identify potential oxysterol target proteins, TPP was selected as the method of choice [11][12] Target identification of oxysterols using thermal proteome profiling. profiling experiments and criteria for the identification of putative oxysterol targets; B) Structures of the tested proteins, upon the incubation of HeLa cell lysates with the different oxysterols (Figure 1C). validates the use of TPP for identifying novel oxysterol target proteins, but also highlights the polymerase III transcription complex was identified as putative oxysterol targets (Figure 2C). We focused our initial analysis of specific oxysterol target proteins with 7-KC, as it is the most approach for oxysterol target protein identification. profiles, with only two proteins identified as targets of more than one oxysterol.
id: 10_1101-2021_01_04_425171
author: Rovšnik, Urška
title: Dynamic closed states of a ligand-gated ion channel captured by cryo-EM and simulations
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
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summary:
id: 10_1101-2020_12_29_424482
author: Sauer, Maximilian M.
title: Structural basis for broad coronavirus neutralization
date: 2021
words: 15457.0
sentences: 1555.0
pages: 40.0
flesch: 68.0
cache: ./cache/10_1101-2020_12_29_424482.pdf
txt: ./txt/10_1101-2020_12_29_424482.txt
summary: B6 cross-reactivity with β-coronaviruses from three lineages along with proof-ofconcept for antibody-mediated broad coronavirus neutralization elicited through (mAbs) with potent neutralizing activity were identified against the SARS-CoV-2, SARSCoV and MERS-CoV RBDs and shown to protect against viral challenge in vivo (Alsoussi Crystal structures of B6 in complex with MERS-CoV S, SARSCoV/SARS-CoV-2 S, OC43 S and HKU4 S stem helix peptides combined with binding conformational changes leading to membrane fusion and identify a key target for nextgeneration structure-guided design of a pan-coronavirus vaccine. (A-B) Molecular surface representation of a composite model of the B6-bound MERSCoV S cryoEM structure and of the B6-bound MERS-CoV S stem helix peptide crystal docking the crystal structure of B6 bound to the MERS-CoV stem helix in the cryoEM Comparison of the B6-bound structures of MERS-CoV, HKU4, SARS-CoV/SARSCoV-2 and OC43 S stem helix peptides explains the broad mAb cross-reactivity with βclassification of neutralizing antibodies against the SARS-CoV-2 spike receptor-binding domain
id: 10_1101-2021_01_07_425737
author: Schepers, Matthew J
title: Isolation of the Buchnera aphidicola flagellum basal body from the Buchnera membrane
date: 2021
words: 4384.0
sentences: 427.0
pages: 17.0
flesch: 59.0
cache: ./cache/10_1101-2021_01_07_425737.pdf
txt: ./txt/10_1101-2021_01_07_425737.txt
summary: basal body structural proteins and for flagellum type III export machinery. Buchnera of the pea aphid (Acyrthosiphon pisum) maintains 26 genes coding for flagellum Buchnera maintains genes coding for the proteins required for a functional T3SS2,12, procedure for isolation of flagellum basal body complexes adapted for an endosymbiont26, allowing for removal of these structures directly from Buchnera and enrichment of flagellum basal samples were enriched during the isolation procedure: structural proteins FilE, FliF, FlgI, FlgE, Type III secretion proteins FlhA and FliP were shown to be enriched by this procedure The widespread enrichment of Buchnera flagellum proteins Though heavily expressed in Buchnera of pea aphids, components of the flagellum basal with type III secretion activity (flhA, flhB, fliP, fliQ, and fliR) and basal body structural proteins (fliE, Isolation of flagellum basal bodies from Buchnera cells accessory proteins maintained by Buchnera aphidicola in pea aphids.
id: 10_1101-2021_01_06_425610
author: Shen, Betty W.
title: Coordination of phage genome degradation versus host genome protection by a bifunctional restriction-modification enzyme visualized by CryoEM
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
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id: 10_1101-2021_01_08_425897
author: Soleymanjahi, Saeed
title: APOBEC1 mediated C-to-U RNA editing: target sequence and trans-acting factor contribution to 177 RNA editing events in 119 murine transcripts in-vivo
date: 2021
words: 12176.0
sentences: 1239.0
pages: 46.0
flesch: 63.0
cache: ./cache/10_1101-2021_01_08_425897.pdf
txt: ./txt/10_1101-2021_01_08_425897.txt
summary: APOBEC1 mediated C-to-U RNA editing: target sequence and trans-acting factor contribution to Cofactor dominance was associated with editing frequency, with RNAs targeted by both RBM47 for site-specific Apob RNA editing and editosome assembly (Backus and Smith 1991). four subgroups based on overall structure and location of the edited cytidine: loop (Cloop), stem editing frequency (Table 1) with RNAs targeted by both RBM47 and A1CF observed to be mismatches in mooring sequence, spacer length, location of the edited cytidine, and relative The current study reflects our analysis of 177 C-to-U RNA editing sites from 119 target mRNAs, downstream sequences, host tissue and secondary structure of target mRNA were associated mooring sequence model as applied to the entire range of C-to-U RNA editing targets. independently associated with co-factor dominance in RNA editing sites. of AU base content (%) of nucleotides flanking modified cytidine in RNA editing targets and
id: 10_1101-2021_01_08_425864
author: Souza, Rodolpho Ornitz Oliveira
title: Fatty acid oxidation participates of the survival to starvation, cell cycle progression and differentiation in the insect stages of Trypanosoma cruzi
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
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id: 10_1101-2021_01_08_425379
author: Wilmes, Stephan
title: Competitive binding of STATs to receptor phospho-Tyr motifs accounts for altered cytokine responses in autoimmune disorders
date: 2021
words: 36633.0
sentences: 7715.0
pages: 75.0
flesch: 76.0
cache: ./cache/10_1101-2021_01_08_425379.pdf
txt: ./txt/10_1101-2021_01_08_425379.txt
summary: Competitive binding of STATs to receptor phospho-Tyr motifs accounts for altered cytokine responses in autoimmune disorders STAT1/3 effector activation to an unbiased and quantitative multi-omics approach: phosphoproteomics after early cytokine stimulation, kinetics of transcriptomic changes and alteration action between sustained pSTAT1 and IRF1 expression to drive the induction of an interferonlike gene signature that profoundly shaped the T-cell proteome. IL-27 induces a more sustained STAT1 activation than HypIL-6 in human Th-1 cells little effect on STAT1 activation kinetics when compared to RPE1 wild type cells, suggesting Our data suggest that STAT molecules compete for binding to a limited number of phosphoTyr motifs in the intracellular domains of cytokine receptors. immune cells differ in their expression of cytokine receptors and STATs, we investigated levels STAT1 protein levels in SLE patients modify HypIL-6 and IL-27 signaling responses STAT1 expression could significantly change cytokine-induced cellular responses by HypIL-6
id: 10_1101-2021_01_08_425855
author: Wu, Canbiao
title: DeepHBV: A deep learning model to predict hepatitis B virus (HBV) integration sites.
date: 2021
words: 7280.0
sentences: 806.0
pages: 31.0
flesch: 53.0
cache: ./cache/10_1101-2021_01_08_425855.pdf
txt: ./txt/10_1101-2021_01_08_425855.txt
summary: DeepHBV: A deep learning model to predict hepatitis B virus (HBV) integration sites. deep learning model DeepHBV to predict HBV integration sites by learning local learning model DeepHBV to predict HBV integration sites by learning local genomic DeepHBV effectively predicts HBV integration sites by adding genomic features. mixed HBV integration sequences, positive genome feature samples, and randomly peaks and DeepHBV with HBV integration sequences + TCGA Pan Cancer peaks) on model trained with HBV integrated sequences + TCGA Pan Cancer showed an performed better compared with DeepHBV model with HBV integration sequences + HBV integration sites + TCGA Pan Cancer, a cluster of attention weights much output of DeepHBV with HBV integration sites plus TCGA Pan Cancer showed the of DeepHBV with HBV integration sequences + TCGA Pan Cancer showed strong DeepHBV with HBV integration sequences + TCGA Pan Cancer model on (a) DeepHBV with HBV integration sequences + TCGA Pan Cancer model on (a)
id: 10_1101-2021_01_08_425918
author: Yogodzinski, Christopher H
title: A global cancer data integrator reveals principles of synthetic lethality, sex disparity and immunotherapy.
date: 2021
words: 8025.0
sentences: 1285.0
pages: 32.0
flesch: 66.0
cache: ./cache/10_1101-2021_01_08_425918.pdf
txt: ./txt/10_1101-2021_01_08_425918.txt
summary: CanDI identifies genes that are conditionally essential in BRCA-mutant ovarian cancer. (A) Average gene essentiality for KRAS and EGFR in groups of NSCLC cell lines Gene essentiality is an averaged Bayes Factor score for each group of cell lines. Average gene essentiality for KRAS and EGFR in groups of NSCLC cell lines stratified by identify genes that are differentially expressed between male and female cell lines within each factor gene essentiality scores in male and female CRC cell lines. differentially essential genes are shown in violin plots split by the sex of the cell lines. differentially essential genes are shown in violin plots split by the sex of the cell lines. differentially essential genes are shown in violin plots split by the sex of the cell lines. CD151 SLC4A2 B2M ITGA3 SLC3A2 HLA-C CD44 LRPAP1 DDR1 VDAC2 SLC29A1 SLCO4A1 B2M CD151 THY1 SLC3A2 SLC4A2 LRPAP1 HLA-C DDR1 SLC29A1 ITGA3 PTGFRN VDAC2
id: 10_1101-2021_01_08_423993
author: Yosaatmadja, Yuliana
title: Structural and mechanistic insights into the Artemis endonuclease and strategies for its inhibition
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
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summary:
id: 10_1101-2020_09_18_291195
author: Yui, Anna
title: Dimerization mechanism and structural features of human LI-cadherin
date: 2021
words: 10845.0
sentences: 1053.0
pages: 31.0
flesch: 61.0
cache: ./cache/10_1101-2020_09_18_291195.pdf
txt: ./txt/10_1101-2020_09_18_291195.txt
summary: Dimerization mechanism and structural features of human LI-cadherin Dimerization mechanism and structural features of human LI-cadherin Keywords: Cadherin, dimerization, cell adhesion, protein chemistry, crystal structure, small‐angle X‐ray The crystal structure also revealed that LI-cadherin the crystal structure is necessary for LI-cadherindependent cell adhesion by performing cell calcium ion-dependent cell adhesion molecule as For example, classical cadherins form a homodimer To validate if LI-cadherin-dependent cell adhesion LI-cadherin in our crystal structure (Fig. S8), its crucial for LI-cadherin-dependent cell adhesion and 4 homodimer observed by crystal structure (Fig. 3) movement of Ca2+-free linker to maintain LIcadherin-dependent cell adhesion (Fig. S15). The roles of LI-cadherin on cancer cells of cancer cells suggest that LI-cadherin acts differently with E-cadherin on cancer cells. role of LI-cadherin in cancer cells with respect to LI-cadherin-dependent cell adhesion. LI-cadherin-dependent cell adhesion. (2002) C-cadherin ectodomain structure and implications for cell adhesion mechanisms. by crystal structures of type i cadherins.
id: 10_1101-2021_01_06_425392
author: Zahradnik, Jiri
title: SARS-CoV-2 RBD in vitro evolution follows contagious mutation spread, yet generates an able infection inhibitor
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
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summary:
id: 10_1101-2021_01_07_425621
author: Zhang, Liqun
title: Molecular dynamics simulations and functional studies reveal that hBD-2 binds SARS-CoV-2 spike RBD and blocks viral entry into ACE2 expressing cells
date: 2021
words: nan
sentences: nan
pages: nan
flesch: nan
cache:
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summary:
==== make-pages.sh questions
==== make-pages.sh search
==== make-pages.sh topic modeling corpus
Zipping study carrel