受强制性开放获取政策约束的文章 - Travis Walton了解详情
可在其他位置公开访问的文章:15 篇
A highly reactive imidazolium-bridged dinucleotide intermediate in nonenzymatic RNA primer extension
T Walton, JW Szostak
Journal of the American Chemical Society 138 (36), 11996-12002, 2016
强制性开放获取政策: Howard Hughes Medical Institute
The mechanism of nonenzymatic template copying with imidazole‐activated nucleotides
T Walton, W Zhang, L Li, CP Tam, JW Szostak
Angewandte Chemie International Edition 58 (32), 10812-10819, 2019
强制性开放获取政策: US National Science Foundation, Howard Hughes Medical Institute
A quantitative model of normal Caenorhabditis elegans embryogenesis and its disruption after stress
JL Richards, AL Zacharias, T Walton, JT Burdick, JI Murray
Developmental biology 374 (1), 12-23, 2013
强制性开放获取政策: US National Institutes of Health
Axonemal structures reveal mechanoregulatory and disease mechanisms
T Walton, M Gui, S Velkova, MR Fassad, RA Hirst, E Haarman, ...
Nature 618 (7965), 625-633, 2023
强制性开放获取政策: US National Institutes of Health, National Institute for Health Research, UK
A kinetic model of nonenzymatic RNA polymerization by cytidine-5′-phosphoro-2-aminoimidazolide
T Walton, JW Szostak
Biochemistry 56 (43), 5739-5747, 2017
强制性开放获取政策: Howard Hughes Medical Institute
Quantitative Differences in Nuclear β-catenin and TCF Pattern Embryonic Cells in C. elegans
AL Zacharias, T Walton, E Preston, JI Murray
PLoS genetics 11 (10), e1005585, 2015
强制性开放获取政策: US National Institutes of Health
Gene transcription is coordinated with, but not dependent on, cell divisions during C. elegans embryonic fate specification
G Nair, T Walton, JI Murray, A Raj
Development 140 (16), 3385-3394, 2013
强制性开放获取政策: US National Institutes of Health, Howard Hughes Medical Institute, Wellcome …
The Bicoid Class Homeodomain Factors ceh-36/OTX and unc-30/PITX Cooperate in C. elegans Embryonic Progenitor Cells to Regulate Robust Development
T Walton, E Preston, G Nair, AL Zacharias, A Raj, JI Murray
PLoS genetics 11 (3), e1005003, 2015
强制性开放获取政策: US National Institutes of Health
Insight into the mechanism of nonenzymatic RNA primer extension from the structure of an RNA-GpppG complex
W Zhang, CP Tam, T Walton, AC Fahrenbach, G Birrane, JW Szostak
Proceedings of the National Academy of Sciences 114 (29), 7659-7664, 2017
强制性开放获取政策: US National Science Foundation, US Department of Energy, Howard Hughes …
Crystallographic observation of nonenzymatic RNA primer extension
W Zhang, T Walton, L Li, JW Szostak
Elife 7, e36422, 2018
强制性开放获取政策: US National Science Foundation, US Department of Energy, Howard Hughes …
In vitro selection of ribozyme ligases that use prebiotically plausible 2-aminoimidazole–activated substrates
T Walton, S DasGupta, D Duzdevich, SS Oh, JW Szostak
Proceedings of the National Academy of Sciences 117 (11), 5741-5748, 2020
强制性开放获取政策: US National Science Foundation, Howard Hughes Medical Institute
Competition between bridged dinucleotides and activated mononucleotides determines the error frequency of nonenzymatic RNA primer extension
D Duzdevich, CE Carr, D Ding, SJ Zhang, TS Walton, JW Szostak
Nucleic Acids Research 49 (7), 3681-3691, 2021
强制性开放获取政策: US National Science Foundation, US National Aeronautics and Space …
Template-directed catalysis of a multistep reaction pathway for nonenzymatic RNA primer extension
T Walton, L Pazienza, JW Szostak
Biochemistry 58 (6), 755-762, 2018
强制性开放获取政策: US National Science Foundation, Howard Hughes Medical Institute
Synthesis of a nonhydrolyzable nucleotide phosphoroimidazolide analogue that catalyzes nonenzymatic RNA primer extension
CP Tam, L Zhou, AC Fahrenbach, W Zhang, T Walton, JW Szostak
Journal of the American Chemical Society 140 (2), 783-792, 2018
强制性开放获取政策: Howard Hughes Medical Institute
Overlapping cell population expression profiling and regulatory inference in C. elegans
J Burdick, T Walton, E Preston, A Zacharias, A Raj, JI Murray
BMC genomics 17, 1-19, 2016
强制性开放获取政策: US National Institutes of Health
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