Articoli con mandati relativi all'accesso pubblico - George ChurchUlteriori informazioni
TotaleNIHDOENSFDoDHHMICIHRODNIEuropean CommissionNSFCHFSPWellcomeSNSFNSERCDFGMRCCZIDFFGovernment of SpainGatesNASADamon Runyon Cancer Research FoundationEMBLVolkswagen FoundationBBSRCMichael J Fox FoundationCASDBTKnut and Alice Wallenberg FoundationNIHRInnovation Fund DenmarkRWJFGBMFGenome CanadaMTAFormasA*StarCancer Research UKBMBFGoverno ItalianoJDRFCarlsberg Foundation DKUSDAMacArthurFWOHelmholtzDNRFSFIDSTWellcome Trust/DBT India AllianceNWOBHFEPSRCSTFCZonMwFNRRCNDoris Duke Charitable FoundationState of CalifoniaUK Research & InnovationTUBITAKAutism Speaks Inc, USAOICRNAWA
Non disponibili pubblicamente: 5
Extensive germline genome engineering in pigs
Y Yue, W Xu, Y Kan, HY Zhao, Y Zhou, X Song, J Wu, J Xiong, ...
Nature Biomedical Engineering 5 (2), 134-143, 2021
Mandati: National Natural Science Foundation of China
Material solutions for delivery of CRISPR/Cas-based genome editing tools: Current status and future outlook
T Wan, D Niu, C Wu, FJ Xu, G Church, Y Ping
Materials Today 26, 40-66, 2019
Mandati: National Natural Science Foundation of China
How collaboration between bioethicists and neuroscientists can advance research
I Hyun, JC Scharf-Deering, S Sullivan, JD Aach, P Arlotta, ML Baum, ...
Nature Neuroscience 25 (11), 1399-1401, 2022
Mandati: US National Institutes of Health
Applications of engineered synthetic ecosystems
HH Wang, MT Mee, GM Church
Synthetic Biology, 317-325, 2013
Mandati: US National Institutes of Health
Umkodierung des genetischen Codes mit Selenocystein
MJ Bröcker, JML Ho, GM Church, D Söll, P O'Donoghue
Angewandte Chemie 126 (1), 325-330, 2014
Mandati: US National Institutes of Health
Disponibili pubblicamente: 402
RNA-guided human genome engineering via Cas9
P Mali, L Yang, KM Esvelt, J Aach, M Guell, JE DiCarlo, JE Norville, ...
Science 339 (6121), 823-826, 2013
Mandati: US National Institutes of Health, Howard Hughes Medical Institute
CAS9 transcriptional activators for target specificity screening and paired nickases for cooperative genome engineering
P Mali, J Aach, PB Stranges, KM Esvelt, M Moosburner, S Kosuri, L Yang, ...
Nature biotechnology 31 (9), 833-838, 2013
Mandati: US National Institutes of Health
Genome engineering in Saccharomyces cerevisiae using CRISPR-Cas systems
JE DiCarlo, JE Norville, P Mali, X Rios, J Aach, GM Church
Nucleic acids research 41 (7), 4336-4343, 2013
Mandati: US National Institutes of Health
A deep learning approach to antibiotic discovery
JM Stokes, K Yang, K Swanson, W Jin, A Cubillos-Ruiz, NM Donghia, ...
Cell 180 (4), 688-702. e13, 2020
Mandati: US National Science Foundation, Swiss National Science Foundation, US …
Programming cells by multiplex genome engineering and accelerated evolution
HH Wang, FJ Isaacs, PA Carr, ZZ Sun, G Xu, CR Forest, GM Church
Nature 460 (7257), 894-898, 2009
Mandati: US National Institutes of Health
Multiplex and homologous recombination–mediated genome editing in Arabidopsis and Nicotiana benthamiana using guide RNA and Cas9
JF Li, JE Norville, J Aach, M McCormack, D Zhang, J Bush, GM Church, ...
Nature biotechnology 31 (8), 688-691, 2013
Mandati: US National Institutes of Health
Cas9 as a versatile tool for engineering biology
P Mali, KM Esvelt, GM Church
Nature methods 10 (10), 957-963, 2013
Mandati: US National Institutes of Health
Highly efficient Cas9-mediated transcriptional programming
A Chavez, J Scheiman, S Vora, BW Pruitt, M Tuttle, E PR Iyer, S Lin, ...
Nature methods 12 (4), 326-328, 2015
Mandati: US Department of Energy, US National Institutes of Health
Human genome sequencing using unchained base reads on self-assembling DNA nanoarrays
R Drmanac, AB Sparks, MJ Callow, AL Halpern, NL Burns, BG Kermani, ...
Science 327 (5961), 78-81, 2010
Mandati: US National Institutes of Health
Rapid prototyping of 3D DNA-origami shapes with caDNAno
SM Douglas, AH Marblestone, S Teerapittayanon, A Vazquez, GM Church, ...
Nucleic acids research 37 (15), 5001-5006, 2009
Mandati: US National Institutes of Health
CHOPCHOP: a CRISPR/Cas9 and TALEN web tool for genome editing
TG Montague, JM Cruz, JA Gagnon, GM Church, E Valen
Nucleic acids research 42 (W1), W401-W407, 2014
Mandati: US National Institutes of Health, Human Frontier Science Program
Targeted and genome-scale strategies reveal gene-body methylation signatures in human cells
MP Ball, JB Li, Y Gao, JH Lee, EM LeProust, IH Park, B Xie, GQ Daley, ...
Nature biotechnology 27 (4), 361-368, 2009
Mandati: US National Institutes of Health
In vivo gene editing in dystrophic mouse muscle and muscle stem cells
M Tabebordbar, K Zhu, JKW Cheng, WL Chew, JJ Widrick, WX Yan, ...
Science 351 (6271), 407-411, 2016
Mandati: US National Science Foundation, US National Institutes of Health, Howard …
Efficient construction of sequence-specific TAL effectors for modulating mammalian transcription
F Zhang, L Cong, S Lodato, S Kosuri, GM Church, P Arlotta
Nature biotechnology 29 (2), 149-153, 2011
Mandati: US National Institutes of Health
Heritable genome editing in C. elegans via a CRISPR-Cas9 system
AE Friedland, YB Tzur, KM Esvelt, MP Colaiácovo, GM Church, ...
Nature methods 10 (8), 741-743, 2013
Mandati: US National Institutes of Health
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