Artikler med krav om offentlig adgang - Melissa HubiszFå flere oplysninger
Tilgængelige et sted: 24
Inferring weak population structure with the assistance of sample group information
MJ Hubisz, D Falush, M Stephens, JK Pritchard
Molecular ecology resources 9 (5), 1322-1332, 2009
Krav: US National Institutes of Health, Howard Hughes Medical Institute, Science …
Detection of nonneutral substitution rates on mammalian phylogenies
KS Pollard, MJ Hubisz, KR Rosenbloom, A Siepel
Genome research 20 (1), 110-121, 2010
Krav: US National Institutes of Health
A high-resolution map of human evolutionary constraint using 29 mammals
K Lindblad-Toh, M Garber, O Zuk, MF Lin, BJ Parker, S Washietl, ...
Nature 478 (7370), 476-482, 2011
Krav: US National Institutes of Health, Howard Hughes Medical Institute, Austrian …
Bayesian inference of ancient human demography from individual genome sequences
I Gronau, MJ Hubisz, B Gulko, CG Danko, A Siepel
Nature genetics 43 (10), 1031-1034, 2011
Krav: US National Institutes of Health
Patterns of positive selection in six mammalian genomes
C Kosiol, T Vinař, RR da Fonseca, MJ Hubisz, CD Bustamante, R Nielsen, ...
PLoS genetics 4 (8), e1000144, 2008
Krav: US National Institutes of Health
Ancient gene flow from early modern humans into Eastern Neanderthals
M Kuhlwilm, I Gronau, MJ Hubisz, C De Filippo, J Prado-Martinez, ...
Nature 530 (7591), 429-433, 2016
Krav: US National Science Foundation, US National Institutes of Health, Chinese …
A simple genetic architecture underlies morphological variation in dogs
AR Boyko, P Quignon, L Li, JJ Schoenebeck, JD Degenhardt, ...
PLoS biology 8 (8), e1000451, 2010
Krav: US National Institutes of Health
PHAST and RPHAST: phylogenetic analysis with space/time models
MJ Hubisz, KS Pollard, A Siepel
Briefings in bioinformatics 12 (1), 41-51, 2011
Krav: US National Institutes of Health
Genome-wide inference of ancestral recombination graphs
MD Rasmussen, MJ Hubisz, I Gronau, A Siepel
PLoS genetics 10 (5), e1004342, 2014
Krav: US National Institutes of Health
A method for calculating probabilities of fitness consequences for point mutations across the human genome
B Gulko, MJ Hubisz, I Gronau, A Siepel
Nature genetics 47 (3), 276-283, 2015
Krav: US National Institutes of Health
Targets of balancing selection in the human genome
AM Andrés, MJ Hubisz, A Indap, DG Torgerson, JD Degenhardt, ...
Molecular biology and evolution 26 (12), 2755-2764, 2009
Krav: US National Institutes of Health
Darwinian and demographic forces affecting human protein coding genes
R Nielsen, MJ Hubisz, I Hellmann, D Torgerson, AM Andrés, ...
Genome research 19 (5), 838-849, 2009
Krav: US National Institutes of Health
Genome-wide inference of natural selection on human transcription factor binding sites
L Arbiza, I Gronau, BA Aksoy, MJ Hubisz, B Gulko, A Keinan, A Siepel
Nature genetics 45 (7), 723-729, 2013
Krav: US National Institutes of Health
Parallel evolution of ancient, pleiotropic enhancers underlies butterfly wing pattern mimicry
JJ Lewis, RC Geltman, PC Pollak, KE Rondem, SM Van Belleghem, ...
Proceedings of the National Academy of Sciences 116 (48), 24174-24183, 2019
Krav: US National Science Foundation
Mapping gene flow between ancient hominins through demography-aware inference of the ancestral recombination graph
MJ Hubisz, AL Williams, A Siepel
PLoS genetics 16 (8), e1008895, 2020
Krav: US National Science Foundation, US National Institutes of Health
The role of GC-biased gene conversion in shaping the fastest evolving regions of the human genome
D Kostka, MJ Hubisz, A Siepel, KS Pollard
Molecular biology and evolution 29 (3), 1047-1057, 2012
Krav: US National Institutes of Health
Non-cell-autonomous cancer progression from chromosomal instability
J Li, MJ Hubisz, EM Earlie, MA Duran, C Hong, AA Varela, E Lettera, ...
Nature 620 (7976), 1080-1088, 2023
Krav: US Department of Defense, US National Institutes of Health, Wellcome Trust …
A model-based analysis of GC-biased gene conversion in the human and chimpanzee genomes
JA Capra, MJ Hubisz, D Kostka, KS Pollard, A Siepel
PLoS genetics 9 (8), e1003684, 2013
Krav: US National Institutes of Health
Comparative Genomic Analysis of the Streptococcus dysgalactiae Species Group: Gene Content, Molecular Adaptation, and Promoter Evolution
H Suzuki, T Lefebure, MJ Hubisz, P Pavinski Bitar, P Lang, A Siepel, ...
Genome biology and evolution 3, 168-185, 2011
Krav: US National Institutes of Health
Genomic islands of differentiation in a rapid avian radiation have been driven by recent selective sweeps
HA Hejase, A Salman-Minkov, L Campagna, MJ Hubisz, IJ Lovette, ...
Proceedings of the National Academy of Sciences 117 (48), 30554-30565, 2020
Krav: US National Science Foundation, US National Institutes of Health
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