about
Evolvability is a selectable traitMicroarray and EST database estimates of mRNA expression levels differ: the protein length versus expression curve for C. elegansThe emergence of modularity in biological systemsEvolution of H3N2 influenza virus in a guinea pig modelTemplate-Framework Interactions in Tetraethylammonium-Directed Zeolite SynthesisLow-dimensional clustering detects incipient dominant influenza strain clusters.A novel sequence-based antigenic distance measure for H1N1, with application to vaccine effectiveness and the selection of vaccine strainsHierarchy of gene expression data is predictive of future breast cancer outcomeLibrary design in combinatorial chemistry by Monte Carlo methods.Amino acid alphabet size in protein evolution experiments: better to search a small library thoroughly or a large library sparsely?Enantiomerically enriched, polycrystalline molecular sieves.Selective pressure to increase charge in immunodominant epitopes of the H3 hemagglutinin influenza protein.Predicting Fixation Tendencies of the H3N2 Influenza Virus by Free Energy Calculation.Hierarchy in gene expression is predictive of risk, progression, and outcome in adult acute myeloid leukemiaModularity enhances the rate of evolution in a rugged fitness landscape.Quantifying influenza vaccine efficacy and antigenic distance.Quasispecies theory for evolution of modularity.Evolutionary processes in finite populations.Epitope analysis for influenza vaccine design.Development of modularity in the neural activity of children's brainsPrediction of influenza B vaccine effectiveness from sequence data.Single molecule targeted sequencing for cancer gene mutation detectionInfluenza evolution and H3N2 vaccine effectiveness, with application to the 2014/2015 seasonT Cell Repertoire Diversity Is Decreased in Type 1 Diabetes PatientsParallel tempering: theory, applications, and new perspectives.Theoretical aspects of immunity.Quantifying selection and diversity in viruses by entropy methods, with application to the haemagglutinin of H3N2 influenza.Non-classical phase diagram for virus bacterial coevolution mediated by clustered regularly interspaced short palindromic repeats.Prediction of heart rate response to conclusion of the spontaneous breathing trial by fluctuation dissipation theory.Static and Dynamic Measures of Human Brain Connectivity Predict Complementary Aspects of Human Cognitive Performance.Discovery of optimal zeolites for challenging separations and chemical transformations using predictive materials modeling.A multi-scale model for correlation in B cell VDJ usage of zebrafishQuasispecies theory for multiple-peak fitness landscapes.Evolution: life has evolved to evolve: comment on "How life changes itself: the Read-Write (RW) genome" by James Shapiro.Quasispecies theory for horizontal gene transfer and recombination.Quasispecies theory for finite populations.The epitope regions of H1-subtype influenza A, with application to vaccine efficacyComment on Ndifon et al., "On the use of hemagglutination-inhibition for influenza surveillance: Surveillance data are predictive of influenza vaccine effectiveness"Synthesis of a specified, silica molecular sieve by using computationally predicted organic structure-directing agents.Multicanonical molecular dynamics by variable-temperature thermostats and variable-pressure barostats.
P50
Q24564104-3A722D39-18CF-4671-ABCB-EB795DC068E1Q24795600-9F39CFCD-A279-4954-835C-F162F25DFA71Q28648024-13ED722A-7696-4E3E-928F-46F8054A62CDQ28742283-30DA85CF-4855-4A43-A67C-276A5BA7D673Q28818011-C0B74490-67B1-4E4F-8131-47168896338FQ30395592-F25FEDF9-4EA1-49F4-A62D-3F49D669E469Q30396902-6358EEE4-6417-4C6A-BEBE-6975763940BCQ30671311-48874380-AF1B-40ED-9AEB-8F2906A780DDQ30941735-4A0221F7-9BA2-44CF-946F-90B5D7175F46Q33326227-279E6414-88CF-49BE-BF9F-0ADFC86869A2Q33719484-3DD53EA8-35ED-4B16-BEC1-CD9BF368F1D1Q34551246-942CA5C3-D1A7-48E2-815E-C74C506873FAQ35052511-F6DA86B6-68CB-46BF-B0A0-E9E5AFB02A27Q35170920-DF0B4EBC-BF86-475F-B2B3-FE57A71E1841Q35261092-90554544-D462-4147-9A63-4A06B1C0B291Q35760689-DA36B7C7-A7EE-491E-AC33-E03E57427EE7Q35771458-B1348CE9-CFC8-4539-85B7-FA14BBECD7EDQ35776546-EA1B1C64-72AA-4ED9-822B-329010DAF032Q35786331-4FE70474-8691-4E8A-98F3-D9B83F37BDA8Q35811261-3339B503-C291-4BB8-8316-49F60DE61105Q36090140-95B7BAC1-8B0E-4613-9CE1-6A640142FB66Q36914760-3A6F6017-8DB3-4B02-86F4-1C9E69BBFF65Q37114545-FD33DDC1-1C08-4730-92AF-6FD71F9F5E55Q37545537-DD88D102-7ED1-448E-A7EF-53EBB9F5FCC2Q37610077-C4738E1C-FBB1-44A8-ACCB-37E44394B182Q37995258-C79F9B60-A3EB-43C0-B5F4-8F7F23E69BB8Q38539323-8FA62D1C-1174-443B-962C-CDC0F1D83DC8Q38757042-CA3FE77C-4CBB-4D8A-88BD-83BCACF68F86Q40083254-CB7291BE-308E-4C05-8217-F1BFF7C5CBE1Q41537446-0F713AFA-AD0C-426A-98D5-DA276642C707Q41549386-E9F40C5E-C706-4653-AC9E-B5EC51CCA169Q41823343-79C69664-4246-4351-8880-C7B42835F484Q41909146-9B407B08-B086-4DB9-8A2A-FCE38044600BQ42074747-AE4D971F-361A-4A06-A037-2FB0026A1F5CQ42176844-36454981-EE31-4543-A27A-598C6A2DDE7EQ42408491-0B83D697-3CBE-4E24-AA71-BD8D1639169DQ42576714-5F8A73BF-C756-453A-9FFF-B87F2A09410DQ42587054-E444E900-7143-4F04-AA02-AD90BB1D9AF4Q43796471-52072638-ED41-4935-9093-8E03034DB3BDQ44965857-75E1756D-78C0-4F60-BEAA-3DFEB6A9318C
P50
description
hulumtues
@sq
researcher
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wetenschapper
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հետազոտող
@hy
name
Michael W Deem
@ast
Michael W Deem
@en
Michael W Deem
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Michael W Deem
@nl
Michael W Deem
@sl
type
label
Michael W Deem
@ast
Michael W Deem
@en
Michael W Deem
@es
Michael W Deem
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Michael W Deem
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altLabel
Michael Deem
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Michael W Deem
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Michael W Deem
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Michael W Deem
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Michael W Deem
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Michael W Deem
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P1053
P-3595-2014
P106
P1153
7005324073
P21
P2456
P31
P3829
P496
0000-0002-4298-3450