P185
A highly efficient β-glucosidase from the buffalo rumen fungus Neocallimastix patriciarum W5Overlapping genes in the human and mouse genomesNucleotide diversity in gorillasDynamic modeling of cis-regulatory circuits and gene expression prediction via cross-gene identification.Functional characterization of cellulases identified from the cow rumen fungus Neocallimastix patriciarum W5 by transcriptomic and secretomic analysesEvolution of the hominoid semenogelin genes, the major proteins of ejaculated semenRole of duplicate genes in genetic robustness against null mutationsStrong male-driven evolution of DNA sequences in humans and apesEvolution of 5' untranslated region length and gene expression reprogramming in yeastsHuman TRIM71 and its nematode homologue are targets of let-7 microRNA and its zebrafish orthologue is essential for developmentMicroRNA-like small RNAs prediction in the development of Antrodia cinnamomeaA Gene Gravity Model for the Evolution of Cancer Genomes: A Study of 3,000 Cancer Genomes across 9 Cancer TypesTopographical mapping of α- and β-keratins on developing chicken skin integuments: Functional interaction and evolutionary perspectivesGenomic organization, transcriptomic analysis, and functional characterization of avian α- and β-keratins in diverse feather formsSystematic screening of glycosylation- and trafficking-associated gene knockouts in Saccharomyces cerevisiae identifies mutants with improved heterologous exocellulase activity and host secretionGenetically distinct coelacanth population off the northern Tanzanian coastGene number expansion and contraction in vertebrate genomes with respect to invertebrate genomesOrganismal complexity, protein complexity, and gene duplicabilityProportion of solvent-exposed amino acids in a protein and rate of protein evolution.Classification of protein functional surfaces using structural characteristics.Maize and millet transcription factors annotated using comparative genomic and transcriptomic data.Comparative methods for the analysis of gene-expression evolution: an example using yeast functional genomic data.Dynamic association rules for gene expression data analysisIntegrating RNA-seq and ChIP-seq data to characterize long non-coding RNAs in Drosophila melanogasterPSC: protein surface classification.Identifying regulatory targets of cell cycle transcription factors using gene expression and ChIP-chip data.Multidimensional scaling for large genomic data sets.Computational reconstruction of transcriptional regulatory modules of the yeast cell cycle.Expression evolution in yeast genes of single-input modules is mainly due to changes in trans-acting factorsA systematic approach to detecting transcription factors in response to environmental stresses.Protein under-wrapping causes dosage sensitivity and decreases gene duplicability.A general tendency for conservation of protein length across eukaryotic kingdoms.Anatomical and transcriptional dynamics of maize embryonic leaves during seed germination.Identifying gene regulatory modules of heat shock response in yeast.Prediction of human miRNAs using tissue-selective motifs in 3' UTRsSystematic identification of yeast cell cycle transcription factors using multiple data sources.A novel puf-A gene predicted from evolutionary analysis is involved in the development of eyes and primordial germ-cells.fPOP: footprinting functional pockets of proteins by comparative spatial patterns.Divergence in the spatial pattern of gene expression between human duplicate genesThe spatial distribution of cis regulatory elements in yeast promoters and its implications for transcriptional regulation.
P50
Q21202056-F30FAAD2-ED00-4A7C-B66C-7873806119AEQ21263185-375CC3CA-52D7-4EA2-9E46-15254E7E48DDQ24545668-A940B05C-2763-4BAB-846C-9492F4FD9EF5Q24810551-A422AF6C-9F8D-47E2-B014-AD9B4F76985FQ27499100-63D7593E-5015-40CD-81D2-27866A2CF514Q28185872-37D19221-18AD-4AA9-958C-3C23962280ACQ28201722-CD535984-03F6-4E72-9788-2D73D119158FQ28214424-D8353E68-0106-4405-BC54-1C05365500DFQ28249544-2DC595B8-5F05-4FE3-BC28-0498337678FAQ28250241-6B0C393E-4210-4296-8117-8CFE3767E3C4Q28546041-696114A3-DD11-4135-973E-43D511EF0701Q28547803-0882045E-F084-4635-9BED-89EA2E7BEBE3Q28604221-20A8F694-9FB0-44D3-8AE2-C33FF81C212EQ28654576-25EDA0C5-7923-4864-A372-7CC566BE9594Q28681135-704B708B-9F82-4B38-A453-E3730C1ABBB9Q28743173-0C623AD0-026B-4FD2-99B8-42C6D94705E3Q28755931-08D4F87B-1289-4E31-899C-F6CB2A09107AQ28776490-E117C91E-9D11-4EE4-A36D-73E91D821B75Q30359531-05FB0F2A-65B3-40BB-BCD3-458FA191F14BQ30411641-1F6F258B-8080-4A05-8BE4-70AB2852DE3FQ30855439-B537C2F1-8E31-4A8B-A8BA-20A7221E0B61Q30957217-64F07460-4E22-4AE0-9567-020271C18B5DQ31005000-B144A381-8C99-4556-B648-570296156FF3Q31057172-4B6B6585-4BA4-4DF7-8E8D-A286301161B1Q31063615-117B03DC-DA9D-4297-9FB6-4CE5848AC37BQ31115170-7E32A108-FDCA-4D68-8052-8872BBA3D291Q31151726-004FE866-A845-4FE1-9B60-DEE5C94F7E8AQ33258839-07E8545C-27E5-491A-AE22-71FBF58F4CE7Q33290149-951626A0-1482-453E-BF05-6E451A985063Q33309351-B603B0AF-9176-403C-883C-AA655DAD68E3Q33315570-9EC463C3-86B0-4715-BC6B-1A71ADCEA503Q33340403-E4EDA371-92DB-4368-A0AE-B6DDC9E76AADQ33355357-C7073500-E644-4168-B1A4-073491060483Q33371395-9D6A7B0B-61F3-4A3D-894D-B681D54FCEF5Q33379533-73BF9D71-DEB4-412D-8F37-9BB1117EFFC6Q33390479-0EAC1196-8B15-4C98-8B1B-C28E0E47B1D4Q33421730-3585E5CF-491D-46B0-9A61-BC3731EC503EQ33600676-765D0B41-2DA8-4287-8783-3807B32A14F9Q33680514-9A5944CD-D264-48C9-91A8-08ABF9156AA5Q33722749-0DE659D8-5144-4F8B-A1F1-D0C80F6D935B
P50
description
Amerikaans klinische genetica
@nl
US-amerikanischer Genetiker, Evolutionsbiologe
@de
geneticista norte-americano
@pt
genetista estadounidense
@es
genetista estatubatuarra
@eu
genetista estatunidenc
@ca
genetista statunitense
@it
généticien américain
@fr
taiwanese scientist
@en
xenetista estadounidense
@gl
name
Wen-Hsiung Li
@ast
Wen-Hsiung Li
@ca
Wen-Hsiung Li
@cy
Wen-Hsiung Li
@da
Wen-Hsiung Li
@de
Wen-Hsiung Li
@en
Wen-Hsiung Li
@es
Wen-Hsiung Li
@fr
Wen-Hsiung Li
@it
Wen-Hsiung Li
@nb
type
label
Wen-Hsiung Li
@ast
Wen-Hsiung Li
@ca
Wen-Hsiung Li
@cy
Wen-Hsiung Li
@da
Wen-Hsiung Li
@de
Wen-Hsiung Li
@en
Wen-Hsiung Li
@es
Wen-Hsiung Li
@fr
Wen-Hsiung Li
@it
Wen-Hsiung Li
@nb
prefLabel
Wen-Hsiung Li
@ast
Wen-Hsiung Li
@ca
Wen-Hsiung Li
@cy
Wen-Hsiung Li
@da
Wen-Hsiung Li
@de
Wen-Hsiung Li
@en
Wen-Hsiung Li
@es
Wen-Hsiung Li
@fr
Wen-Hsiung Li
@it
Wen-Hsiung Li
@nb
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36067232700
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0000 0001 0782 8642