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E3 ubiquitin ligases promote progression of differentiation during C. elegans embryogenesisAnalysis of complete nucleotide sequences of 12 Gossypium chloroplast genomes: origin and evolution of allotetraploidsDe novo inference of systems-level mechanistic models of development from live-imaging-based phenotype analysis.Large-scale atlas of microarray data reveals the distinct expression landscape of different tissues in Arabidopsis.Large-Scale Public Transcriptomic Data Mining Reveals a Tight Connection between the Transport of Nitrogen and Other Transport Processes in Arabidopsis.The prediction of protein-protein interaction networks in rice blast fungus.The Bifidobacterium dentium Bd1 genome sequence reflects its genetic adaptation to the human oral cavity.Divergent and convergent modes of interaction between wheat and Puccinia graminis f. sp. tritici isolates revealed by the comparative gene co-expression network and genome analyses.Combination of specific single chain antibody variable fragment and siRNA has a synergistic inhibitory effect on the propagation of avian influenza virus H5N1 in chicken cells.Genetic analysis and morphological identification of pilus-like structures in members of the genus BifidobacteriumDREISS: Using State-Space Models to Infer the Dynamics of Gene Expression Driven by External and Internal Regulatory NetworksSystematic comparison of lncRNAs with protein coding mRNAs in population expression and their response to environmental change.Differential Coexpression Analysis Reveals Extensive Rewiring of Arabidopsis Gene Coexpression in Response to Pseudomonas syringae Infection.Pan- and core- network analysis of co-expression genes in a model plant.Prediction of protein-protein interactions between Ralstonia solanacearum and Arabidopsis thaliana.Badh2, encoding betaine aldehyde dehydrogenase, inhibits the biosynthesis of 2-acetyl-1-pyrroline, a major component in rice fragrance.Can simple codon pair usage predict protein-protein interaction?An Important Role for Purifying Selection in Archaeal Genome Evolution.KBase: The United States Department of Energy Systems Biology KnowledgebaseGene editing and mutagenesis reveal inter-cultivar differences and additivity in the contribution of TaGW2 homoeologues to grain size and weight in wheatA predicted protein-protein interaction network of the filamentous fungus Neurospora crassaThe genetic architecture of genome-wide recombination rate variation in allopolyploid wheat revealed by nested association mappingTransgenerational CRISPR-Cas9 Activity Facilitates Multiplex Gene Editing in Allopolyploid WheatMultivariable regulation of gene expression plasticity in metazoansExome sequencing highlights the role of wild-relative introgression in shaping the adaptive landscape of the wheat genomePlaD: A Transcriptomics Database for Plant Defense Responses to Pathogens, Providing New Insights into Plant Immune SystemGene editing of the wheat homologs of TONNEAU1-recruiting motif encoding gene affects grain shape and weight in wheat
P50
Q27302969-2F62C240-F3EC-4D23-AD0F-C30724D1EBBCQ28728594-5B444013-4204-463F-9370-4D82EAC7739CQ30576952-4C8D1DF0-857E-43AD-9FE6-1B16BFACF768Q31063446-41803154-E7E5-4B04-ADE3-6963B014974CQ31123719-64653D3F-6E18-4677-91C2-3BFBE9440994Q33381886-38D80091-1740-4A34-80D0-B6412F9251E3Q33521289-EB6B6012-C7C1-4B68-91FF-1E8BB409BAA1Q33556217-13B5260B-685C-410B-B8F6-80741F8251EEQ34686635-764E9E5D-E18A-4C82-9C33-0DF2F99E294CQ35596007-CD1001E0-F6B0-4A28-BBB9-C694123319C6Q36167690-827FA681-3569-4BF3-B433-56DB0F9DFE9EQ36278969-EDEC8018-2847-48F3-A58A-64D933F4E557Q37323863-497FF8AE-1035-4B3E-8762-5F7A2DAF8270Q37508331-EFA33BD6-754D-41B4-A3F7-31405E33FA0CQ39725242-44E69809-02CC-486E-8B00-5785A0DE9539Q45177926-5F5291D3-F54F-4154-B4F8-2AF5926DFFEFQ45960808-D4139217-DB20-4030-BF6B-9FA7EACB90CFQ47133467-A1AAD000-F538-485F-8032-79B7542B4CF8Q57021720-305F91FE-8C2D-476B-A829-AD2A76FB2A8FQ58716410-85830A28-5FF1-4562-A2D8-73F974756D01Q62964044-87A94CF0-3960-436D-A0E5-5B7E8BC2AA54Q89305406-637FE68F-49C6-4955-A2F9-07296C28AD9FQ90974381-B229B3EC-7D62-42F5-A2B7-DC48470CC2DAQ91650105-3F5637DF-B060-4F8E-B042-649C277F7A0CQ91677345-F3E9E5B8-A563-4E3B-8148-BDBB96A41DADQ91856140-5AD31B88-92DF-4B3C-BDDB-DCA96885DC29Q92898191-887A96A8-EC67-423E-A990-7EDE25190239
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Fei He
@ast
Fei He
@en
Fei He
@es
Fei He
@sl
type
label
Fei He
@ast
Fei He
@en
Fei He
@es
Fei He
@sl
prefLabel
Fei He
@ast
Fei He
@en
Fei He
@es
Fei He
@sl
P1053
C-5912-2015
P106
P2798
P31
P3829
P496
0000-0002-1165-3248