about
Generic algorithm to predict the speed of translational elongation: implications for protein biogenesis.Low-cost, Low-bias and Low-input RNA-seq with High Experimental Verifiability based on Semiconductor SequencingSystematic identification of tRNAome and its dynamics in Lactococcus lactisSilent mutations in sight: co-variations in tRNA abundance as a key to unravel consequences of silent mutations.tRNA concentration fine tunes protein solubility.Dispec: a novel peptide scoring algorithm based on peptide matching discriminability.Different sequence signatures in the upstream regions of plant and animal tRNA genes shape distinct modes of regulation.FANSe2: a robust and cost-efficient alignment tool for quantitative next-generation sequencing applicationsTransfer RNAs Mediate the Rapid Adaptation of Escherichia coli to Oxidative Stress.Genome-Wide and Experimental Resolution of Relative Translation Elongation Speed at Individual Gene Level in Human CellsRevealing crosstalk of plant and fungi in the symbiotic roots of sewage-cleaning Eichhornia crassipes using direct de novo metatranscriptomic analysis.Cytoplasmic hnRNPK interacts with GSK3β and is essential for the osteoclast differentiation.Integrated Translatomics with Proteomics to Identify Novel Iron-Transporting Proteins in Streptococcus pneumoniaeTranslating mRNAs strongly correlate to proteins in a multivariate manner and their translation ratios are phenotype specific.Cytoskeleton-centric protein transportation by exosomes transforms tumor-favorable macrophages.Folding at the birth of the nascent chain: coordinating translation with co-translational folding.Length-dependent translation initiation benefits the functional proteome of human cells.Direct interaction of 14-3-3ζ with ezrin promotes cell migration by regulating the formation of membrane ruffle.Systematic analyses of the transcriptome, translatome, and proteome provide a global view and potential strategy for the C-HPP.Global and local depletion of ternary complex limits translational elongation.Binomial probability distribution model-based protein identification algorithm for tandem mass spectrometry utilizing peak intensity information.Protein-Level Integration Strategy of Multiengine MS Spectra Search Results for Higher Confidence and Sequence Coverage.Resolving chromosome-centric human proteome with translating mRNA analysis: a strategic demonstration.Length-dependent translation of messenger RNA by ribosomes.TranslatomeDB: a comprehensive database and cloud-based analysis platform for translatome sequencing data.Steady-state structural fluctuation is a predictor of the necessity of pausing-mediated co-translational folding for small proteins.Iterative genome correction largely improves proteomic analysis of nonmodel organisms.Bacteria differently regulate mRNA abundance to specifically respond to various stresses.Rational design of translational pausing without altering the amino acid sequence dramatically promotes soluble protein expression: a strategic demonstration.Transient ribosomal attenuation coordinates protein synthesis and co-translational folding.In vivo CRISPR screening unveils histone demethylase UTX as an important epigenetic regulator in lung tumorigenesis.Optimal Settings of Mass Spectrometry Open Search Strategy for Higher ConfidenceTranslatomics: The Global View of TranslationLung cancer deficient in the tumor suppressor GATA4 is sensitive to TGFBR1 inhibitionPhotocatalytic Protein Damage by Silver Nanoparticles Circumvents Bacterial Stress Response and Multidrug ResistanceEnhancing co-translational folding of heterologous protein by deleting non-essential ribosomal proteins inBiomolecular autonomous solution of the Hamiltonian path problem via hairpin formationNatural osmolytes remodel the aggregation pathway of mutant huntingtin exon 1XY-Meta: A High-Efficiency Search Engine for Large-Scale Metabolome Annotation with Accurate FDR EstimationMisassembly of long reads undermines de novo-assembled ethnicity-specific genomes: validation in a Chinese Han population
P50
Q33426332-BBA245F2-AD41-4344-AF61-1F7E3FD6D616Q33682001-5C819FC4-D3E5-4049-AAA7-7557CCC9B8A8Q34115800-8B32E64E-4E6A-4E00-9D54-F885E0181854Q34125131-05CD8CCA-78E9-4DED-81AD-9A39265A58E9Q34347032-4135E5B7-7486-4590-8C48-666F501C1531Q34722654-502201A0-0727-428C-889B-C62289883041Q34864861-6FBF04CA-A5A0-49CD-9D8C-D6FCB54CA771Q35151715-1649396C-E13D-4675-96EB-483902374BC9Q35668292-02E84A0A-1323-4AF5-A704-FD6D36CCCB2DQ35939590-77B2508C-6585-448D-A73B-73B549FC3C7DQ36168220-8D78FDD9-D4F6-4435-8BA8-EC24E1B18637Q36350166-CD235C57-89C7-4B40-99DC-9070E2251B55Q36536225-82B906EF-8652-4A95-BE10-5996319AAD28Q36814213-5F21B42F-1865-4853-BB69-385D2FDDA667Q37687170-B53C4BAA-9628-4EAA-A869-22E6BE66FE8FQ37812767-619E3CB1-3FD6-45EC-9340-9A8D715BFFBDQ38944162-2CC9389C-38E4-4A4F-ADBF-44FEE01E0B4AQ38975545-7542D64B-595C-4C56-B62E-37D2E212A63DQ39060731-EEB4D7F5-1965-49FE-BD7F-89DB25B5C323Q41902966-89A0E582-1893-42B7-9DF0-36F68DEB791DQ42677075-E0F153AE-A6E5-49B9-98AC-909D66A145ABQ42694296-304EB289-EBA8-483A-9C74-1D1B398251E0Q42774317-A128AE8E-C29E-4C5D-B2F7-C35300A34930Q44248302-F6F259E4-3D7F-4007-89DC-C1E211FB9CDCQ46268150-40156C5B-36D3-4BF6-B033-C8ADD4DBFF43Q47221882-793D8A1F-8DD6-4563-831C-15A357E73813Q48865824-CBEA9501-C284-4F33-AFBA-F34A9877DD44Q50716917-DCD2CC03-6FC6-4C8A-9AA9-824DD63D85FDQ51052140-BEC5E1CA-9B85-4899-8DDB-AB1002B15F51Q51836617-ADAA7E6D-EA1E-4842-9DDA-A6EA7249296AQ52431419-AE56D24B-31DA-4946-A84A-98C9488DB3C9Q57181410-48FFB894-8D11-44DC-A82E-88AABEABB98CQ60916940-4F3EE12C-8025-4EE8-A50A-C0F65D760410Q64060566-81CB2105-200A-4EB2-BCDA-8AC250A5A595Q64076195-37BDD8B1-FCA6-4975-829B-8AC7C33A7814Q64117412-FABDF03F-8F25-4A91-93DC-51E57143F9F5Q80118577-EBBC5F39-983E-4E66-A37C-86F1429A843AQ83437395-691CCE03-DB45-4250-AA04-B4F4174BBE57Q90653868-6B501506-3691-45E8-9C68-6F22351AB1BEQ92553249-28D21F80-476A-4077-A2EB-DE6A847FB519
P50
description
researcher
@en
հետազոտող
@hy
name
Gong Zhang
@ast
Gong Zhang
@en
Gong Zhang
@es
Gong Zhang
@nl
Gong Zhang
@sl
type
label
Gong Zhang
@ast
Gong Zhang
@en
Gong Zhang
@es
Gong Zhang
@nl
Gong Zhang
@sl
prefLabel
Gong Zhang
@ast
Gong Zhang
@en
Gong Zhang
@es
Gong Zhang
@nl
Gong Zhang
@sl
P1053
Q-7419-2017
P106
P108
P31
P3829
P496
0000-0003-0418-3433
P569
2000-01-01T00:00:00Z