about
Direct detection of alternative open reading frames translation products in human significantly expands the proteomeInitial characterization of the human central proteomeProteomics of plant pathogenic fungiDe novo origination of a new protein-coding gene in Saccharomyces cerevisiaeProteins interacting with cloning scars: a source of false positive protein-protein interactionsGENCODE: the reference human genome annotation for The ENCODE ProjectThe 2012 Nucleic Acids Research Database Issue and the online Molecular Biology Database Collectionmspire: mass spectrometry proteomics in RubyExploring the potential of public proteomics dataNew types of experimental data shape the use of enzyme kinetics for dynamic network modelingIdentifying novel biomarkers through data mining-a realistic scenario?Parasites, proteomes and systems: has Descartes' clock run out of time?Emergence, Retention and Selection: A Trilogy of Origination for Functional De Novo Proteins from Ancestral LncRNAs in PrimatesCharacterization of the rapamycin-sensitive phosphoproteome reveals that Sch9 is a central coordinator of protein synthesis.Yeast protein phosphatase 2A-Cdc55 regulates the transcriptional response to hyperosmolarity stress by regulating Msn2 and Msn4 chromatin recruitment.BioBenchmark Toyama 2012: an evaluation of the performance of triple stores on biological dataSystems Medicine as an Emerging Tool for Cardiovascular GeneticsPIQMIe: a web server for semi-quantitative proteomics data management and analysisUsing Galaxy-P to leverage RNA-Seq for the discovery of novel protein variationsIntrons in UTRs: why we should stop ignoring themIntegration of cardiac proteome biology and medicine by a specialized knowledgebaseA mighty small heart: the cardiac proteome of adult Drosophila melanogasterProteome organization in a genome-reduced bacteriumA quantitative proteomic profile of the Nrf2-mediated antioxidant response of macrophages to oxidized LDL determined by multiplexed selected reaction monitoringCharacterizing the Syphilis-Causing Treponema pallidum ssp. pallidum Proteome Using Complementary Mass SpectrometryA Graph-Centric Approach for Metagenome-Guided Peptide and Protein Identification in MetaproteomicsThe Human Genome Project: big science transforms biology and medicineMOPED 2.5--an integrated multi-omics resource: multi-omics profiling expression database now includes transcriptomics dataThe mzQuantML data standard for mass spectrometry-based quantitative studies in proteomicsThe mzIdentML data standard for mass spectrometry-based proteomics resultsmzML--a community standard for mass spectrometry dataThe gel electrophoresis markup language (GelML) from the Proteomics Standards InitiativePRIDE: new developments and new datasetsPrestOMIC, an open source application for dissemination of proteomic datasets by individual laboratoriesAn informatic pipeline for the data capture and submission of quantitative proteomic data using iTRAQSkyline: an open source document editor for creating and analyzing targeted proteomics experimentsAnalyzing proteomes and protein function using graphical comparative analysis of tandem mass spectrometry results.Structural Bioinformatics Inspection of neXtProt PE5 Proteins in the Human Proteome.Protein Bioinformatics Databases and Resources.The Drosophila melanogaster PeptideAtlas facilitates the use of peptide data for improved fly proteomics and genome annotation.
P2860
Q21132658-E6DFCB6C-D7B7-4CA7-8EE6-6D6279B02D50Q21202777-E6044944-14EA-4F29-ABDF-7625D6A2A18FQ21296824-4FA0F7A6-A0FD-4705-9C29-B404127B997EQ22305974-4B17CE7C-BBE9-459C-93AC-5775BE99BB9EQ24289298-B68210C1-2D6B-40DF-A641-004A32678BA5Q24608743-DDD24242-53CC-42AE-86AF-239C253AD3FAQ24621442-10CF4836-06BF-4D43-AF76-24075300AA60Q24655226-FE24B4F2-5F51-4D2A-B184-129ECB7FD3F9Q26785886-5BFC40F2-500D-435C-9E80-EBA09170D2D0Q26823013-E8C24208-26A5-42C3-8346-957A1EB63684Q26995754-7F365032-8DCD-4C6D-BAAC-B0973E8861F0Q27010002-FA34B11A-3CF8-42E9-905C-8958B4AF3CCDQ27310666-0C254F33-49C9-4902-8F4C-4E7B71EB549AQ27938723-1D16D324-1426-44FB-8A18-9C951E6260A0Q27939447-63D236BD-E29E-4003-9991-BE81008A7AABQ27975969-9B2F7969-FB7A-4243-B7A9-EBE1ADDEC103Q28069197-5AF4A255-496D-43B6-825C-72A16C6A3044Q28240766-5BBE35A5-9E26-43AE-A5E5-566D71202009Q28246542-94C6211D-2C89-4615-882B-C6DF01EC2A6CQ28278199-E6DD6E96-F95A-4CE2-8316-7394474154BAQ28297030-04749D7A-72C8-43FF-9FB1-C732D774E8A9Q28477885-7D5DB8FC-5899-4C3D-83C0-FECEE6B3D4F0Q28484727-A34110C7-1BA3-4A5B-A029-84930D683380Q28485243-4BECA44B-E006-4E12-AED3-D15FCD5F4976Q28553940-E1AB407E-60A0-481D-A149-67387CE4EDF3Q28554789-784BE804-5290-45A9-B173-43BFBB59FB61Q28657810-788E4005-4DB8-4342-8420-62E10491C4F7Q28658673-D77BEFED-B54E-43E1-9708-30E2D682C276Q28687007-19BDBEA4-BE8B-49A4-982C-18F2F7C6F192Q28727227-2CB99DD0-B0FA-4B6F-84BD-EEC85D6EFA61Q28743778-F044877E-4C96-4758-B897-7CD0525D00C8Q28743879-F893AFAA-2AD0-4540-9FAB-A3E7EC4FC851Q28755658-A3CD656F-CEDE-4DF8-BD45-22F669144473Q28757543-8152863E-07D1-4837-8819-7072D5003C20Q28763628-B745D346-ED7D-4EAC-9316-4C74B40A9B0FQ30080030-8E4ADBD3-0FD8-41D2-8862-8CE67CDB433CQ30354439-EE2A8AF2-331B-4774-900E-E5184E074FCBQ30376959-758EBB0C-F76F-49C7-BA44-53EDB4EFD144Q30398117-771FDA64-5B7E-47DF-9B07-C230D9A8D896Q30484056-70A285E2-FC92-453D-A8CE-E21E083DF2B9
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
The PeptideAtlas project
@ast
The PeptideAtlas project
@en
The PeptideAtlas project
@nl
type
label
The PeptideAtlas project
@ast
The PeptideAtlas project
@en
The PeptideAtlas project
@nl
prefLabel
The PeptideAtlas project
@ast
The PeptideAtlas project
@en
The PeptideAtlas project
@nl
P2093
P2860
P50
P3181
P356
P1476
The PeptideAtlas project
@en
P2093
Frank Desiere
James Eddes
Nichole L King
Parag Mallick
Sandra N Loevenich
Sharon Chen
P2860
P304
P3181
P356
10.1093/NAR/GKJ040
P407
P433
Database issue
P577
2006-01-01T00:00:00Z