The human proteome project: Current state and future direction.
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Direct detection of alternative open reading frames translation products in human significantly expands the proteomeAntibody-based protein profiling of the human chromosome 21C2orf62 and TTC17 are involved in actin organization and ciliogenesis in zebrafish and humanneXtProt: a knowledge platform for human proteinsPhosphoSitePlus, 2014: mutations, PTMs and recalibrationsDevelopment of data representation standards by the human proteome organization proteomics standards initiativeTen years of standardizing proteomic data: a report on the HUPO-PSI Spring Workshop: April 12-14th, 2012, San Diego, USAA draft map of the human proteomeStructural Bioinformatics Inspection of neXtProt PE5 Proteins in the Human Proteome.Recommendations for mass spectrometry data quality metrics for open access data (corollary to the Amsterdam Principles)MOPED enables discoveries through consistently processed proteomics data.Human Proteome Project Mass Spectrometry Data Interpretation Guidelines 2.1.Integrative analysis of human omics data using biomolecular networks.Toward defining the anatomo-proteomic puzzle of the human brain: An integrative analysis.Design and operation of an automated high-throughput monoclonal antibody facility.Proteome-wide epitope mapping of antibodies using ultra-dense peptide arraysEmerging proteomics biomarkers and prostate cancer burden in Africa.A new class of protein cancer biomarker candidates: differentially expressed splice variants of ERBB2 (HER2/neu) and ERBB1 (EGFR) in breast cancer cell linesBiobank resources for future patient care: developments, principles and concepts.Analysis of high accuracy, quantitative proteomics data in the MaxQB database.Proteogenomic analysis of human chromosome 9-encoded genes from human samples and lung cancer tissues.Metrics for the Human Proteome Project 2015: Progress on the Human Proteome and Guidelines for High-Confidence Protein Identification.Proteomic approaches to the discovery of cancer biomarkers for early detection and personalized medicine.Chromosome 19 annotations with disease speciation: a first report from the Global Research Consortium.Understanding drug uptake and binding within targeted disease micro-environments in patients: a new tool for translational medicine.Multiple haplotype-resolved genomes reveal population patterns of gene and protein diplotypes.Clinical initiatives linking Japanese and Swedish healthcare resources on cancer studies utilizing Biobank Repositories.The strategy, organization, and progress of the HUPO Human Proteome ProjectSystematic identification of single amino acid variants in glioma stem-cell-derived chromosome 19 proteinsApplying mass spectrometry-based qualitative proteomics to human amygdaloid complex.Recent advances in proteomics: towards the human proteome.Acetylproteomic analysis reveals functional implications of lysine acetylation in human spermatozoa (sperm)Personalized Medicine in the Age of Pharmacoproteomics: A Close up on India and Need for Social Science Engagement for Responsible Innovation in Post-Proteomic Biology.Predicting protein function via downward random walks on a gene ontologyOnly one health, and so many omicsA Human "eFP" Browser for Generating Gene Expression Anatograms.The human proteome - a scientific opportunity for transforming diagnostics, therapeutics, and healthcareIdentifying the missing proteins in human proteome by biological language modelInterspecies gene function prediction using semantic similarity.A cell-based approach to the human proteome project.
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The human proteome project: Current state and future direction.
description
article científic
@ca
article scientific
@oc
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
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name
The human proteome project: Current state and future direction.
@en
The human proteome project: Current state and future direction.
@nl
type
label
The human proteome project: Current state and future direction.
@en
The human proteome project: Current state and future direction.
@nl
prefLabel
The human proteome project: Current state and future direction.
@en
The human proteome project: Current state and future direction.
@nl
P2093
P2860
P50
P1476
The human proteome project: Current state and future direction.
@en
P2093
Alexander Archakov
Bruno Domon
Cathy H Wu
Christoph H Borchers
Ghasem Hosseini Salekdeh
John Bergeron
Kumar Bala
Laura Beretta
Michael Snyder
P2860
P304
M111.009993
P356
10.1074/MCP.M111.009993
10.1074/MCP.O111.009993
P50
P577
2011-07-01T00:00:00Z