Lakshmi Dhevi N. Selvan scite author profile

The availability of human genome sequence has transformed biomedical research over the past decade. However, an equivalent map for the human proteome with direct measurements of proteins and peptides does not exist yet. Here, we present a draft map of the human proteome using high resolution Fourier transform mass spectrometry. In-depth proteomic profiling of 30 histologically normal human samples including 17 adult tissues, 7 fetal tissues and 6 purified primary hematopoietic cells resulted in identification of proteins encoded by 17,294 genes accounting for ~84% of the total annotated protein-coding genes in humans. A unique and comprehensive strategy for proteogenomic analysis enabled us to discover a number of novel protein-coding regions, which includes translated pseudogenes, non-coding RNAs and upstream ORFs. This large human proteome catalog (available as an interactive web-based resource at http://www.humanproteomemap.org) will complement available human genome and transcriptome data to accelerate biomedical research in health and disease.

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A Compendium of Potential Biomarkers of Pancreatic Cancer

Harsha

et al. 2009

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Annotation of the Zebrafish Genome through an Integrated Transcriptomic and Proteomic Analysis

Kelkar

Provost

Chaerkady

et al. 2014

Molecular & Cellular Proteomics

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Accurate annotation of protein-coding genes is one of the primary tasks upon the completion of whole genome sequencing of any organism. In this study, we used an integrated transcriptomic and proteomic strategy to validate and improve the existing zebrafish genome annotation. We undertook high-resolution mass-spectrometry-based proteomic profiling of 10 adult organs, whole adult fish body, and two developmental stages of zebrafish (SAT line), in addition to transcriptomic profiling of six organs. More than 7,000 proteins were identified from proteomic analyses, and ϳ69,000 high-confidence transcripts were assembled from the RNA sequencing data. Approximately 15% of the transcripts mapped to intergenic regions, the majority of which are likely long non-coding RNAs. These high-quality transcriptomic and proteomic data were used to manually reannotate the zebrafish genome. We report the identification of 157 novel protein-coding genes. In addition, our data led to modification of existing gene structures including novel exons, changes in exon coordinates, changes in frame of translation, translation in annotated UTRs, and joining of genes. Finally, we discovered four instances of genome assembly errors that were supported by both proteomic and transcriptomic data. Our study shows how an integrative analysis of the transcriptome and the proteome can extend our understanding of even well-annotated genomes. Molecular & Cellular Proteomics 13: 10.1074/mcp.M114.038299, 3184-3198, 2014. Zebrafish (Danio rerio)is an important vertebrate model organism that has been widely used in biomedical research in several areas, including developmental biology, disease biology, toxicology, and behavior. The latest genome assembly, Zv9, which was released in October 2011, combines the advantages of clone-by-clone sequencing and shotgun sequencing technologies. In this assembly, 83% of sequences were generated from capillary sequencing of clones, with the

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Phosphoproteome of Cryptococcus neoformans

Selvan

Renuse

Kaviyil

et al. 2014

Journal of Proteomics

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