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Literature DB >> 22649669

"Prostate cancer proteomics" database.

S S Shishkin¹, L I Kovalyov, M A Kovalyova, K V Lisitskaya, L S Eremina, A V Ivanov, E V Gerasimov, E G Sadykhov, N Y Ulasova, O S Sokolova, I Y Toropygin, V O Popov.

Abstract

A database of Prostate Cancer Proteomics has been created by using the results of a proteomic study of human prostate carcinoma and benign hyperplasia tissues, and of some human-cultured cell lines (PCP, http://ef.inbi.ras.ru). PCP consists of 7 interrelated modules, each containing four levels of proteomic and biomedical data on the proteins in corresponding tissues or cells. The first data level, onto which each module is based, is a 2DE proteomic reference map where proteins separated by 2D electrophoresis, and subsequently identified by mass-spectrometry, are marked. The results of proteomic experiments form the second data level. The third level contains protein data from published articles and existing databases. The fourth level is formed with direct Internet links to the information on corresponding proteins in the NCBI and UniProt databases. PCP contains data on 359 proteins in total, including 17 potential biomarkers of prostate cancer, particularly AGR2, annexins, S100 proteins, PRO2675, and PRO2044. The database will be useful in a wide range of applications, including studies of molecular mechanisms of the aetiology and pathogenesis of prostate diseases, finding new diagnostic markers, etc.

Entities: CellLine Chemical Disease Gene Species

Keywords: digital database; prostate cancer; proteomics

Year: 2010 PMID： 22649669 PMCID： PMC3347584

Source DB: PubMed Journal: Acta Naturae ISSN： 2075-8251 Impact factor: 1.845

14 in total

1. [Clinicobiochemical study of diagnostic value of the panel including 10 potential protein markers of prostatic cancer].

Authors: S S Shishkin; N K Dzeranov; K I Totrov; A V Kazachenko; M A Kovaleva; I Iu Toropygin
Journal: Urologiia Date: 2009 Jan-Feb

2. [Determination of "amino acids conflicts" and amino acids substitutions in primary structures of 41 human proteins by use the proteomic technologies].

Authors: M A Kovaleva; L I Kovalev; L S Eremina; A A Makarov; M V Burakova; I Iu Toropygin; M V Serebriakova; S S Shishkin; A I Archakov
Journal: Biomed Khim Date: 2008 Jul-Aug

3. Twenty years of two-dimensional electrophoresis: past, present and future.

Authors: N G Anderson; N L Anderson
Journal: Electrophoresis Date: 1996-03 Impact factor: 3.535

4. AGR2, an androgen-inducible secretory protein overexpressed in prostate cancer.

Authors: Jin-San Zhang; Aiyu Gong; John C Cheville; David I Smith; Charles Y F Young
Journal: Genes Chromosomes Cancer Date: 2005-07 Impact factor: 5.006

Review 5. Screening for prostate cancer in U.S. men ACPM position statement on preventive practice.

Authors: Lionel S Lim; Kevin Sherin
Journal: Am J Prev Med Date: 2008-02 Impact factor: 5.043

6. Cancer prevalence in the United Kingdom: estimates for 2008.

Authors: J Maddams; D Brewster; A Gavin; J Steward; J Elliott; M Utley; H Møller
Journal: Br J Cancer Date: 2009-06-30 Impact factor: 7.640

7. The androgen receptor gene mutations database (ARDB): 2004 update.

Authors: Bruce Gottlieb; Lenore K Beitel; Jian Hui Wu; Mark Trifiro
Journal: Hum Mutat Date: 2004-06 Impact factor: 4.878

8. The prostate specific antigen era in the United States is over for prostate cancer: what happened in the last 20 years?

Authors: Thomas A Stamey; Mitchell Caldwell; John E McNeal; Rosalie Nolley; Marci Hemenez; Joshua Downs
Journal: J Urol Date: 2004-10 Impact factor: 7.450

Review 9. Biomarkers for prostate cancer.

Authors: Eddy S Leman; Robert H Getzenberg
Journal: J Cell Biochem Date: 2009-09-01 Impact factor: 4.429