TY - JOUR
T1 - The Micronutrient Genomics Project: a community-driven knowledge base for micronutrient research
AU - van Ommen, Ben
AU - El-Sohemy, Ahmed
AU - Hesketh, John
AU - Kaput, Jim
AU - Fenech, Michael
AU - Evelo, Chris T
AU - McArdle, Harry J
AU - Bouwman, Jildau
AU - Lietz, Georg
AU - Mathers, John C
AU - Fairweather-Tait, Sue
AU - van Kranen, Henk
AU - Elliott, Ruan
AU - Wopereis, Suzan
AU - Ferguson, Lynnette R
AU - Méplan, Catherine
AU - Perozzi, Giuditta
AU - Allen, Lindsay
AU - Rivero, Damariz
AU - Micronutrient Genomics Project Working Group
PY - 2010/12
Y1 - 2010/12
N2 - Micronutrients influence multiple metabolic pathways including oxidative and inflammatory processes. Optimum micronutrient supply is important for the maintenance of homeostasis in metabolism and, ultimately, for maintaining good health. With advances in systems biology and genomics technologies, it is becoming feasible to assess the activity of single and multiple micronutrients in their complete biological context. Existing research collects fragments of information, which are not stored systematically and are thus not optimally disseminated. The Micronutrient Genomics Project (MGP) was established as a community-driven project to facilitate the development of systematic capture, storage, management, analyses, and dissemination of data and knowledge generated by biological studies focused on micronutrient-genome interactions. Specifically, the MGP creates a public portal and open-source bioinformatics toolbox for all "omics" information and evaluation of micronutrient and health studies. The core of the project focuses on access to, and visualization of, genetic/genomic, transcriptomic, proteomic and metabolomic information related to micronutrients. For each micronutrient, an expert group is or will be established combining the various relevant areas (including genetics, nutrition, biochemistry, and epidemiology). Each expert group will (1) collect all available knowledge, (2) collaborate with bioinformatics teams towards constructing the pathways and biological networks, and (3) publish their findings on a regular basis. The project is coordinated in a transparent manner, regular meetings are organized and dissemination is arranged through tools, a toolbox web portal, a communications website and dedicated publications.
AB - Micronutrients influence multiple metabolic pathways including oxidative and inflammatory processes. Optimum micronutrient supply is important for the maintenance of homeostasis in metabolism and, ultimately, for maintaining good health. With advances in systems biology and genomics technologies, it is becoming feasible to assess the activity of single and multiple micronutrients in their complete biological context. Existing research collects fragments of information, which are not stored systematically and are thus not optimally disseminated. The Micronutrient Genomics Project (MGP) was established as a community-driven project to facilitate the development of systematic capture, storage, management, analyses, and dissemination of data and knowledge generated by biological studies focused on micronutrient-genome interactions. Specifically, the MGP creates a public portal and open-source bioinformatics toolbox for all "omics" information and evaluation of micronutrient and health studies. The core of the project focuses on access to, and visualization of, genetic/genomic, transcriptomic, proteomic and metabolomic information related to micronutrients. For each micronutrient, an expert group is or will be established combining the various relevant areas (including genetics, nutrition, biochemistry, and epidemiology). Each expert group will (1) collect all available knowledge, (2) collaborate with bioinformatics teams towards constructing the pathways and biological networks, and (3) publish their findings on a regular basis. The project is coordinated in a transparent manner, regular meetings are organized and dissemination is arranged through tools, a toolbox web portal, a communications website and dedicated publications.
U2 - 10.1007/s12263-010-0192-8
DO - 10.1007/s12263-010-0192-8
M3 - Article
C2 - 21189865
VL - 5
SP - 285
EP - 296
JO - Genes & Nutrition
JF - Genes & Nutrition
SN - 1555-8932
IS - 4
ER -