The HIV databases contain data on HIV genetic sequences, immunological epitopes, drug resistance-associated mutations, and vaccine trials. The website also gives access to a large number of tools that can be used to analyze these data. This project is funded by the Division of AIDS of the National Institute of Allergy and Infectious Diseases (NIAID), a part of the National Institutes of Health (NIH). ... [Information of the supplier]
This website aims to provide you with key information about the human genome: the science, its role in health and medicine, and the broader social impact of unravelling its mysteries. The site is produced by the Wellcome Trust, the independent research funding charity that aims to improve human and animal health. [Information of the supplier]
The National Human Genome Research Institute (NHGRI) led the National Institutes of Health's (NIH) contribution to the International Human Genome Project, which had as its primary goal the sequencing of the human genome. This project was successfully completed in April 2003. Now, the NHGRI's mission has expanded to encompass a broad range of studies aimed at understanding the structure and function of the human genome and its role in health and disease. To that end NHGRI supports the development of resources and technology that will accelerate genome research and its application to human health. A critical part of the NHGRI mission continues to be the study of the ethical, legal and social implications (ELSI) of genome research. NHGRI also supports the training of investigators and the dissemination of genome information to the public and to health professionals. ... [Information of the supplier]
The goals of the National Genome Research Network are: 1. The research into the scientific principles of widespread diseases. 2. The development of appropriate treatment methods. 3. The research on the effectiveness of therapies. 4. The development of appropriate diagnosis methods. [Information of the supplier, modified]
An international research consortium has been formed to create the most detailed and medically useful picture to date of human genetic variation. The 1000 Genomes Project will involve sequencing the genomes of at least a thousand people from around the world. The project will receive major support from the Wellcome Trust Sanger Institute in Hinxton, England, the Beijing Genomics Institute Shenzhen in China and the National Human Genome Research Institute (NHGRI), part of the National Institutes of Health (NIH). Drawing on the expertise of multidisciplinary research teams, the 1000 Genomes Project will develop a new map of the human genome that will provide a view of biomedically relevant DNA variations at a resolution unmatched by current resources. As with other major human genome reference projects, data from the 1000 Genomes Project will be made swiftly available to the worldwide scientific community through freely accessible public databases. ... [Information of the supplier]
Completed in 2003, the Human Genome Project (HGP) was a 13-year project coordinated by the U.S. Department of Energy and the National Institutes of Health. During the early years of the HGP, the Wellcome Trust (U.K.) became a major partner; additional contributions came from Japan, France, Germany, China, and others. See our history page for more information. Project goals were to identify all the approximately 20,000-25,000 genes in human DNA, determine the sequences of the 3 billion chemical base pairs that make up human DNA, store this information in databases, improve tools for data analysis, transfer related technologies to the private sector, and address the ethical, legal, and social issues (ELSI) that may arise from the project. Though the HGP is finished, analyses of the data will continue for many years. Follow this ongoing research on our Progress page. ... [Information of the supplier]
DDBJ (DNA Data Bank of Japan) began DNA data bank activities in earnest in 1986 at the National Institute of Genetics (NIG). From the beginning, DDBJ has been functioning as one of the International DNA Databases, including EBI in Europe and NCBI in the USA as the two other members. Consequently, we have been collaborating with the two data banks through exchanging data and information on Internet and by regularly holding two meetings, the International DNA Data Banks Advisory Meeting and the International DNA Data Banks Collaborative Meeting. DDBJ is the sole DNA data bank in Japan, which is officially certified to collect DNA sequences from researchers and to issue the internationally recognized accession number to data submitters. We collect data mainly from Japanese researchers, but of course accept data and issue the accession number to researchers in any other countries. Since we exchange the collected data with EMBL/EBI and GenBank/NCBI on a daily basis, the three data banks share virtually the same data at any given time. We also provide worldwide many tools for data retrieval and analysis developed by at DDBJ and others. ... [Information of the supplier]
A database is a model of a piece of the world. RegulonDB in this sense is a model of the complex regulation of transcription initiation or regulatory network of the cell, on the one hand. On the other hand, it is also a model of the organization of the genes in transcription units, operons and simple and complex regulons. In this sense, RegulonDB is a computational model of mechanisms of transcriptional regulation. ... [Information of the supplier]
Cyanobacteria carry a complete set of genes for oxygenic photosynthesis, which is the most fundamental life process on the earth. This organism is also interesting from an evolutional viewpoint, for it was born in a very ancient age and has survived in various environments. Chloroplast is believed to have evolved from cyanobacterial ancestors which developed an endosymbiontic relationship with a eukaryotic host cell. CyanoBase provides an easy way of accessing the sequences and all-inclusive annotation data on the structures of the cyanobacterial genomes. ... [Information of the supplier]
Saccharomyces Genome Database is a scientific database of the molecular biology and genetics of the yeast Saccharomyces cerevisiae, which is commonly known as baker's or budding yeast. (...) SGD contains the sequences of yeast genes and proteins; descriptions and classifications of their biological roles, molecular functions, and subcellular localizations; links to literature information; links to functional genomics datasets; and tools for analysis and comparison of sequences. The SGD Home page is the main entry point for the database. SGD is aimed at scientists; collected information about yeast for the non-scientist can be found at the Yeast Virtual Library. SGD does not collect medical information, and SGD curators cannot answer health-related questions. ... [Information of the supplier]