Autophagy database

Autophagy database(s) aim to provide a comprehensive list of autophagy-related genes and proteins, whether they are identified as orthologs or homologs of other, potentially related, proteins. Many kinds of information, including sequences, functions, and 3D structures, can be stored, thus making them accessible in a searchable format. Information available in a single source, using a searchable format, would simplify work for future researchers. These sources would then help to accomplish this aim by providing recently published references on autophagy alongside categories such as user ratings, a list of informative reviews, and results of an original analysis. As autophagy can play a role in a host of human diseases, such as those of the heart, liver, and kidney, further understanding its mechanisms is essential. Simplifying the research process with some database would then provide a scientific boon. Autophagy database(s) aim to provide a comprehensive list of autophagy-related genes and proteins, whether they are identified as orthologs or homologs of other, potentially related, proteins. Many kinds of information, including sequences, functions, and 3D structures, can be stored, thus making them accessible in a searchable format. Information available in a single source, using a searchable format, would simplify work for future researchers. These sources would then help to accomplish this aim by providing recently published references on autophagy alongside categories such as user ratings, a list of informative reviews, and results of an original analysis. As autophagy can play a role in a host of human diseases, such as those of the heart, liver, and kidney, further understanding its mechanisms is essential. Simplifying the research process with some database would then provide a scientific boon. . Autophagy is the process by which the cells in an organism destroy non-functional or unnecessary self-components. Specifically, autophagy is a catabolic process involving the degradation of a cell's own components through the lysosomal machinery. Autophagy is also crucial for instances of starvation and removal of potentially dangerous cellular materials, indicating its necessity in maintaining life. As seen in the associated figure Autophagy, cellular products are degraded by destructive cellular components, such as lysosomes, to produce new materials for the cell to use. Research into autophagy and its related processes has exploded over recent years, however, many of these processes processes are not completely understood and homologs have not been found in different species for many of these proteins. Its molecular mechanisms have not been fully elucidated, despite dramatic advances in the field as evidenced by hundreds of autophagy-related genes and proteins reported. As such, there was a demonstrated need for a database to characterize human autophagy proteins and components and/or their homologs, as well as orthologs in other species. Autophagy database is a product of the National Institute of Genetics (NIG) NIG was founded in June 1949 by the ministry of Education, Science, Sports, and Culture, with Prof. Kan Oguma being elected the first director. Over time, many departments have been added for various applications such as Genetics, Genomics, DNA Research, and, most notably for our purposes, the DNA Data Bank. NIG is a division of the Japanese Research Organization of Information and Systems, and is currently under the supervision of its ninth director. NIG aims to conduct top-level research in the pursuit of streamlining of information, as well as the dissemination of information from research into societal application. A tool created by this organization for this purpose is the Autophagy database. The Autophagy database is a database of proteins involved in autophagy. The Autophagy database intends to collect all relevant information, organize it, and make it publicly available so that its users can easily get up-to-date knowledge. Specifically, the Autophagy database offers a 'free-for-all' tool for those with interests, research and otherwise, in autophagy. To better accomplish this aim, the available Autophagy database from NIG calls for users of the database to disseminate and share information, so that autophagy-related data can be available for free to all who need it. For an interested research community, this model of research dissemination holds promise. As of April 2018; 1 year ago (2018-04), there were 582 reviewed proteins available in this database. Including autophagic proteins available in HomoloGene, NCBI, there are over 52,000 total proteins. Autophagy database offers comparison of homologous proteins between 41 different species to search new and old autophagy-related proteins, so that current autophagy research can be streamlined. The database was made publicly available in March 2010 and currently includes 7,444 genes/proteins in 82 eukaryotes. Human autophagy database is a product of the Luxembourg Institute of Health (LIH). LIH has several branches throughout Luxembourg available for Biomonitoring, Infection and Immunity, Health administration, Oncology, Sports Medicine, and Biobank. Each of these departments aims to support the LIH mission statement, which is 'to generate and translate research knowledge into clinical applications with an impact on the future challenges of health care and personalised medicine.' It accomplishes these aims by working toward the forefront of biomedical research, by maintaining excellence, integrity, and passion in their work and offered tools. The Laboratory of Experimental Cancer Research of LIH helped to establish one of these tools, that tool being the database known as Human autophagy database. Given that these databases are a large store of biological information, these can be used in bioinformatics applications to simplify information collection and analysis. Bioinformatics looks to pair biological discoveries with big data, to aid in improved scientific discoveries. Each database can be utilized to study an autophagic protein or gene of interest, where these databases are maintained by user submissions. Information for each gene can be used to access Entrez, Ensembl, and PubMed. FASTA sequence is also available for sequence analysis using sites such as BLAST. Specific uses available to Autophagy database and Human autophagy database are shown below. Autophagy database has several available functions to search for autophagy-related proteins in different species.