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http://bioinformatics.research.nicta.com.au/software/gossamer/
A software application for the de novo assembly of genomes from fragments of DNA that specifically attacks the question of scalability.
Proper citation: Gossamer (RRID:SCR_010612) Copy
http://neurolog.polytech.unice.fr/doku.php?id=neurolog
THIS RESOURCE IS NO LONGER IN SERVICE, documented on July 16, 2013. The NeuroLOG consortium is addressing: *Management and access of partly structured data, heterogeneous and distributed in an open environment. *Access control and protection of private medical data. *Control of workflows implied in complex computing process on grid infrastructures. *Extraction and quantification of relevant parameters for different pathologies: Multiple sclerosis, Brain Vascular Stroke, Brain tumors Four application pipelines have been proposed in the context of the project. The pipelines are formalized using the Scufl data flow language. *Multiple Sclerosis image analysis pipelines *Brain Stroke application pipeline (from GIN) *Stroke / tumours Anacom application pipeline (from IFR49) Different softwares developed and/or used in this project are presented., THIS RESOURCE IS NO LONGER IN SERVICE. Documented on September 16,2025.
Proper citation: NeuroLOG (RRID:SCR_010582) Copy
An open source commercial platform for genomic analysis. Included is a home brewed workflow engine and code provenance tracking, no data provenance tracking. Multiple tools like HMMR and Blast are included in the platform with an architecture that allows others to be plugged in and the code to be modified. Data storage is handled by hadoop clusters.
Proper citation: Biodatomics (RRID:SCR_010464) Copy
http://pathema.jcvi.org/Pathema/index.html
Pathema is one of the eight Bioinformatics Resource Centers designed to serve as a core resource for the bio-defense and infectious disease research community. Pathema strives to support basic research and accelerate scientific progress for understanding, detecting, diagnosing and treating an established set of six target NIAID Category A-C pathogens: Category A priority pathogens; Bacillus anthracis and Clostridium botulinum, and Category B priority pathogens; Burkholderia mallei, Burkholderia pseudomallei, Clostridium perfringens and Entamoeba histolytica. Each target pathogen is represented in one of four distinct clade-specific Pathema web resources and underlying databases developed to target the specific data and analysis needs of each scientific community. All publicly available complete genome projects of phylogenetically related organisms are also represented, providing a comprehensive collection of organisms for comparative analyses. Pathema facilitates the scientific exploration of genomic and related data through its integration with web-based analysis tools, customized to obtain, display, and compute results relevant to ongoing pathogen research. Pathema serves the bio-defense and infectious disease research community by disseminating data resulting from pathogen genome sequencing projects and providing access to the results of inter-genomic comparisons for these organisms. The Pathema BRC contract ends in December 2009. At that time JCVI will cease maintenance of the Pathema web resource and data. The PATRIC team, located at the Virginia Bioinformatics Institute, created and maintains a consolidated BRC for all of the NIAID category A-C priority pathogenic bacteria. The EuPathDB team at the University of Pennsylvania will support all eukaryotic pathogens. Pathema transferred all data and software to PATRIC and EuPathDB for incorporation into their new Web-based bioinformatics resource.
Proper citation: Pathema (RRID:SCR_010585) Copy
The Human Proteome Organisation (HUPO) is an international scientific organization representing and promoting proteomics through international cooperation and collaborations by fostering the development of new technologies, techniques and training.
Proper citation: HUPO - Human Proteome Organisation (RRID:SCR_010707) Copy
http://www.bcgsc.ca/platform/bioinfo/software/abyss
Software providing de novo, parallel, paired-end sequence assembler that is designed for short reads. ABySS 1.0 originally showed that assembling human genome using short 50 bp sequencing reads was possible by aggregating half terabyte of compute memory needed over several computers using standardized message passing system. ABySS 2.0 is Resource Efficient Assembly of Large Genomes using Bloom Filter. ABySS 2.0 departs from MPI and instead implements algorithms that employ Bloom filter, probabilistic data structure, to represent de Bruijn graph and reduce memory requirements.
Proper citation: ABySS (RRID:SCR_010709) Copy
http://www.sanger.ac.uk/resources/software/alfresco/
The aim is to develop a new visualization tool that allows effective comparative genome sequence analysis. The program will compare multiple sequences from putitatively homologous regions in different species. Results from various different existing analysis programs, such as gene prediction, protein homology and regulatory sequence prediction programs shall be visualized and used to find corresponding sequence domains. The program functions as an stand-alone application and also over the World Wide Web. With this in mind it is being developed using the Java programming language. A key feature of the program is to use available analysis programs relevant to comparative genome sequence analysis, combine the results of these, and graphically present them in an intuitive way, thereby facilitating the analysis of large genomic regions. We''ve decided to call this program Alfresco. We originally wanted to call it Fresco (FRont-End for Sequence COmparison) but that name was already taken. To run Alfresco you need to have jdk1.1 installed. Alfresco has only been tested on Solaris 2.5, Dec OSF 4.0D and Linux, but should run on any machine with jdk1.1. New: Alfresco now runs on Mac and Windows as well.
Proper citation: Alfresco - FRont-End for Sequence COmparison (RRID:SCR_010544) Copy
http://medicalimaging.wikia.com/wiki/Main_Page
A wiki all about medical imaging. Anyone may contribute who registers. Popular pages include Optical Imaging, Imaging brain function with optical topography, Optical mammography, Introduction to optical imaging, Comparison of time domain and frequency domain systems, Forward problem in diffuse optical imaging, Optical molecular imaging.
Proper citation: Medical Imaging (RRID:SCR_010665) Copy
http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0023501
An algorithm for de novo genome assembly with short paired-end reads.
Proper citation: Meraculous (RRID:SCR_010700) Copy
MIRIAM is an effort to standardise the Minimal Information Required In the Annotation of Models, so that different groups can collaborate on annotating and curating computational models in biology. The goal of the project, initiated by the BioModels.net effort is to produce a set of guidelines suitable for use with any structured format for computational models. MIRIAM is a registered project of the MIBBI (Minimum Information for Biological and Biomedical Investigations). If you are looking for the online resources providing support to MIRIAM Standard, please go to: MIRIAM Resources.
Proper citation: MIRIAM: Minimal Information Required In the Annotation of Models (RRID:SCR_010547) Copy
An integrated cross-species anatomy ontology representing a variety of entities classified according to traditional anatomical criteria such as structure, function and developmental lineage. The ontology includes comprehensive relationships to taxon-specific anatomical ontologies, allowing integration of functional, phenotype and expression data. Uberon consists of over 10000 classes (March 2014) representing structures that are shared across a variety of metazoans. The majority of these classes are chordate specific, and there is large bias towards model organisms and human.
Proper citation: UBERON (RRID:SCR_010668) Copy
http://dictybase.org/teaching_tools/index.html
Dictyostelium discoideum is a great organism to use to teach cellular biology. It exhibits very interesting behaviors, such as chemotaxis and phagocytosis, that can readily be studied in standard laboratories without the need for expensive equipment. Lists of labs being used in real courses settings and all necessary information for performing those experiments are provided. Major headings: * Dictyostelium cell biology course, by Dr. David Knecht, University of Connecticut * Dictyostelium cell biology, by Dr. Derrick Brazill, Hunter College, New York * Report on the number of cells in a slug, contributed by John Bonner * Practical on chemotaxis, by Dr. Thierry Soldati, University of Geneva * Comments from Researchers * References suggested by contributors
Proper citation: dictyBase - Teaching Tools Using Dictyostelium discoideum (RRID:SCR_010701) Copy
http://bioinformatics.ubc.ca/matrix2png/
An open visualization tool for the display of matrix data. It is available for download or interactive web use. It is a simple but powerful program for making visualizations of microarray data and many other data types. It generates PNG formatted images from text files of data. It is fast, easy to use, and reasonably flexible. It can be used to generate publication-quality images, or to act as a image generator for web applications. Our group has found it useful for imaging all kinds of matrix-based data, not just microarray data.
Proper citation: Matrix2png (RRID:SCR_010669) Copy
BTI is unique in being a private, not-for-profit research institute dedicated to plant biology, and located on a major university campus. Its mission is to advance and communicate scientific knowledge in plant biology to improve agriculture, protect the environment, and enhance human health. The institute was founded in Yonkers, New York, next to the home of its benefactor, William Boyce Thompson. In the mid-1970''s, however, it was recognized that a physical presence on a university campus would catapult the institute to a higher level of research, and the Cornell affiliation was born. BTI hires its own faculty, postdoctoral scholars and technicians, but also hosts undergraduate and graduate researchers from Cornell. BTI faculty generally have adjunct appointments at Cornell, and participate in graduate training and other university affairs. As envisioned in the Agreement of Affiliation, the partnership is advantageous for both parties, and contributes to a singularly strong environment for fundamental plant research on the campus. William Boyce Thompson founded BTI in 1924 on the premise that basic plant research leads to real benefits for people. Many potential applications of BTI research are to improve crops by increasing yield or nutritional content, or decreasing the need for harmful fertilizers and pesticides. Other research could lead to inexpensive plant-made vaccines, or even shed light on the human immune system. With aims like these in mind, scientists at BTI study life at the scale of genes and proteins to learn about processes such as how plants detect light, or how they respond when aphids bite into them. Along with research, BTI''s mission includes environmental responsibility and outreach to teachers, students, and community members. Though it remains an independent, non-profit institution, BTI is affiliated with Cornell University and is located on its Ithaca, New York campus.
Proper citation: Boyce Thompson Institute for Plant Research (RRID:SCR_010716) Copy
http://www.ebi.ac.uk/citexplore/
CiteXplore combines literature search with text mining tools for biology. Search results are cross referenced to EBI applications based on publication identifiers. Links to full text versions are provided where available. The underlying database is populated with data from Medline, Patents, C.B.A. and Citeseer. The site offers a quick search as well as an advanced search. Results of queries can be saved in formats compatible with commonly-used bibliographic management software and exported. We provide a Simple Object Access Protocol (SOAP) based service to retrieve data from the Citation database. Text mining is provided internally by Whatizit and externally by iHOP.
Proper citation: CiteXplore literature searching (RRID:SCR_010676) Copy
http://www.barthsyndrome.org/english/view.asp?x=1
The Barth Syndrome Foundation, together with our affiliates, is a community of families, physicians, scientists, donors and volunteers around the world. As our mission statement says, we are dedicated to saving lives through education, advances in treatment, and finding a cure for Barth syndrome - a sometimes fatal, oftentimes debilitating genetic disease. Our work includes: * Raising awareness among physicians, scientists, and the general public; * Supporting relevant research through an international grant research program; * Providing a caring and educational community for affected families; and * Hosting a unique information resource. Working together we are making a difference in the lives of children and their families. One day there will be a cure; we hope you will help us make that day come sooner. We are the only world-wide volunteer organization dedicated to saving lives through education, advances in treatment and pursuit of a cure for Barth syndrome (BTHS). We started in 2000, after the first international conference held in Baltimore, MD (USA) where families from around the world met to discuss BTHS. As a result, we made a unanimous decision to work together to find a cure for this multi-system disorder. Our Foundation strives to accelerate progress through collaboration between families and scientists. We encourage family participation in research. Also, we provide several ways to keep up-to-date about advances in science and medicine. Our principal education event is our biennial international scientific, medical and family conference, which brings together the largest number of individuals interested in Barth syndrome. Our Family Services team is continually developing new informational resources in response to the needs of families, individuals, and professionals working with those affected by Barth syndrome.
Proper citation: Barth Syndrome Foundation (RRID:SCR_010556) Copy
http://psidev.sourceforge.net/mi/xml/doc/user/index.html
The Proteomics Standards Initiative (PSI) aims to define community standards for data representation in proteomics to facilitate data comparison, exchange and verification. As a first step, the PSI is developing standards for two key areas of proteomics: mass spectrometry and protein-protein interaction data. The document describes the molecular interaction data exchange format. PSI is following a leveled approach to building this specification. Level 1 will describe protein interactions at a basic level that covers a large amount of currently available data. Subsequent levels will add capability to represent new molecular interaction information that the community wishes to exchange. The scope of PSI MI is currently limited to protein-protein interactions. Other molecules, such as small molecules, DNA and RNA maybe taken into account in the future. The PSI MI format is a data exchange format for protein-protein interactions. It is not a proposed database structure. The purpose of the document is to describe the general structure of the PSI MI XML specification in a more user-friendly manner than the specification does itself. PSI MI was designed by a group of people including representatives from database providers and users in both academia and industry. PSI MI is supported by the DIP, MINT, IntAct, BIND and HPRD databases.
Proper citation: PSI-MI (RRID:SCR_010710) Copy
http://www.blueprintnhpatlas.org/
Atlas of gene expression in the developing rhesus macaque brain. This atlas is a free online resource with a unique set of data and tools aimed to create a developmental neuroanatomical framework for exploring the cellular and molecular architecture of the developing postnatal primate brain with direct relevance for human brain development. The atlas includes: * Microarray ** Microdissection: Fine structure transcriptional profiling across postnatal development for fine nuclear subdivisions of the prefrontal cortex, primary visual cortex, hippocampus, amygdala and ventral striatum ** Macrodissection: Gross structure transcriptional profiling across postnatal development for the same structures * ISH: ** Cellular resolution in situ hybridization image data of five major brain regions during postnatal developmental periods for genes clinically important for a variety of human neurodevelopmental disorders, including prefrontal cortex, primary visual cortex, hippocampus, amygdala and ventral striatum. ** Serial analysis of selected genes across the entire adult brain, focusing on cellular marker genes, genes with cortical area specificity and gene families important to neural function. * ISH Anatomic Search: Detailed gene expression search on the ISH data based on expert annotation * Reference Data: Developmental stage-specific reference series, consisting of magnetic resonance imaging (MRI) and Nissl histology to provide a neuroanatomical context for the gene expression data. These data and tools are designed to provide a valuable public resource for researchers and educators to explore neurodevelopment in non-human primates, and a key evolutionary link between other Web-based gene expression atlases for adult and developing mouse and human brain.
Proper citation: NIH Blueprint NHP Atlas (RRID:SCR_010559) Copy
http://www.ntnu.edu/biotech/systembio
The new NTNU Systems Biology website showcases the different systems biology efforts at NTNU. Regular updates on new initiatives and advertisements for new PhD and Postdoc vacancies in systems biology will be posted.
Proper citation: NTNU Systems Biology (RRID:SCR_010713) Copy
AlloSource is a non-profit organization founded in 1994 on a promise to honor and respect the gift of donation by responsibly developing, processing and distributing life-saving and life-enhancing allografts for our communities. Today, each of our 300 employees continues to fulfill this promise through multi-shift, 360-day processing to the highest quality and service standards. We strive to be the tissue network patients and the world''s most respected transplant teams ask for by name. This is accomplished by understanding the needs of our doctors and by providing the best tissue for our recipients. We offer more than 200 standard and customized precision allograft products, and act as a trusted and knowledgeable partner to the medical community, all with the intention of maximizing medical impact. In 1995, Allosource evolved from a local tissue bank in Denver, Colorado into a national organization serving communities around the country. Today, AlloSource is one of the largest, most respected tissue banks in the United States. Through our growth we''ve remained committed to the wishes of donor families, the needs of our surgeon customers, and the hopes of our patient recipients. Our promise of doing more with life reflects our unwavering focus on integrity, quality, safety, and respect today, and into the future.
Proper citation: AlloSource (RRID:SCR_010683) Copy
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