This resource gives an overview of the known chromosome numbers, up to now, within the Asteraceae. Through a detailed search mask the chromosome numbers, the taxa investigated, and bibliographic references are accessible. Publications up to and including 2005 are recorded in the resource. [Editorial staff vifabio]
The Index to Plant Chromosome Numbers is an NSF funded project that aims to extract and index original plant chromosome numbers of naturally occurring and cultivated plants published throughout the world. A committee of voluntary contributing editors, located in various parts of the world, reviews sets of serial titles assigned to them and returns the information to the editors for collation in the Index. Chromosome indexes are published every two years. The Index to Plant Chromosome Numbers project has been based at the Missouri Botanical Garden since 1978. Data from published indexes from 1984 onward are available for consultation through this facility. ... [Information of the supplier]
The Integrated Microbial Genomes (IMG) system provides a framework for comparative analysis of the genomes sequenced by the Joint Genome Institute. Its goal is to facilitate the visualization and exploration of genomes from a functional and evolutionary perspective. There are two main approaches to using the system: genes and genomes. Genes can be found by keyword or BLAST query via the Gene Search and then analyzed in the context of their chromosomal, metabolic, and phylogenetic neighborhoods. Genomes of multiple organisms can be selected with the Organism Browser. You can then compare them through the Phylogenetic Profiler in order to identify common or unique properties. ... [Information of the supplier]
The JGI Genome Portal offers an interface to several bioinformatics tools for studying genomes. For each organism sequenced by JGI, a specific subset of tools is available. Throughout a subsite for a given organism, the navigation bar provides links to the tools available for that organism. [Information of the supplier, modified]
Legumes play vital roles in maintaining nitrogen cycle of biosphere and in agriculture for nitrogen fixation by their unique ability to carry out symbiotic nitrogen fixation (SNF) through endosymbiotic interactions with bacteria in root nodules. This vital feature can't be studied by using the model plant Arabidopsis thaliana. Besides the root nodulation and symbiotic nitrogen fixation with rhizobia, legumes possess several unique features that are not found in A. thaliana, such as mycorrhization, compound leaf development, protein-rich physiology, a profuse secondary metabolism, glandular trichome development, and border cells in roots. LegumeIP is an integrative database and bioinformatics platform for comparative genomics and transcriptomics to facilitate the study of gene function and genome evolution in legumes, and ultimately to generate molecular based breeding tools to improve quality of crop legumes. ... [Information of the supplier]
MaarjAM is a web-based database containing Glomeromycota DNA sequence data that originate from ecological studies based on “environmental samples” or taxonomic investigations based on cultured fungi. It has the following goals: to bring together published data from studies applying molecular methods to the natural diversity and taxonomy of Glomeromycota; to reclassify existing sequence data and create “virtual taxa” on the basis of a novel phylogenetic analysis. Species (binomial) and “molecular taxa” classifications are also indicated where available; to enable browsing and searching in relation to virtual taxa classification, original species/molecular taxa classifications, and ecological/biogeographic variables, including geographical location, biome and host plant. ... [Information of the supplier]
This SRC conference is an important and unique scientific meeting where the intersections of plant development, signaling, modeling and genomics are explored through talks, poster sessions, and intensive scientific discussion. Outstanding researchers from around the world presenting cutting edge research directed towards a fundamental understanding of how different aspects of plant growth and development are controlled in response to intrinsic and external signals, and how such mechanisms are modified over evolutionary time. Plant growth and development are at the core of agricultural productivity, and are essential for human survival. The spirit of the meeting is that understanding fundamental biology is the surest way to advance practical gains in agriculture. In addition, plant biology has pioneered new insights into many fields over the last century, including genetics, developmental biology, epigenetics and genomics. This conference, which has been held every 2-3 years for the past twenty-five years, is the only regular international meeting devoted entirely to plant developmental biology. The interactions between established scientists and young investigators entering in this field are facilitated by special sessions that maximize interactions between the two groups. Its small size and secluded location make it a fantastic opportunity for discussion of new ideas and emerging concepts in the exciting and rapidly moving field of plant development. ... [Information of the supplier]
MeRy-B is a plant metabolomics platform allowing the storage and visualisation of Nuclear Magnetic Resonance (NMR) metabolic profiles from plants. For data uploading contact the administrator. MeRy-B is a web-based application with either public or private access. It is designed to fill a knowledgebase of curated plant profiles and metabolites obtained by NMR, to query and visualize the data, to detect biomarkers with spectra visualization and statistical tools, and to assist in biomarker identification. It contains plant metabolites and unknown compounds lists with information about experimental conditions and metabolite concentrations from several plant species compiled from a thousand of curated annotated NMR profiles on various organs or tissues. ... [Information of the supplier]
Panzea is the bioinformatics arm of a project investigating the Genetic Architecture of Maize and Teosinte (NSF 0820619). The project is funded by the National Science Foundation. The project is describing the genetic architecture of complex traits in maize and teosinte. We will identify genes that control domestication traits and three key agronomic traits: flowering time, plant height, and kernel quality. We will characterize allelic series at these genes, examine their epistatic and environmental interactions, and take a step toward the ultimate goal of predicting phenotype from genotype. The genetic, germplasm, and bioinformatic resources created by this project will help maize researchers worldwide to discover the genetic basis of any trait of interest. The Panzea website provides access to the project database and bioinformatics module. The Panzea Database contains the genotypic and phenotypic data and genetic marker information produced by the project. The Panzea Database design is based on the Genomic Diversity and Phenotype Data Model (GDPDM). The database schema and an Excel file with table and field descriptions are available below. ... [Information of the supplier]
Das Bundesministerium für Bildung und Forschung fördert im Rahmen der Öffentlichkeitsarbeit des Deutschen Pflanzengenom-Forschungsprogramm GABI die Onlineplattform Pflanzenforschung.de. Diese soll als zentrales Modul neben anderen Elementen wie z.B. Fachforen der informativen Aufklärung über Themen der Pflanzenforschung dienen. Ziel dieses Internetportals ist es, die Bedeutung und die Faszination der Pflanzenforschung einer interessierten Öffentlichkeit zu vermitteln. Aktuelle Forschungsergebnisse, Hintergrundinformationen, gesellschaftlich relevante Informationen im Zusammenhang mit der „Pflanze“ sowie allgemeinpolitische Debatten im Kontext zu Pflanzenforschung und Pflanzenzüchtung werden populärwissenschaftlich, informativ und im fachlichen Kontext aufbereitet. Interdisziplinäre Verknüpfungen zwischen Themen aus Forschung, Landwirtschaft, Ökonomie, Ökologie und Gesellschaft finden neben spezifischen Projektinformationen und fokussierten Themen über die Pflanzenforschung hinaus eine gemeinsame Plattform. Das Internetportal zeigt, dass die Möglichkeiten eines Studiums in der Pflanzenforschung weit über den Studienhorizont klassischer Fächer wie Biologie, Agrar- oder Ernährungswissenschaften hinausgehen. Denn selbst Bereiche wie Informatik, Elektronik oder Sensorik finden sich in den verschiedensten Studiengängen wider. Berufsbilder, die heute in der Gesellschaft aufgrund ihrer Spezifizierung kaum wahrgenommen werden, werden demnach exemplarisch vorgestellt und sichtbar. ... [Information des Anbieters]