NABRW Conference Schedule GrainGenes The Triticeae genome Database. of Crop Soil Sciences, Washington State.University, Pullman, WA; 2 Plant Genomics Institute, Dept. Centre, agric. http://www.ndsu.nodak.edu/ndsu/plant_sciences/NABRW/Conferenceschedule.htm
Extractions: TENTATIVE MEETING AGENDA Oral Presentations for the NABRW, Fargo, ND 2002 Sunday September 22 2:00 - 5:00 PM - Barley Crop Advisory Committee Meeting 6:00 - 9:00 PM - Registration 6:00-8:00 PM Poster Setup Crystal I Room 7:00 - 10:00 PM - Reception (Provided With Meeting Registration) - Bach Room Monday September 23 7:30 am - Meeting Registration 8:00 Welcome Feed, Food and Malt Quality 8:10 Joe Hertrick, Anheuser Busch Malting barley quality needs 8:50 William Rahr, Rahr Malting Globalization of malting and brewing 9:20 Vern Anderson and Greg Lardy, North Dakota State University Feed barley research and market development 9:40-10:00 Break 10:00 Walt Newman, Montana State University Barley dietary fiber and beta-glucans: pigs and people 10:20 Christine Fastnaught, National. Barley Foods Council Barley reduces cholesterol an update on clinical trials and FDA petition process 10:40 Dennis Gordon, North Dakota State University Barley as a human food and functional food 11:10 Jorge Correa, Semillas Correa Mexicana Barley and its potential as a forage crop in dairy production in Mexico
Publication_list J Genetic map of diploid wheat, Triticum monococcum L., and its comparison withmaps of Hordeum Plant genome Conference, San Diego, USA (1995 J. Sichuan agric. http://agronomy.ucdavis.edu/mcluo/publication_list.htm
Extractions: Featured Links: WheatDB, A Wheat Physical Mapping Database mcluo@ucdavis.edu Luo MC , Thomas C, You FM, Hsiao J, Ouyang S, Buell CR, Malandro M, McGuire PE, Anderson OD, Dvorak J: High-throughput fingerprinting of bacterial artificial chromosomes using the snapshot labeling kit and sizing of restriction fragments by capillary electrophoresis. Genomics Full Text available at http://www.sciencedirect.com/science/journal/08887543 Luo MC , Thomas CS, Deal KR, You FM, Anderson OD, Gu YQ, Li W, Kuraparthy V, Gill BS, McGuire PE, Dvorak J. Construction of contigs of Aegilops tauschii genomic DNA fragments cloned in BAC and BiBAC vectors. Proc. 10th Intern. Wheat Genet. Symp. 1: 293-296, Paestum, Italy (2003). Dvorak J, Akhunov E, Akhunov A, Luo MC et al., New Insights into the Organization and Evolution of Wheat Genomes. Proc. 10th Intern. Wheat Genet. Symp . 1: 247-253, Paestum, Italy (2003). Luo MC , Thomas C, Xu Z, Zhang HB, Malandro M, Morgante M. McGuire PE and Dvorak J.
Genetic And Genomic Research Of Vitis aiming to develop linkage and physical maps, ESTs, BAC Grape search in the GRIN databasebased on Agricultural Microbes genome 2 Conference January 1719, 2001 http://library.smsu.edu/paulevans/grapegen.shtml
Extractions: Markers and Genetic Mapping The American Vineyard Foundation (AVF) - A California corporation organized in 1978 by the American Society of Enology and Viticulture as a vehicle to raise funds for research in viticulture and enology. Basic and applied research has made the American grape and wine industry the world's leader. Our vineyards produce grapes of unsurpassed quantity and quality. Bioinformatics.Org - A clearing house of public resources for plant-focused bioinformatics including plant related database, analysis and presentation technologies. Bioinformatics.Org is a non-profit, academe-based organization committed to opening access to bioinformatics research projects, providing Open Source software for bioinformatics by hosting its development, and keeping biological information freely available. Bioinformatics.Org is a community focused on the freedom of information as it pertains to the biosciences, a community sorely needed in our field, one of the most commercial of all scientific endeavors. And there are no doors to this laboratory to lock out the inquisitive based on any social rank. We stand firmly on our conviction that science is for the sake of science and not to be influenced by political and economic forces. Grapevine Genomics at the The Centre for Plant Conservation Genetics : The Grapevine Genome database is a result of a large-scale sequencing project carried out at the Centre for Plant Conservation Genetics. A number of objectives were achieved including the development of SSR markers from grape ESTs, micropropagation of table and wine grape varieties and an analysis of the grape genome based on 5,000 EST sequences. The results of the work on grape ESTs is now available in the Grapevine Genome database.
Bookmarks For George page. The USDA Research Database Agricultural genome Informatiion System(AGIS) Home Page Universities. Plant Malaysia) maps/GIS/GPS. http://www.yale.edu/fes530a/soil_web_links.htm
References Quality evaluation of databases, J. Am. from Tetramorium ants by selforganizing mapsfor morphological Cluster analysis and display of genome-wide expression http://www.noble.org/PlantBio/MS/meta.references.html
Extractions: REFERENCES 1. Barker, D.G., Bianchi, S., Blondon, F., Dattée, Y., Duc, G., Essad, S., Flament, P., Gallusci, P., Génier, G., Pierre, G., Muel, X., Tourneur, J., Dénarié, J., Huguet, T., Medicago Truncatula , a model plant for studying the molecular genetics of the Rhizobium -Legume symbiosis, Plant Mol. Biol. Rep., 2. Cook, D.R., VandenBosch, K., de Bruijn, F.J., Huguet, T., Model legumes get the nod, Plant Cell, 3. Cook, D.R., Medicago truncatula - a model in the making!, Curr. Opin. Plant Biol., 4. Trieu, A.T., Burleigh, S.H., Kardailsky, I.V., Maldonado-Mendoza, I.E., Versaw, W.K., Blaylock, L.A., Shin, H., Chiou, T.-J., Katagi, H., Dewbre, G.R., Weigel, D., Harrison, M.J., Transformation of Medicago truncatula via infiltration of seedlings or flowering plants with Agrobacterium Plant J., 5. Bell, C.J., Dixon, R.A., Farmer, A.D., Flores, P., Inman, J., Gonzales, R.A., Harrison, M.J., Paiva, N.L., Scott, A.D., Weller, J.W., May, G.D., The Medicago genome initiative: A model legume database
Animal Genetics Abstract mapping of DNA sequences to livestock genome maps using SSLP with the nr and dbESTdatabases of GenBank BLAT searches of the UCSC human genome assembly revealed http://www.blackwellpublishing.com/abstract.asp?ref=0268-9146&vid=34&iid=1&aid=2
(MSU)Sprague Library - Biology Resources On The Web Select a Database. Glossary of Genetic Terms (from the Natl Human genome ResearchInst.). Biological databases. http://library.montclair.edu/Rodriguez/Biology.html
Extractions: Quick Links: Select a Database ABI/INFORM Art Abstracts Congressional Universe Contemporary Authors CQ Researcher CQ Researcher - Barcode Ebsco Acad. Premier Ebsco Acad. Premier-Barcode Education Full Text Emerald Full Text Encyclopedia Britannica ERIC - MSU Only ERIC - Public Access ED Fulltext HRAF Infotrac-Expanded Acad. Index JSTOR LEXIS-NEXIS LLBA MLA NJ Union List of Serials Oxford English Dictionary Project Muse PsycArticles PsycInfo PsycInfo - Barcode Pubmed Reader's Guide ScienceDirect Socio. Abstracts STAT-USA more... Select a Catalog Sprague Library Catalog Curriculum Resource Center Other Catalogs Regional Research Libraries Home Guides Biology Resources on the Web Biology Resources on the Web Choose from among the following: Starting Points: Comprehensive
Genetics -- Meuwissen Et Al. 161 (1): 373 developed human map to lower density maps in cattle USMARC genome DATABASE, 2000 USMeat Animal Research Center http//sol.marc.usda.gov/genome/cattle/cattle.html http://www.genetics.org/cgi/content/full/161/1/373
Extractions: d Institute of Land and Food Resources, University of Melbourne, Parkville, 3052 Australia and Victorian Institute of Animal Science, Attwood, Victoria, 3049 Australia Corresponding author: Theo H. E. Meuwissen, Box 65, Lelystad, 8200 AB The Netherlands., t.h.e.meuwissen@id.dlo.nl (E-mail) Communicating editor: C. H
AfricaBio: Links and reproduction, and development of genetic maps and markers by the USDA/NAL PlantGenome Research developing new sources and types of biotechnology databases. http://www.africabio.addr.com/links.shtml
Blackwell Synergy - Cookie Absent similarity to sequences in international databases. integrate transcriptional, physicaland genetic maps. Comparative genomics between these developing model http://www.blackwell-synergy.com/links/doi/10.1046/j.1464-6722.2001.00073.x/full
Extractions: Home An Error Occurred Setting Your User Cookie A cookie is a small amount of information that a web site copies onto your hard drive. Synergy uses cookies to improve performance by remembering that you are logged in when you go from page to page. If the cookie cannot be set correctly, then Synergy cannot determine whether you are logged in and a new session will be created for each page you visit. This slows the system down. Therefore, you must accept the Synergy cookie to use the system. What Gets Stored in a Cookie? Synergy only stores a session ID in the cookie, no other information is captured. In general, only the information that you provide, or the choices you make while visiting a web site, can be stored in a cookie. For example, the site cannot determine your email name unless you choose to type it. Allowing a web site to create a cookie does not give that or any other site access to the rest of your computer, and only the site that created the cookie can read it. Please read our for more information about data collected on this site.
GREP Annual Report 2000 sources and its comparison with other sorghum maps. based screening of SSRenrichedgenomic libraries is bioinformatics to screen these databases for sequences http://www.icrisat.org/text/research/grep/annrep/p6det.htm
Extractions: SAT CROP IMPROVEMENT THROUGH APPLIED GENOMICS Output 1 Develop appropriate DNA marker technologies, improved biometric and bioinformatic tools 1.1 DNA TECHNOLOGY ACTIVITIES 1.1.1 Establish high throughput facility for PCR-based marker screening and sequencing Rationale For more information contact: j.h.crouch@cgiar.org Results: Optimizing and standardizing DNA extraction Chickpea: Between 1.5-2.0g of leaf/stem tissue was harvested from15-30 day old chickpea glasshouse plants which yielded 1-4 µg/µl of DNA. The mercaptoethanol concentration commonly used in DNA extraction protocols is 0.2%. Initial extractions showed that 0.03% mercaptoethanol was sufficient to decrease polyphenol oxidation in young glasshouse grown plants. Varying the CTAB concentration from 1-4% (w/v) had little or no effect on the quality of DNA which was assessed spectrophotometrically at 260/280 nm, and electrophoretically before and after restriction enzyme digestion. Groundnut: Pigeonpea: Sorghum and millet: A range of CTAB concentration buffers (1-8%) was used with 0.17% mercaptoethanol to isolate DNA from 1-1.15g of millet and sorghum leaf/stem tissue. The leaf tips were not included in the DNA extraction due to reported nuclease activity in this region. The DNA isolated ranged from 0.2-1.5 µg/µl and had a 260/280 nm ratio of between 1.8-2. Analysis of the DNA by agarose gel electrophoresis showed that the DNA was not retained in the agarose gel wells.
ILAR Journal Online, Volume 39(2/3) 1998: Comparative Gene Mapping In the database entitled Online Chromosomes of Animals, Nicholas has also CytogeneticsPhysical chromosome maps. Development and use of the sheep genome map. http://dels.nas.edu/ilar/jour_online/39_2_3/39_2_3Sheep.html
Extractions: Thomas E. Broad, Diana F. Hill, Jillian F. Maddox, Grant W. Montgomery, and Frank W. Nicholas Thomas E. Broad, B.V.Sc. (Hons) M.Sc., Ph.D., is Senior Scientist in the AgResearch Molecular Biology Unit; Grant W. Montgomery, B.Ag. Sc. (Hons), Ph.D., is Program Leader of the AgResearch Molecular Biology Unit; Diana F. Hill, B.Sc., Ph.D., is Director of the Molecular Biology Unit and Associate Professor in the Department of Biochemistry, University of Otagu, Dunedin, New Zealand. Jillian F. Maddox, B.V.Sc., Ph.D., G.Dip.lnf. Sci., is Senior Research Fellow of the Centre for Animal Biotechnology, School of Veterinary Science, University of Melbourne, Parkville, Australia: and Frank W. Nicholas, B.Ag. Sc., Ph.D., is Associate Professor in the Department of Animal Science, University of Sydney, Camperdown, Australia.
Aglinks Agricultural genome Map http//www.nal.usda.gov/pgdic/. top 12 sites Oxford WorldWeeds Database Search http United Kingdom Weather maps http//www.meto.gov.uk/. http://www.smallgrains.org/Links/aglinks/aglinks.htm
Extractions: Bayer Corporation http://www.uscrop.bayer.com Cyanamid http://www.basf.com/business/consumer/agproducts Farm Journal Today http://www.agweb.com Successful Farming http://www.agriculture.com/ Northern Great Plains http://www.ngplains.org ABS (Bovine Genetics) http://www.ABSGlobal.com/ Animal Husbandry Alfalfa Harvest Alert http://map.extension.umn.edu/alfalfaalert/ AgriGator (Overview of Agricultural Sites) http://agrigator.ifas.ufl.edu ARS Genome Database Resource http://www.gramene.org Agricultural Genome Map http://www.nal.usda.gov/pgdic/ Agriculture Virtual Library http://ipmwww.ncsu.edu/cernag/cern.html Agronomy Society of America http://www.agronomy.org Agronomic Links Across the Globe http://www.agry.purdue.edu/links/ Biological Control: A guide to Natural Enemies in North America http://www.nysaes.cornell.edu/ent/biocontrol
JAS -- MacNeil And Grosz 80 (9): 2316 not constitute a guarantee or warranty of the product by USDA, Montana agric. The spotted locus maps to bovine chromosome 6 in a Hereford Genomics database. http://jas.fass.org/cgi/content/full/80/9/2316
Transgenesis And Genomics In Molecular Breeding Of Forage Plants their use in the development of framework genetic maps. The creation of EST databasesof the world s Utilization of transgenic plants and genome analysis in http://www.regional.org.au/au/asa/2001/plenery/6/spangenberg.htm
Extractions: Plant Biotechnology Centre, Agriculture Victoria, La Trobe University, Bundoora, Victoria 3086, Australia; and CRC for Molecular Plant Breeding Abstract Grassland agriculture is highly dependent upon a reliable source of forage as the primary feed base for ruminant livestock (Barnes and Baylor, 1995). In most areas of the world, forage production is a low cash-input production system, and thus the most economical way to deliver advanced technology to forage producers is through the genetic improvement of forage plant cultivars (McKersie, 1997). Conventional forage plant breeding has been based on the use of natural genetic variation as found between and within ecotypes or created through sexual recombination (Van Wijk et al ., 1993). Biotechnology allows the generation of novel variability as well as more efficient use of existing genetic variability. It offers opportunities to enhance the sources of useful genes accessible for the development of new cultivars and to speed up genetic improvement programs.
Subject Listings Maize genome Database. MaizeDB a public Internet gateway to current knowledge aboutthe maize genome and its expression provides genetic maps mapped loci http://www.central.agnic.org/subject-listing/biology.html
Extractions: APHIS (Animal and Plant Health and Inspection Services) regulates the movement, importation, and field testing of Genetically Engineered Organisms (GEOs) through permitting and notification procedures. In addition, APHIS Veterinary Biologics inspects biologics production establishments and licenses genetically engineered products. Other responsibilities are listed under "Local Subjects". Subject Descriptors:
Subject Listings BovMap Database. Offers a tool to follow the rapid bovine genome mapping progress informationon loci alleles genetic and physical maps polymorphisms homologies http://www.central.agnic.org/subject-listing/animals.html
[Home Page] RGN 4, p. 1 112 RGN 7, p.22-24 RGN 10, p. 18-19. Chloroplast and mitochondrialgenetic maps RGN 11, p.20-22. 1990. Acta agric. Univ.Pekinensis 16 262-272. http://www.gramene.org/newsletters/rice_genetics/rgn12/v12p9.html
