The January Issue Of The Computing Service Newsletter Contains The on the Computing Service cluster in maps 1A9. of Manchester) o The Classical ChineseDatabase Project, Thursday filarialgenome The Filarial genome Network (or http://www.sussex.ac.uk/USCS/Archive/Publications/Newsletters/9501.txt
Extractions: The Bioinformatics.ca People Page : Region Ontario The investigators listed below are those interested in Bioinformatics in Ontario. These include practitioners as well as developers of algorithms, databases or resources. Principal investigators and group leaders from academia, government labs and industry are welcome on this page. All present have an interest in the development of bioinformatic resources in Canada. Browse by Region Name Affiliation Interest/Expertise Adnan Ali Department of Biological Sciences, University of Windsor W E computational methods for the best optimization of statistical data gained from microarray experiments Madhur Anand Biology Department - Laurentian University; holder of a Canada Research Chair in Biocomplexity of the Environment W E Biocomplexity and computational biology Anthony Bonner Computer Science, University of Toronto W E Databases; artificial intelligence; genome mapping and sequencing; algorithms and concurrency;
Extractions: The Bioinformatics.ca People Page : Region Canada The investigators listed below are those interested in Bioinformatics in Canada. These include practitioners as well as developers of algorithms, databases or resources. Principal investigators and group leaders from academia, government labs and industry are welcome on this page. All present have an interest in the development of bioinformatic resources in Canada. Browse by Region Name Affiliation Interest/Expertise Adnan Ali Department of Biological Sciences, University of Windsor W E computational methods for the best optimization of statistical data gained from microarray experiments Madhur Anand Biology Department - Laurentian University; holder of a Canada Research Chair in Biocomplexity of the Environment W E Biocomplexity and computational biology Joseph F. Angel Biochemistry, University of Saskatchewan E Trainer of Bioinformatics; metabolic control theory; regulation of gene expression; protein structure and function;
Links To Important Sites edu soilsl soils-l@unl.edu listserv@unl.edu trickle-l trickle-l@unl.edu listserv@unl.edusalinity-l salinity-l@unl.edu listserv@unl.edu ecol-agric ecol-agric http://ces.iisc.ernet.in/hpg/envis/gislinks.html
Extractions: The page offers a bulletin board which should reduce e-mail clutter. Only registered alumni can post messages in the bulletin board. It also offers an automated e-mail registry in which an alumni can automatically update his or her information. The use of passwords also empowers the alumni to only have their e-mail addresses available to fellow registered alumni. Register in your alma-mater's alumni list and ask your friends to do the same!!
B BULLETIN VOL 29 NO. 2 /B on 25,000 species exist in the National genome Database (NGDB Initial genetic mapscontain 400500 markers. As the human genome project progresses we will learn http://itest.slu.edu/articles/90s/collier.html
Extractions: [Dr. Robert Collier is a Senior Fellow at the Monsanto Company in St. Louis, Mo. He is Preclinical Research Director: Monsanto Agricultural Company. He is also a member of the Board of Directors of ITEST. This paper was given as a talk to the clergy of the Diocese of Lincoln, Nebraska and was also presented as a talk at Tulane University.] In biology, the process of cloning is the production of an exact copy of a genetic sequence or the production of an organism containing the same genetic sequence as the founder. Cloning a genetic sequence is a routine component of many molecular biology techniques. Cloning plants has become commonplace in many parts of agriculture. Cloning animals is a recent development but its roots extend back into several fields of agriculture and biology. In the context of agriculture the process of cloning is a logical outcome of the desire to obtain the highest quality plants and animals and to maximize their genetics. This desire is noted in Genesis 30:41-42 where Jacob uses a technique based on superstition to alter the coat color of the offspring from the best males and females but did not use this technique when the weaker males and females mated thereby imposing selection pressure on this uncle's flock. Since the offspring with imperfect coat color belonged to him he quickly built a flock of hardy animals and became wealthy.
Genetics -- Davis Et Al. 152 (3): 1137 Maize genome Database (http//www.agron.missouri.edu). method for constructing highresolutionmaps of mammalian 4. Analysis based on genome saturation with http://www.genetics.org/cgi/content/full/152/3/1137
Extractions: Termination Date: OBJECTIVES: In short, the objectives of this project are as follows: 1. To analyze changes in Vermont population due to migration and natural change at the community, county and state levels; 2. to develop population projections through 2025 for these same geographic areas as well as county and state projections by age and sex; 3. to describe the changing social and economic characteristics of Vermont's population; and 4. to maintain a resource facility and delivery system of socio-economic and demographic databases and materials. APPROACH: Non-Technical Project Description: Project Number: VT-AE-00918 NEW Hatch Investigators: Saez, H. Start Date:
Extractions: Genomics Approach to Abscisic Acid- and Gibberellin-responsive Genes in Rice Junshi Y AZAKI Naoki K ISHIMOTO Yuko N AGATA Masahiro I SHIKAWA Fumiko F UJII Akiko H ASHIMOTO Kanako S HIMBO Zenpei S HIMATANI Keiichi K OJIMA Kouji S UZUKI Makoto Y AMAMOTO Sachiko H ONDA Ayano E NDO Yumiko Y OSHIDA Yuki S ATO Keiko T AKEUCHI Kazuko T OYOSHIMA Chikako M IYAMOTO Jianzhong W U Takuji S ASAKI Katsumi S AKATA Kimiko Y AMAMOTO Koh I BA Takahiro O DA Yasuhiro O TOMO Kazuo M URAKAMI Kenichi M ATSUBARA Jun K AWAI Piero C ARNINCI Yoshihide H AYASHIZAKI and Shoshi K IKUCHI Department of Molecular Genetics, National Institute of Agrobiological Sciences, 2-1-2 Kannon-dai, Tsukuba, Ibaraki 305-8602, Japan, Institute of the Society for Techno-innovation of Agriculture, Forestry and Fisheries, 446-1 Ippaizuka, Kamiyokoba Tsukuba, Ibaraki 305-0854, Japan, Hitachi Software Engineering Co., Ltd., 4-12-7, Higashishinagawa, Shinagawa-ku, Tokyo 140-0002, Japan, Department of Biology, Kyushu University, 6-10-1 Hakozaki, Higashi-ku, Fukuoka City, Fukuoka 812-8581, Japan, Laboratory of Genome Sequencing and Analysis Group, Foundation of Advancement of International Science (FAIS), 586-9, Akatsuka-Ushigahuchi, Tsukuba, Ibaraki 305-0062, Japan
Triticumspelta These references are from the Biological Abstracts database and are (1994).Toward construction of synteny maps among cereal genomes I. Molecular http://www.newcrops.uq.edu.au/listing/triticumspelta.htm
Extractions: [formerly Listing of Potential New Crops for Australia] NOTICE: Information on the background to this Listing is available. The analysis of numbers of papers/mentions over time was completed in 1997, using the Agricola database (1970-1996). Hard copies of the Listing (553 pages; over 4200 new crops listed with the analyses of numbers of papers over time included) are available from the publisher, Dr Rob Fletcher; see Advice on Publications Available The references listed below are from the Biological Abstracts database (1988-2000) and are courtesy of SilverPlatter Information. For more information re Silverplatter, go to www.silverplatter.com Triticum spelta Analysis of numbers of papers/mentions over time (Agricola database 1970-1996): Source: AGRICOLA database (1970-1996) Common Name(s): spelt wheat
Extractions: Welcome to the web pages for the This server aims to provide links to plant genetic resource collections represented on the Group together with more detailed information on holdings and associated genetic resources activities. Additional links to other plant genetic resource web sites of interest are also maintained. Further information The Group serves as the technical forum for ex-situ plant genetic resources in the UK. Botanic gardens, the Forestry Commission and statutory collections are also represented as are institutions involved in training in plant genetic resources. The Group provides advice and technical support to Government Departments on technical and policy matters which relate to the UK or the UK's international role in the area of plant genetic resources and ex-situ collections. Member Centres of the UKPGRG.
