Laboratories: Web sites for Chromosome Researchers
Alphabetical order of laboratory's name. In parenthesis, the research interests collected from pages.
Last: 2009.08.03 (under reconstruction)
Agard, David. A. @ University of California at San Francisco
http://util.ucsf.edu/agard/
Allis, C. David @ The Rockefeller University
http://www.rockefeller.edu/labheads/allis/
Allshire, Robin @ : The University of Edinburgh
http://www.wcb.ed.ac.uk/allshire.htm
Almouzni, Geneviéve @ Institut Curie
http://www.curie.fr/recherche/themes/detail_equipe.cfm/lang/_gb/id_equipe/4.htm
Apomixis @ Institut fur Pflanzengenetik und Kulturpflanzenforschung (IPK), Gatersleben
http://www.ipk-gatersleben.de/en/02/04/01/05/index.html
Automatisierte MikroskopBild Analyse @ University Hospital Charite'
http://amba.charite.de/
Bass, Hank @ Florida State University
http://bio.fsu.edu/~bass
Bauchan, Gary R. @ USDA-ARS
http://bldg6.arsusda.gov/~pooley/soy/bauchan.html
Baker, Richard @ The University of Massachusetts
http://www.umassmed.edu/mgm/faculty/baker.cfm
Bensimon, Aaron @ Institut Pasteur
http://www.pasteur.fr/recherche/unites/biophyadn/e-intro.html
Bickmore, Wendy @ MRC Human Genetics Unit
http://www.hgu.mrc.ac.uk/Users/Wendy.Bickmore/Home.html
Birchler, James @ University of Missouri Columbia
http://www.biosci.missouri.edu/birchler/index.htm
Blow, Julian @ University of Dundee
http://www.dundee.ac.uk/lifesciences/blow/BlowLabHomepage.html
Bridger, Joanna @ Brunel University
http://www.brunel.ac.uk/about/acad/health/healthstaff/profiles/stafflistatoc/bridger
Cande, W. Zacheus @ University of California - Berkeley
http://mcb.berkeley.edu/labs/cande/
Cech, Thomas R. @ University of Colorado at Boulder
http://cechlab.colorado.edu/
Cook, Peter R.@ University of Oxford
http://users.path.ox.ac.uk/~pcook/index.html
Cooke, Howard @ MRC Human Genetics Unit
http://www.hgu.mrc.ac.uk/Research/Cooke/artchrom.html
Cytogenetics @ The Royal Botanic Gardens, Kew
http://www.rbgkew.org.uk/scihort/cyto.html
de Jong, J. H. @ Wageningen University
Hans dot dejong (at) wur dot nl
Visiting address: Wageningen University, Laboratory of Genetics, Droevendaalsesteeg 1, Radix West, Building 107, 6708 PB Wageningen, the Netherlands
Postal address: WU, Laboratory of Genetics, P.O. Box 309, 6700 AH Wageningen, the Netherlands
Endo, Takashi R. @ Kyoto University
http://www.plant-genetics.kais.kyoto-u.ac.jp/Iden/index.htm
Edinburgh Chromatin Group
http://www.bms.ed.ac.uk/services/webspace/chromatin/index.htm
*
Flavel, Andrew: Laboratory
(LTR Retrotransposons and Biodiversity in Plants and The control of Retrotransposition in Drosophila)
http://www.dundee.ac.uk/biochemistry/ajf.htm
Fontana, Francesco: Laboratory (Citogenetica e citotassonomia dei cervidi e degli, University of Ferrara)
(See The chromosomes of Acipenseriformes. )
http://www.unife.it/biologia/ricbev.htm#cito
Forsburg, Susan L.: Laboratory
(The control of DNA replication and the regulation of the cell cycle in a model system: the fission yeast Schizosaccharomyces pombe)
http://pingu.salk.edu/~forsburg/lab.html
Fukagawa, Tatsuo @ National Institute of Genetics
(Centromere assembly and function)
http://www.nig.ac.jp/labs/fukagawa/index.html
Fukui, Kiichi @ Osaka University
http://www.bio.eng.osaka-u.ac.jp/cl/biocladm/index.html
Greulich, Karl Otto @ Institute of Molecular Biotechnology (IMB), Jena
http://www.imb-jena.de/www_kog/
Glover, David M @ University of Dundee
http://www.dundee.ac.uk/cellcyclegenetics/
Gottschling,Daniel E.: Laboratory @ Fred Hutchinson Cancer Research Center
(Our lab is interested in two fundamental areas of chromosome
biology: telomeres and position effects. Telomeres, the ends of eukaryotic
chromosomes, are essential for the stable maintenance and replication of
linear chromosomes. Position effect is a phenomenon in which a gene's behavior
is affected by its chromosomal location, and appears to reflect the specific
chromatin structure of different regions of the genome or the nuclear environment in which they reside.)
http://www.fhcrc.org/~gottschling/homepage.html
Greenbaum, Ira: Laboratory
(Chromosomal rearrangement and it role(s) in vertebrate evolution)
http://www.bio.tamu.edu/FACMENU/faculty/greenbau.htm
Griffin, Darren: Laboratory
(The relationship between chromosome malsegregation and infertility in humans)
http://www.brunel.ac.uk/depts/bio/staff/griffin.htm
Hamkalo, Barbara A.: Laboratory
(Molecular analysis of centromeric heterochromatin; function of an yeast H1-like protein)
http://darwin.bio.uci.edu/~faculty/hamkalo/index.html
Haraguchi, Tokuko @ Kobe Advanced ICT Research Center
http://www-karc.nict.go.jp/w131103/CellMagic/index.html
Heslop-Harrison, Pat: Laboratory
(Pat Heslop-Harrison and the Karyobiology Group study the biology of the plant nucleus: its spatial and dynamic organisation or architecture, the function of its components, and the nature, evolution, expression, recombination and segregation of the DNA sequences within the nucleus at interphase, mitosis and meiosis. Much work focuses on the large-scale composition, methylation, expression, structure and function of repetitive DNA motifs that make up the majority of most genomes.)
http://www.leicester.ac.uk/biology/phh4/index.htm
http://www.heslop-harrison.com/
Hirano, Tetsuya: Laboratory
(Chromosome structure and function; cell cycle control; Xenopus cell-free system)
http://www.cshl.org/public/SCIENCE/hirano.html
Hiraoka, Yasushi @ Kobe Advanced ICT Research Center
http://www-karc.nict.go.jp/w131103/CellMagic/index.html
Hormone Action and Oncogenesis Section, National Cancer Institute, NIH (PI: Hager, Gordon )
(The role of chromatin structure in gene regulation, mechanism of steroid receptor function, the deregulation of oncogenes during carcinogenesis, and the architecture of active genes in the interphase nucleus)
http://rex.nci.nih.gov/RESEARCH/basic/lrbge/hager.htm
Houben, Andreas @ Institut fur Pflanzengenetik und Kulturpflanzenforschung (IPK), Gatersleben
http://www.ipk-gatersleben.de/en/02/04/01/02/index.html
Istituto di Genetica @ Universita' di Bari
http://bioserver.uniba.it/fish/genetica/genetica.html
Jackson, Scott A. @ Purdue University
(1. Comparative genomics; physical mapping
2. Interphase nuclear architecture
3. Soybean genetics)
http://www.agry.purdue.edu/staffbio/jackson.htm
Jenkins, G. @ The University of Wales, Aberystwyth
(Molecular cytogenetics, chromosome mapping and localisation of gene expression in somatic and gametic cells of hybrid and polyploid cereals and grasses using LM, TEM, 3D reconstruction, confocal laser scanning microscopy, FISH, PRINS, in situ PCR, microdissection and microcloning.
Sequence organisation, expression, meiotic behaviour and nuclear disposition of B chromosomes, and the development of artificial chromosome vectors in plants. Mobile elements in cereals and grasses. )
http://www.aber.ac.uk/~dbswww/dept/gmj.html
Jiang, J @ U Wisconsin-Madison
(Plant molecular cytogenetics; Cloning and characterization of plant centromeres; Breeding and genetics of potato; Application of wild germplasm in potato improvement.)
http://www.hort.wisc.edu/faculty/Jiang/default.htm
Jones, R. N. @ The University of Wales, Aberystwyth
(Molecular cytogenetics of plants: including genome organisation and evolution; supernumerary B chromosome systems; physical mapping of plant chromosomes and introgression breeding for stress tolerance genes; meiosis, meiotic mutants in rye and tracking the early events of homology search. Transgenic rhizobia and the effects of transgenes on nodulation of clover.
)
http://www.aber.ac.uk/~dbswww/dept/rnj.html
K. Arumuganathan (Aru): Laboratory
(Plant genome analysis using modern cytogenetic and molecular genetic techniques. They include: Flow karyotyping, sorting, and cloning of plant chromosomes)
http://www.ianr.unl.edu/ianr/agronomy/fac/naruagro.htm
Kakutani, Tetsuji @ National Institute of Genetics
http://www.nig.ac.jp/labs/AgrGen/home.html
Karyotype Evolution Group @ Institut fur Pflanzengenetik und Kulturpflanzenforschung (IPK), Gatersleben (Head: Prof. Dr. I. Schubert)
(The structure of plant chromosomes (including physical gene mapping) and the mechanisms of karyotype evolution and chromosome mutagenesis are investigated by genetic, cytogenetic and molecular methods.)
http://www.ipk-gatersleben.de/en/02/04/01/01/index.html
Khochbin, Saadi:Chromatin and gene expression group @ Albert Bonniot Institute, Université Joseph Fourier
(Molecular basis of the regulation of the expression of histone H1 encoding gene during embryogenesis and cell differentiation., Chromatin acetylation: Modulation of histone H1 gene activity by nucleosome acetylation, The study of H1 expression in vivo, relationship with cell proliferation and ifferentiation, H1 detection by monoclonal antibodies as a probe revealing chromatin remodelling during cell differentiation)
http://ujf-iab.ujf-grenoble.fr/IAB/Pages/Laboratoires/BMCC/Chromatine/Home-gb.phtml
Kill, Ian: Laboratory
http://www.brunel.ac.uk/depts/bio/staff/kill.htm
Kurata, Nori @ National Institute of Genetics
http://www.nig.ac.jp/labs/PlantGen/english/home-e.html
Laboratory of Human and Animal Cytogenetics @ Institute of Cytology & Genetics, Russian Academy of Sciences, Siberian Dept.
(Analysis and utility of genome information, Proteome analysis on chromosomes)
http://www.bionet.nsc.ru/chromosomes/lab/
Laboratory of Molecular Cytogenetics @ Institute of Plant Molecular Biology, CZ
(Our laboratory examines sequence composition, molecular organization and evolution of plant genomes and chromosomes. We focus on legumes ( Fabaceae), using pea (Pisum sativum) and several Vicia species as model plants. Our research is centered around two basic topics:
(1) Repetitive DNA sequences and their impact on genome organization and evolution.
(2) Integration of genetic and physical maps in crop species and development of novel approaches for efficient mapping of complex plant genomes)
http://w3lamc.umbr.cas.cz/lamc/
Laboratory of Molecular Cytogenetics and Cytometry @ Institute of Experimental Botany
(Flow cytometory of plant chromosomes etc.)
http://www.ueb.cas.cz/olomouc1/
Laboratory of Plant Molecular Cytogenetics @ the University of Haifa
(The main direction of our research is plant micro- and macroevolution on chromosome level)
http://research.haifa.ac.il/~evolut/Cyto-page/cyto-page.htm
Lampbrush chromosome research workers
(All chromosologists are invited to visit a new site on the LAMPBRUSH CHROMOSOMES of animal oocytes compiled and edited by Professor Herbert Macgregor of the University of Exeter, England.
The site contains an introduction to the biology of these remarkable chromosomes, a comprehensive lampbrush bibliography extending from 1882 to 2001, several detailed protocols for working with lampbrush chromosomes from different kinds of animals, profiles of past and present lampbrush researchers and other pages dealing with molecular probes, pictures of lampbrush chromosomes and chromosome maps.
Suggestions for additions to or modifications of the site are welcome and should be e-mailed to Prof. Macgregor at macgregor@supanet.com)
http://www.exeter.ac.uk/lampbrush/
Leitch, Andrew R.: Laboratory @ Queen Mary, University of London
(Evolution, phylogeny and cytogenetics, DNA methylation, Interphase nucleus organisation, In situ hybridisation, flow cytometry and methods)
http://www.qmw.ac.uk/%7Eugbt105/index.htm
Lee, Jeannie T.: Laboratory @ Harvard Medical School
(My laborabory examines large-scale effects of chromosome architecture and nuclear geography on gene expression. Our work begins with X-inactivation--a chromosome-silencing mechanism in mammals ideal for studying chromosome dynamics because: (1) control of X-inactivation involves a distinct genetic pathway; (2) it is amenable to genetic dissection in yeast and mouse embryonic stem (ES) cells; and (3) X-inactivation provides a link to studying functional organization of the mammalian nucleus.)
http://xanadu.mgh.harvard.edu/Leeweb/homepage.html
http://www.hms.harvard.edu/dms/bbs/fac/leej.html
Leung, Y. F.: Functional genomics page
(Functional Genomics, Microarrays, Bioinformatics, Proteomics,
Complex Disease Trait Mapping, Genome Mapping, Linkage Analysis )
http://ihome.cuhk.edu.hk/~b400559/
Lichten, Michael @ National Cancer Institute, National Institutes of Health
(We study genetic recombination and chromosome structural changes that occur during meiosis, using the yeast Saccharomyces cerevisiae as a model system. Our goal is a description of the molecular steps of meiotic recombination from start to finish, as well as the changes in chromosome structure that occur as homologous chromosomes pair and recombine during meiosis. )
http://rex.nci.nih.gov/RESEARCH/basic/biochem/lichten.htm
The Los Alamos Image Cytometry
(mapping positions of
cosmid clones on human chromosomes by Fractional Length from pter (FLpter) Measurements and FISH)
http://fish.lanl.gov/
Malfoy, Bernard @ Institut Curie
http://www.curie.fr/recherche/themes/detail_equipe.cfm/lang/_gb/id_equipe/38.htm
Mandrioli, Mauro: Laboratory
(Transposons and Insect Transgenesis in Mamestra brassicae, Analysis of holocentric chromosomes in insects.)
http://www.chromosoma.unimo.it/
Matsuda, Yoichi @ Hokkaido University (in Japanese)
http://noah.ees.hokudai.ac.jp/~CRU/home.html
Matsunaga, Sachihiro @ Osaka University
http://www.bio.eng.osaka-u.ac.jp/cl/biocladm/index.html
Mitchison, Tim: Laboratory
(Actin Dynamics and Actin-Based Motility, Microtubules & Mitotic Spindles, Chromosomes & Kinetochores)
http://iccbweb.med.harvard.edu/mitchisonlab/index.html
Molecular Cytogenetics Group @ the Sanger Centre
(The Molecular Cytogenetics Group at the Sanger Institute supports the chromosome mappers by the provision of chromosome sorting for the construction of chromosome-specific libraries and the provision of fluorescence in situ hybridisation (FISH). FISH is used to localise clones onto metaphase chromosomes, order clones in interphase nuclei and to size clone gaps and overlaps using extended DNA (FiberFISH).)
http://www.sanger.ac.uk/HGP/Cytogenetics/
Molecular Cytogenetics of plants @ The University of Wales, Aberystwyth (R N Jones, G Jenkins, G Giddings)
(B-chromosome systems in plants, The control of synapsis and recombination in hybrids and polyploids, The structural and molecular basis of chromosome homology and synapsis, Molecular organisation and evolution of the plant genome, Molecular biology and modulation of gene expression by B-chromosomes, Genome analysis in Lolium, Introgression breeding in Lolium/Festuca, Physical mapping in Lolium/Festuca, Construction of plant artificial chromosome, Risk assessment in transgenic plants.
)
http://www.aber.ac.uk/~dbswww/ymchwil/molcytgen.html
Molecular Cytogenetics and Positional Cloning Center @ Max Planck Institute of Molecular Genetics
(Positional Cloning, Obtaining YAC panels and Telomere YACs)
http://www.mpimg-berlin-dahlem.mpg.de/~cytogen/
Mukai, Yasuhiko @ Osaka Kyoiku University (in Japanese)
http://web.nsc.osaka-kyoiku.ac.jp/life/mukai/mukai.html
Murata, Minoru @ Okayama University
http://www.rib.okayama-u.ac.jp/nucleus/
Nagaki, Kiyotaka @ Okayama University
http://www.rib.okayama-u.ac.jp/nucleus/
Nagl, Walter: Laboratory
(Genome organization and evolution in plants, particularly legumes. Genetic transformation and regeneration of cell cultures of crop plants. Cell cycle control, polyploidy, polyteny and DNA amplification in plants. Ultrastructure of plant embryo, suspensor, and endosperm)
http://www.uni-kl.de/FB-Biologie/AG-Nagl/nagl.htm
Nakayama, Shigeki @ National Institute of Agrobiological Sciences, Tsukuba
http://cse.nias.affrc.go.jp/shignak/
Nasuda, Shuhei @ Kyoto University
http://www.plant-genetics.kais.kyoto-u.ac.jp/Iden/index.htm
Nenno, Mario
(Phaseolus polytene chromosomes, KaryotypeDB Web service)
http://www.nenno.it/
Nicklas, R. Bruce : Laboratory
(Chromosome Movement in Mitosis: We push chromosomes around by micromanipulation to learn more about chromosome movement in mitosis. We have tugged on chromosomes to measure the forces produced
by the spindle and have chopped spindles apart to locate the motor for chromosome movement.)
http://www.dcmb.duke.edu/faculty/nicklas.htm
Nonomura, Ken-Ichi @ National Institute of Genetics
http://www.nig.ac.jp/labs/PlantGen/english/home-e.html
Olmo, Ettore : Laboratory (see also databases.html)
(Ettore Olmo is a full professor of Cytology and Histology of the Universita Politecnica delle Marche in Ancona (Italy). His main research interest regards the karyology and genome organisation of cold blooded vertebrates, mainly amphibians, fish and reptiles. In this field he
published more than 99 full papers regarding the C-value paradox and the relationships between genome size and metabolsim in amphibians and reptiles; the karyological evolution of several groups of reptiles; the genome composition of reptiles; the presence and evolution of highly repetitive DNAs in fish and repiles. He collected all the data known so far on the cytogenetics of reptiles in a database called "Chromorep" which is avaible clicking on the section "attivita scientifica" of his web-site).
http://www.scienze.univpm.it/professori/html/ettore_olmo.html
Pikaard, Craig S. : Laboratory
(Epigenetic gene silencing induced by genetic hybridization: When two species are crossed, genes inherited from one parent are sometimes preferentially expressed in the hybrid. rRNA genes, NOR)
http://biosgi.wustl.edu/faculty/pikaard.html
Plant Biotechnologies and Genetic Resources @ CIRAD
http://www.cirad.fr/en/pg_recherche/page.php?id=59
http://wwww.cirad.fr/presentation/programmes/biotrop/resultats/biositecirad/
Plant Chromosome and Gene Stock @ Hiroshima Univ
http://labs.sci.hiroshima-u.ac.jp/homepage/shokui/lpcgs_001.htm
Price, H. James : Laboratory
(Genome organization and evolution in plants. Molecular cytogenetics: This project involves in situ hybridization of cloned genes and other DNA sequences to crop plant chromosomes. The goal of the research is to physically map cloned DNA sequences including RFLP probes, RFLP-selected bacterial artificial chromosomes (BACs), and cloned genes.)
http://www.tamu.edu/genetics/Price.htm
Purdue University Cytometry Laboratories
http://www.cyto.purdue.edu/
Raven, Peter H.: Laboratory
(biodiversity, biogeography, conservation, plant evolution and systematics, Onagraceae)
http://www.biology.wustl.edu/faculty/raven.html
Richards, Eric J.: Laboratory
(The focus of our laboratory is the function and regulation of eukaryotic DNA methylation. We are taking a genetic approach to the problem to avoid some of the common pitfalls presented by correlative studies and methylation inhibitor experiments. )
http://www.biology.wustl.edu/faculty/richards.html
Rieder, Conly L.: Laboratory
(The molecular mechanisms responsible for chromosome motion during mitosis - how chromosomes behave in the living cell)
http://www.wadsworth.org/BMS/SCBlinks/WEB_MIT2/HOME.HTM
Robinson, Terry: Laboratory
(Chromosome evolution, molecular cytogenetics, genome organization and evolution in Afrotherian mammals)
http://www.sun.ac.za/zoology/robinson/index.htm
Scanning Probe Microscopy @ University of Bristol
(AFM and SFM to chromosome analysis)
http://spm.phy.bris.ac.uk/
Schindelhauer, Dirk: Laboratory
(Mammalian artificial chromosome. Interested in mammalian and human artificial chromosomes to study chromosome function and to express genes in a chromatin context)
http://www.pedgen.med.uni-muenchen.de/medgen/staff/dirk/dirk.html
Schmid, Michael: Laboratory
http://www.biozentrum.uni-wuerzburg.de/humangenetics/deutsch/cytogen.html
Schwarzacher, T: Laboratory
http://www.leicester.ac.uk/biology/staff/blts32.htm
Sedat, John W. : Laboratory
(The organization of chromosomes within the nucleus, the detailed architecture of the chromosomes themselves, and the functional roles this organization plays in determining chromosome behavior)
http://util.ucsf.edu/sedat/
Shen, Ming Hong @ MRC Human Genetics Unit
http://www.hgu.mrc.ac.uk/Research/Shen/
Slijepcevic, Predrag : Laboratory
(Our research is focused on understanding the mechanisms of telomere length regulation in mammalian cells, as well as the mechanisms of new telomere acquisition following spontaneous or induced chromosome breakage)
http://www.brunel.ac.uk/depts/bio/staff/slip.htm
Solari A.J.: Laboratory
(Electron microscopy of animal meiocytes, synaptonemal complexes, recombination nodules, sex chromosome behaviour during meiosis)
asolari@fmed.uba.ar
Stack, Stephen: Laboratory
(The synaptonemal complex (SC) and Recombination nodules (RNs) in homologous chromosome synapsis crossing over and crossover interference)
http://www.colostate.edu/Depts/Biology/Faculty/stack.htm
Stelly, David M. : Laboratory
(Organization, behavior, evolution and manipulation of plant genomes. Genomic variability, mutants, mapping, disease resistance, transgenes, chromosomes and reproductive systems. )
http://www.tamu.edu/genetics/Stelly.htm
Stillman, Bruce: Laboratory
(DNA replication; chromatin assembly; biochemistry; yeast genetics; cancer; cell cycle)
http://www.cshl.org/public/SCIENCE/stillman.html
Sunkel, Claudio: Laboratory
(Genetic dissection of factors required for the organisation and function
of the mitotic spindle, the spindle-assembly checkpoint and chromosome
condensation using Drosophila as a model organism)
http://www.ibmc.up.pt/groups/mitosis/
Sutherland, Grant R.: Laboratory
(Cytogenetic studies of leukaemia, lymphoma and other malignancies)
http://www.wch.sa.gov.au/labmedic/genetics.html
Suzuki, Go @ Osaka Kyoiku University
http://web.nsc.osaka-kyoiku.ac.jp/life/suzuki/english.html
Swedlow, Jason: Laboratory
(Mechanism of Mitotic Chromosome Condensation, Protein Phosphorylation and Condensation and Structural Dynamics During Condensation)
http://www.dundee.ac.uk/biochemistry/jrs.htm
Takagi, Nobuo @ Hokusei Gakuen University (University's Web Page)
http://www.hokusei.ac.jp/en/index.shtml
Tanaka, Ichiro @ Yokohama City University
http://histone.sci.yokohama-cu.ac.jp/English%20HP/index.html
Telomere Club @ University of Colorado at Boulder (The Cech Laboratory)
(Telomere & Telomerase Research Information by Toru M. Nakamura)
http://petunia.colorado.edu/~nakamut/telomere/
Trask, Barbara: Laboratory
(Quantitative and organizational studies of chromosomes by using fluorescence in situ hybridization (FISH) and flow cytometry)
http://www.mbt.washington.edu/faculty/trask/
http://expertise.cos.com/cgi-bin/exp.cgi?id=371993
Traut, Walther: Institut für Biologie @ Medizinische Universität zu Lübeck
(Molecular cytogenetics of insects and mice; sex determination;
evolution of sex chromosomes; gene clusters; heterochromatin)
http://www.molbio.mu-luebeck.de/biology/welcome.htm
Tsujimoto, Hisashi @ Tottori University
http://muses.muses.tottori-u.ac.jp/dept/A/breeding/english/e-index.html
Turner, Bryan: Chromatin and Gene Expression Group, Department of Anatomy, The Medical School, Birmingham
(We are interested in defining the patterns and function of histone acetylation in the chromatin of mammalian cells.)
http://medweb.bham.ac.uk/research/chromatin/
Vallejo, José-Arturo Londono @ Institut Curie
http://www.curie.fr/recherche/themes/detail_equipe.cfm/lang/_gb/id_equipe/313.htm
Westendorff, Magdalene: ZALF e. V., Müncheberg, Germany
(Cytogenetic and karyosystematic studies in sawflies (Insecta:Hymenoptera, Symphyta))
http://www.zalf.de/deid/WESTENDO.HTM
The Wheat Genetics Resource Center @ Kansas State University
(Wheat cytogenetics and genetics resources)
http://www.ksu.edu/wgrc/
Whitelaw Lab @ Roslin Institute
(Our group is investigating the molecular events which accompany changes in the expression status of genes, with a focus on mammary gene expression)
http://rio10.ri.bbsrc.ac.uk/molbiol/whitelaw/
Wise, Dwayne A.: Laboratory @ Mississippi State University
(We study nonrandom chromosome segregation and the mechanism of mitosis)
http://www.msstate.edu/dept/biosciences/wise.htm
Workman, Jerry L.; Laboratory @ Howard Hughes Medical Institute, The Pennsylvania State University
(Our research has focused on biochemically characterizing the interactions of sequence-specific DNA-binding proteins with nucleosomes and analyzing the functions of multiprotein complexes that modify histones (i.e., histone acetyltransferase [HAT] complexes) or remodel chromatin structures (i.e., the SWI/SNF complex).)
http://www.bmb.psu.edu/workman/workman.htm
Yonezawa, Yoshihiko @ Naruto University of Education
http://www.naruto-u.ac.jp/~koshio/yoneken_e.htm
