81. Databases From The Genes And Development Group Imaging resource for human anatomy, especially kidney, and other glandular organs, and the mouse altlas project Division of Biomedical Sciences, University of Edinburgh, UK. http://www.ana.ed.ac.uk/anatomy/

Databases from the Genes and Development Group in the Division of Biomedical Sciences We publish and contribute to a number of databases: Edinburgh Human Developmental Anatomy (EHDA) - human embryo taxonomy. The Kidney Development Database Home page of five databases for lung, mammary, pancreas, prostate and salivary glands. The Mouse Atlas Project - main home page at the site of our collaborators at the MRC Human Genetics Unit where the mouse anatomy is kept. Page maintained by: M.Simmen Last altered on: 26th February 2003.

82. The WWW Virtual Library: Model Organisms Guide to resources for including bacteria, yeast, Drosophila, C. elegans, mouse, zebrafish, Dictylostelium, and Arabidopsis. http://ceolas.org/VL/mo/

The WWW Virtual Library: Model Organisms E. coli S. cerevisiae Dictyostelium C.elegans ... Others This site is a catalog of internet resources relating to biological model organisms, and is part of the Biosciences area of the Virtual Library project. Other organisms are listed under the Virtual Library sections for Genetics and Developmental Biology To comment on the site or suggest links, please contact the maintainer . If you would like to take over responsibility for a specific Model Organism, please contact the Virtual Library. What is a Model Organism? Many aspects of biology are similar in most or all organisms, but it is frequently much easier to study particular aspects in particular organisms - for instance, genetics is easier in small organisms that breed quickly, and very difficult in humans! The most popular model organisms have strong advantages for experimental research, and become even more useful when other scientists have already worked on them, discovering techniques, genes and other useful information. General Model Organism Resources There is little on the web regarding model organisms in general, but some of the better resources are:

83. The Edinburgh Mouse Atlas Project Computer modeling of stages of mouse embryogenesis to map the expression of different genes. 3D Embryo Anatomy Atlas and gene expression database at MRC Human Genetics Unit, Edinburgh. http://genex.hgu.mrc.ac.uk/

84. Comparative Placentation > Dr. K. Benirschke Provides an examination and evaluation of placenta from many different types of mammals. Includes glossary, taxonomy and biography of author, maintained by the University of California, San Diego. http://medicine.ucsd.edu/cpa/

Welcome! This Volume of animal placentas was created to assist with the examination and evaluation of the many different types of mammalian placentas. It is primarily directed to the veterinary pathologist, the zoo veterinarians and others who have an interest in understanding the bewildering variety of placental forms. When new placentas are added or new information comes about, the new date will appear at the bottom of this page. I endeavor here to bring gradually all major animal species as I acquire the specimens. If new material is brought to my attention, I will incorporate this and welcome any possible material provided for these pages. You may email me directly at kbenirsc@ucsd.edu Before you begin, please note that clicking on most of the thumbnail images will open a new browser window with a larger version of the same image (To see an example of this, click on my image above.) These web pages were created in this fashion to reduce download time and to give you control over which images you'd like to view in greater detail.

85. Betran Lab || Redirect Expression and functional genomics in Drosophila, at University of Texas at Arlington. http://www3.uta.edu/faculty/betran/

Betran Lab has moved please update your bookmarks: http://wweb.uta.edu/faculty/betran You will be redirected to the Betran Lab Website in five seconds!

86. Hedgehog Signaling Glossary Resource of research, primarily on fruit fly, for a pathway conserved in all animals, responsible for differentiation of insect segments, wings and limbs. Includes details for submission at Northwestern University, Evanston, IL. http://www.biochem.northwestern.edu/holmgren/Glossary/

Genes / Proteins Definitions Models Developmental Models ... Home Please Contribute This site is dependent on its contributors. You don't want your hard work to be lost in the past. Make sure that you are given credit for your discoveries, so that others can reference you properly. Everyone knows the feeling when you are not given credit where credit is due. Please send us a quick note with a summary of your results with references. New to this site? Are you a beginner to Drosophila? Check out this page for a quick crash coarse on Drosophila development. Are you a Drosophila pro? Go through the above links, or start with the models and link to descriptions of the gene. Extras Search for Biology Graduate Schools Summary List of genes / proteins Definitions / description of commonly used terms.

87. Oxitec Biotechnology company that provides a biological insect control solution using sterilization techniques. Profile of university spin-off, technology, and contacts in Oxford, England. http://www.oxitec.com/

@import url( http://www.oxitec.com/wp-content/themes/theme/style.css ); business Our pipeline Our team Our awards ... Pink bollworm OX1138 Oxitec Limited t: +44 (0)1235 832393 f: +44 (0) 1235 861138 e: info@oxitec.com

88. Boulianne Lab - The Hospital For Sick Children - Toronto, Ontario, Canada Neurological studies in Drosophila, applied to aging and human neurodegenerative diseases, such as amyotrophic lateral sclerosis and Alzheimer s. Overview and contacts at Hospital for Sick Children, University of Toronto, Canada. http://www.utoronto.ca/gboullab/

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89. Hoback1, Laboratory specialising in entomological studies with links to courses and opportunities for graduate study, at the University of Nebraska at Kearney. http://www.unk.edu/acad/biology/faculty/index.php?id=6494

90. Cohen Lab Home - Cohen Lab At TLL Research laboratory at the Temasek Life Sciences Laboratories, Singapore using the fruitfly to explore miRNA function in development and disease. http://www.bioinformatics.tll.org.sg/labs/cohen/index.php

91. SUE - CONTENTS Glossary and illustration of the path of development, as resource to high schools, provided by Stanford University, California. http://www.stanford.edu/group/Urchin/contents.html

~ How to Use This Site ~ See also our sister site: Virtual Urchin CORE LAB - 1 week (Suggested for 1st lab experience) PRIMARY LABS - 2 weeks + Gametes, Fertilization, Development, Experiments, Sperm Experiments, PUSH lab EXTENDED RESEARCH Shaking, Ultaviolet Light Effects, Modified Seawater Formulations, Osmotic vs. Ionic, Artificial Activation, Carnoy's Fixative, Isolating the Mitotic Apparatus, Gamete Storage, Egyptian Project Page SUPPORT LESSONS Pre Tests, Microscope, Size Under the Microscope, Mixing the Gene Pool, Brooders vs. Spawners, Simple Dilution, Simple Dilution 2, Sperm Dilution, Drawing SUPPORT MATERIALS Overheads, Glossary, References, Skills Needed, Classis Lesson Plans, Safety, Path of Development, Camino Del Desarrollo, Urchins, Our sister site - Virtual Urchin and Download entire site as ZIP file. INFORMATION CURIOSITY High School Web Sites, History, How We Did It, Our Bios, Personal Web Pages, Polyglot EMAIL US!

92. Index Group with research interests structure-function relationships of globins and aging, using molecular phylogeny of C. elegans. Also includes members, publications, related links and contacts at Ghent University, Belgium. http://www.physiology.ugent.be/

Last updated: 24/09/2008

93. C. Elegans Movies Links to films showing the growth and development of C. elegans from researchers worldwide, housed in the laboratory of Bob Goldstein at UNC-Chapel Hill. http://www.bio.unc.edu/faculty/goldstein/lab/movies.html

A visual introduction to the Nobel Prize-winning worm Caenorhabditis elegans. This page has links to timelapse films made by C. elegans researchers worldwide. For more information about the worms, see the C. elegans web page and Wormbase The movies can be viewed with the free version of Quicktime Contents: Embryos RNAi Screens Larvae and Adults Techniques ... 4D Movies Embryos C. elegans develops from a single cell, the fertilized egg, to a 558-celled worm in about 14 hours. The worm that crawls out of its eggshell has a functioning feeding apparatus, gut, nervous system and muscles. These videos show some of the events that occur along the way. Normal Development from us Cytoplasmic Flow from us First Cell Cycle from Tony Hyman's lab Myosin, PARs, Microtubules from the Center for Cell Dynamics P granules, PAR-2 from Cheeks et al 2004 P granules from Brangwynne et al 2009 PARs and par mutants from Ken Kemphues' lab PARs, MEXs, PIE-1, Microtubules from Cuenca et al 2003 Actin Comets from Velarde et al 2007 Blebs from Roh-Johnson and Goldstein 2009 Caveolin from Sato et al 2006 Timing Spindle Displacement from McCarthy Campbell et al 2009 Chromosomes, Microtubules

94. Goldstein Lab Postdoctoral position available, people, publications and studies at the cellular level on Caenorhabditis elegans embryos, at UNC Chapel Hill, North Carolina. http://www.bio.unc.edu/faculty/goldstein/lab/

The Goldstein Lab We use C. elegans to discover fundamental mechanisms in cell and developmental biology. We are also developing tardigrades as a new model for studying how such mechanisms evolve. C. elegans Tardigrades People Publications ... UNC Chapel Hill

95. Index Research on ciliogenesis, publications, lab facilities and contacts at Stockholm, Sweden. http://www.biosci.ki.se/groups/psw/

The Development of Sensory Structures in C. elegans Maintained by: Brian Piasecki Last update: 21.10.2009

96. Utrecht University, Div. Of Developmental Biology, Welcome Research group focusing on the cell-cycle entry and exit control, the relationship between proliferation and differentiation, and the mechanisms of asymmetric cell division. Lists members, publications, meetings and location near Utrecht, The Netherlands. http://www.bio.uu.nl/developmentalbiology/

Developmental Biology Home Research groups Sander van den Heuvel Mike Boxem Inge The Members ... Links About us Developmental Biology is a research division of the Biology department of the Faculty of Science at Utrecht University. The division is led by Prof. Dr. Sander van den Heuvel, and is home to several research groups that share a common interest in the development of multicellular organisms. Sander van den Heuvel studies the regulation of cell division in the context of animal development. Research topics in the group include asymmetric cell division, the control of cell-cycle entry, and the regulation of differentiation vs. proliferation. C. elegans is the main model system used for these studies, with less frequent use of mammalian tissue culture systems. Mike Boxem addresses the establishment of cell polarity through a combination of systematic protein interaction mapping and in vivo studies in C. elegans studies basic questions regarding the control of spermatogonial stem cell divisions in Zebrafish, as well as applied questions on the reproduction of commercial fish including Salmon and Cod. Inge The studies the regulation of cell proliferation vs. differentiation in collaboration with the group of Sander van den Heuvel.

97. The Roy Laboratory - McGill University Research interests are focused on the modulation of the cell cycle throughout development. Since the completion of the Caenorhabditis elegans genome sequencing project, this nematode makes an ideal subject for study. http://biology.mcgill.ca/faculty/roy/

Home Research Members Contact ... Publications Roy Lab Welcome Our lab investigates the developmental control of the cell cycle in C. elegans . Our three main foci are: Control of germ line quiescence Coupling the cell cycle with the centrosome cycle Understanding endocycles Location We are located in the Stewart Biology building ( Campus Map ), room W5/17. Some pictures of McGill and Montreal (Click to expand) Campus in the summer Life Sciences Complex More campus pictures at http://www.mcgill.ca/photos/ City Hall Old Montreal Links WormBase Videos McGill University Department of Biology

98. Embryogenesis Somatic embryogenesis protocol for soybeans and slash pine, at Texas A M University. http://aggie-horticulture.tamu.edu/tisscult/embry/embryogenesis.html

Selected Works on Somatic Embryogenesis Somatic Embryogenesis in Slash Pine Somatic Embryogenesis Protocol for Soybeans announcements micropropagation ... Aggie Horticulture

99. Janeczko, Anna Research on the effects of animal sex hormones in germination. Includes publication list, other interests and contacts at the Institute of Plant Physiology, Krak w, Poland. http://belanna.strefa.pl/

100. Department 6 Molecular Biology — Max Planck Institute For Developmental Biolog Research on the regulation of transition from vegetative to reproductive development in flowers, and the generation of floral organs in Arabidopsis thaliana. Includes links to associated groups, and contacts at the Max-Planck Institute, T bingen, Germany. http://www.eb.tuebingen.mpg.de/departments/6-molecular-biology

Skip to content. Skip to navigation Site Map Search Site Max Planck Institute for Developmental Biology Homepage Personal tools Log in Deutsch English You are here: Home Departments 6 Molecular Biology home Departments 1 Protein Evolution 2 Biochemistry ... Links MPS Links Friedrich Miescher Laboratory Max Planck Institute for Biological Cybernetics Internal Pages Max Planck Society ... Max Planck PhDnet Document Actions Department 6 Molecular Biology Director: Dr. Detlef Weigel Secretary: Hülya Wicher Phone: Fax: Staff: Alphabetical List Homepage Introduction: A long-term goal of the department is to understand the mechanisms underlying variation in adaptive traits. As a prerequisite, the genes that are used by wild plants and animals to create phenotypic diversity need to be defined. By integrating a mechanistic understanding of genetic networks with an understanding of the adaptive significance of trait variation, it should be possible to identify functionally divergent alleles in natural populations. This knowledge can be used to understand the genetic mechanisms underlying adaptive change, and to predict the performance of natural populations under changing environmental conditions. Research Groups: D. Weigel (Natural Variation)

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