M. Moritz and B.M. Alberts, Isolation of Centrosomes from Drosophila Embryos.
M. Bornens and M. Moudjou, Studying the Composition and Function of Centrosomes in Vertebrates.
R.E. Palazzo and J.M. Vogel, Isolation of Centrosomes from Spisula solidissima Oocytes.
A. Van Hooser and B.R. Brinkley, Methods for the in Situ Localization of Proteins and DNA in the Centromere-Kinetochore Complex.
B.F. McEwen and M. Marko, Three-Dimensional Transmission Electron Microscopy and Its Application to Mitosis Research.
K.F. Sullivan, Enlightening Mitosis: Construction and Expression of GFP Fusion Proteins.
T. Wittmann and T. Hyman, Recombinant p50/Dynamitin as a Tool to Examine the Role of Dynactin in Intracellular Processes.
F. Severin, K. Kaplan, P. Sorger, and T. Hyman, In Vitro Assays for Studying S. cerevisiae Kinetochore Activity.
C. Waterman-Storer, A. Desai, and E.D. Salmon, Fluorescent Speckle Microscopy of Spindle Microtubule Assembly and Motility in Living Cells.
R. Oldenbourg, Polarized Microscopy of Spindles.
D. Zhang and R.B. Nicklas, Micromanipulation of Chromosomes and Spindles in Insect Spermatocytes.
P. Wadsworth, Microinjection of Mitotic Cells.
R. Kuriyama and K. Ensrud, Obtaining Antibodies to Spindle Components.
L. Wordeman and M. Wagenbach, Using Antisense Technology to Study Mitosis.
M.A. Jordan and L. Wilson, The Use and Action of Drugs in Analyzing Mitosis.
C.L. Rieder and G. Cassels, Correlative Light and Electron Microscopy of Mitotic Cells in Monolayer Cultures.
W.E. Theurkauf and M.M.S. Heck, Identification and Characterization of Mitotic Mutations in Drosophila.
B.R. Oakley, Methods of Isolating and Analyzing Mitotic Mutants in Aspergillus nidulans.
K. Bloom, D.L. Beach, P. Maddox, S.L. Shaw, E. Yeh, and E.D. Salmon, Using GFP Fusion Proteins to Quantitate Microtubule and Spindle Dynamics in Budding Yeast.
A. Desai, A. Murray, T. Mitchison, and C.E. Walczak, The Use of Xenopus Egg Extracts to Study Mitotic Spindle Assembly and Function in Vitro.
J.W. Voss, A.H. Valster, and P.K. Hepler, Methods for Studying Cell Division in Higher Plants.
G. Sluder, F.J. Miller, and E. Hinchcliffe, Using Sea Urchin Gametes for the Study of Mitosis.
Mitosis and Meiosis / Edition 1by Leslie Wilson, Paul T. Matsudaira
Pub. Date: 12/16/1998
Publisher: Elsevier Science
Mitosis and meiosis are process of nuclear division in cells. This volume is a practical handbook on the modern techniques used to study mitosis and meiosis, with an emphasis on the composition and function of centrosomes, spindle pole bodies, and kinetochore structure. It also includes basic principles used in the selection of cells for specific scientific study,
Mitosis and meiosis are process of nuclear division in cells. This volume is a practical handbook on the modern techniques used to study mitosis and meiosis, with an emphasis on the composition and function of centrosomes, spindle pole bodies, and kinetochore structure. It also includes basic principles used in the selection of cells for specific scientific study, as well as analytical and procedural techniques.
• Chapters Contain Information On:
• How to generate, screen, and study mutants of mitosis in yeast, fungi, and flies
• Techniques to best image fluorescent and nonfluorescent tagged dividing cells
• The use and action of mitoclastic drugs
• How to generate antibodies to mitotic components and inject them into cells
• Methods that can also be used to obtain information on cellular processes in nondividing cells
Table of Contents
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