CiNii 図書 - Functional organization of the nucleus : a laboratory guide

The complex problem of the relationship between nuclear structure and function demands a multidisciplinary, multifaceted approach. This laboratory guide is designed for researchers, from graduate students to professors, who need detailed protocols and general discussions on a broad range of techniques. The volume presents a selection of different methodological approaches for the analysis of nuclear structure and function - from cytological to molecular to genetic. These include visualization of nucleic acid sequences using hybridization probes, visualization of proteins using immunological probes, isolation of chromatin fractions, mapping in vitro protein-DNA interactions, reconstitution of functional templates and nuclear substructures, and genetic approaches to identifying and characterizing chromosomal components.

DNA sequence localization in metaphase and interphase cells by fluorescence in situ hybridization, B. J. Trask
localization of mRNAs by in situ hybridization, L. M. Angerer and R. C. Angerer
fluorescent detection of nuclear RNA and DNA - implications for genome organization, C. V. Johnson et al
visualization of DNA sequences in meiotic chromosomes, P. B. Moens and R. E. Pearlman
nucleic acid sequence localization by EM in situ hybridization , S. Narayanswami et al
the use of autoantibodies in the study of nuclear and chromosomal organization, W. C. Earnshaw and J. B. Rattner
meiotic chromosome preparation and protein labeling, C. Heyting and A. J. J. Dietrich
distribution of chromosomal proteins in polytene chromosomes of drosphila, R. F. Clark et al
the use of nonoclonal antibody libraries, H. Saumweber
optical sectioning and three-dimensional reconstruction of diploid and polytene nuclei, M. C. Rykowski
yeast minichromosomes, S. Y. Roth and R. T. Simpson
nucleosomes of transcriptionally active chromatic - isolation of template-active nucleosomes by affinity chromatography, V. G. Alfrey and T. A. Chen
the nucleoprotein hybridization method for isolating active and inactive genes as chromatin, C. Vincenz et al
protein-DNA crosslinking as a means to determine the distribution of proteins on DNA in vivo, D. S. Gilmour et al
protein-DNA interactions in vivo - examining genes in saccharaomyces cerevisiae and drosophila melanogaster by chromatin footprinting, M. W. Hull et al
control of Class II gene transcription during in vitro nucleosome assembly, J. L. Workman et al
systems for the study of nuclear assembly, DNA replication, and nuclear breakdown in xenopus laevis egg extracts, C. Smythe and J. W. Newport
in vitro nuclear protein import using permeabilized mammalian cells, S. A. Adam et al
mutations that affect chromosomal proteins in yeast, M. M. Smith
mutations that affect nuclear organization in yeast, A. O. Sperry et al
mutations that affect cell division in drosophila, M. Gatti and M. L. Goldberg
position effect variegation - an assay for mutations in chromosomal proteins and chromatin assembly in drosophila, T. Grigliatti.

巻冊次: : hbk ISBN 9780125641357

内容説明

A text intended for researchers and students in cell biology, genetics and molecular biology, developmental biology, biochemistry and biophysics. The complex problem of the relationship between nuclear structure and function demands a multidisciplinary, multifaceted approach. This laboratory guide is designed for researchers, from graduate students to professors, who need detailed protocols and general discussions on a broad range of techniques. The volume presents a selection of different methodological approaches for the analysis of nuclear structure and function - from cytological to molecular to genetic. These include visualization of nucleic acid sequences using hybridization probes, visualization of proteins using immunological probes, isolation of chromatin fractions, mapping "in vitro" protein-DNA interactions, reconstitution of functional templates and nuclear substructures, and genetic approaches to identifying and characterizing chromosomal components.

DNA sequence localization in metaphase and interphase cells by fluorescence "in situ" hybridization, B.J. Trask
localization of mRNAs by "in situ" hybridization, L.M. Angerer and R.C. Angerer
fluorescent detection of nuclear RNA and DNA - implications for genome organization, C.V. Johnson et al
visualization of DNA sequences in meiotic chromosomes, P.B. Moens and R.E. Pearlman
nucleic acid sequence localization by EM "in situ" hybridization, S. Narayanswami et al
the use of autoantibodies in the study of nuclear and chromosomal organization, W. C. Earnshaw and J.B. Rattner
meiotic chromosome preparation and protein labeling, C. Heyting and A.J.J. Dietrich
distribution of chromosomal proteins in polytene chromosomes of "drosophila", R.F. Clark et al
the use of monoclonal antibody libraries, H. Saumweber
optical sectioning and three-dimensional reconstruction of diploid and polytene nuclei, M.C. Rykowski
yeast minichromosomes, S.Y. Roth and R.T. Simpson
nucleosomes of transcriptionally active chromatin - isolation of template-active nucleosomes by affinity chromatography, V.G. Allfrey and T.A. Chen
the nucleoprotein hybridization method for isolating active and inactive genes as chromatin, C. Vincenz et al
protein-DNA crosslinking as a means to determine the distribution of proteins on DNA "in vivo", D.S. Gilmour et al
protein-DNA interactions "in vivo" - examining genes in "saccharomyces cerevisiae" and "drosophila melanogaster" by chromatin footprinting, M.W. Hull et al
control of class II gene transcription during "in vitro" nucleosome assembly, J.L. Workman et al
systems for the study of nuclear assembly, DNA replication and nuclear breakdown in "xenopus laevis" egg extracts, C. Smythe and J.W. Newport
"in vitro" nuclear protein import using permeabilized mammalian cells, S.A. Adam et al
mutations that affect chromosomal proteins in yeast, M.M. Smith
mutations that affect nuclear organization in yeast, A.O. Sperry et al
mutations that affect cell division in "drosophila", M. Gatti and M.L. Goldberg
position effect variegation - an assay for mutations in chromosomal proteins and chromatin assembly in "drosophila", T. Grigliatti.

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Functional organization of the nucleus : a laboratory guide

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