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Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants

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Zeitschriftentitel: Plant Physiology
Personen und Körperschaften: Matzke, Antonius J.M., Huettel, Bruno, van der Winden, Johannes, Matzke, Marjori
In: Plant Physiology, 139, 2005, 4, S. 1586-1596
Format: E-Article
Sprache: Englisch
veröffentlicht:
Oxford University Press (OUP)
Schlagwörter:
Plant Science
Genetics
Physiology
author_facet Matzke, Antonius J.M.
Huettel, Bruno
van der Winden, Johannes
Matzke, Marjori
Matzke, Antonius J.M.
Huettel, Bruno
van der Winden, Johannes
Matzke, Marjori
author Matzke, Antonius J.M.
Huettel, Bruno
van der Winden, Johannes
Matzke, Marjori
spellingShingle Matzke, Antonius J.M.
Huettel, Bruno
van der Winden, Johannes
Matzke, Marjori
Plant Physiology
Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
Plant Science
Genetics
Physiology
author_sort matzke, antonius j.m.
spelling Matzke, Antonius J.M. Huettel, Bruno van der Winden, Johannes Matzke, Marjori 1532-2548 0032-0889 Oxford University Press (OUP) Plant Science Genetics Physiology http://dx.doi.org/10.1104/pp.105.071068 <jats:title>Abstract</jats:title><jats:p>Sixteen distinct sites distributed on all five Arabidopsis (Arabidopsis thaliana) chromosomes have been tagged using different fluorescent proteins and one of two different bacterial operator-repressor systems: (1) a yellow fluorescent protein-Tet repressor fusion protein bound to tet operator sequences, or (2) a green or red fluorescent protein-Lac repressor fusion protein bound to lac operator sequences. Individual homozygous lines and progeny of intercrosses between lines have been used to study various aspects of interphase chromosome organization in root cells of living, untreated seedlings. Features reported here include distances between transgene alleles, distances between transgene inserts on different chromosomes, distances between transgene inserts on the same chromatin fiber, alignment of homologous chromosomes, and chromatin movement. The overall findings are consistent with a random and largely static arrangement of interphase chromosomes in nuclei of root cells. These transgenic lines provide tools for in-depth analyses of interphase chromosome organization, expression, and dynamics in living plants.</jats:p> Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants Plant Physiology
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title Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_unstemmed Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_full Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_fullStr Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_full_unstemmed Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_short Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_sort use of two-color fluorescence-tagged transgenes to study interphase chromosomes in living plants
topic Plant Science
Genetics
Physiology
url http://dx.doi.org/10.1104/pp.105.071068
publishDate 2005
physical 1586-1596
description <jats:title>Abstract</jats:title><jats:p>Sixteen distinct sites distributed on all five Arabidopsis (Arabidopsis thaliana) chromosomes have been tagged using different fluorescent proteins and one of two different bacterial operator-repressor systems: (1) a yellow fluorescent protein-Tet repressor fusion protein bound to tet operator sequences, or (2) a green or red fluorescent protein-Lac repressor fusion protein bound to lac operator sequences. Individual homozygous lines and progeny of intercrosses between lines have been used to study various aspects of interphase chromosome organization in root cells of living, untreated seedlings. Features reported here include distances between transgene alleles, distances between transgene inserts on different chromosomes, distances between transgene inserts on the same chromatin fiber, alignment of homologous chromosomes, and chromatin movement. The overall findings are consistent with a random and largely static arrangement of interphase chromosomes in nuclei of root cells. These transgenic lines provide tools for in-depth analyses of interphase chromosome organization, expression, and dynamics in living plants.</jats:p>
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author Matzke, Antonius J.M., Huettel, Bruno, van der Winden, Johannes, Matzke, Marjori
author_facet Matzke, Antonius J.M., Huettel, Bruno, van der Winden, Johannes, Matzke, Marjori, Matzke, Antonius J.M., Huettel, Bruno, van der Winden, Johannes, Matzke, Marjori
author_sort matzke, antonius j.m.
container_issue 4
container_start_page 1586
container_title Plant Physiology
container_volume 139
description <jats:title>Abstract</jats:title><jats:p>Sixteen distinct sites distributed on all five Arabidopsis (Arabidopsis thaliana) chromosomes have been tagged using different fluorescent proteins and one of two different bacterial operator-repressor systems: (1) a yellow fluorescent protein-Tet repressor fusion protein bound to tet operator sequences, or (2) a green or red fluorescent protein-Lac repressor fusion protein bound to lac operator sequences. Individual homozygous lines and progeny of intercrosses between lines have been used to study various aspects of interphase chromosome organization in root cells of living, untreated seedlings. Features reported here include distances between transgene alleles, distances between transgene inserts on different chromosomes, distances between transgene inserts on the same chromatin fiber, alignment of homologous chromosomes, and chromatin movement. The overall findings are consistent with a random and largely static arrangement of interphase chromosomes in nuclei of root cells. These transgenic lines provide tools for in-depth analyses of interphase chromosome organization, expression, and dynamics in living plants.</jats:p>
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spelling Matzke, Antonius J.M. Huettel, Bruno van der Winden, Johannes Matzke, Marjori 1532-2548 0032-0889 Oxford University Press (OUP) Plant Science Genetics Physiology http://dx.doi.org/10.1104/pp.105.071068 <jats:title>Abstract</jats:title><jats:p>Sixteen distinct sites distributed on all five Arabidopsis (Arabidopsis thaliana) chromosomes have been tagged using different fluorescent proteins and one of two different bacterial operator-repressor systems: (1) a yellow fluorescent protein-Tet repressor fusion protein bound to tet operator sequences, or (2) a green or red fluorescent protein-Lac repressor fusion protein bound to lac operator sequences. Individual homozygous lines and progeny of intercrosses between lines have been used to study various aspects of interphase chromosome organization in root cells of living, untreated seedlings. Features reported here include distances between transgene alleles, distances between transgene inserts on different chromosomes, distances between transgene inserts on the same chromatin fiber, alignment of homologous chromosomes, and chromatin movement. The overall findings are consistent with a random and largely static arrangement of interphase chromosomes in nuclei of root cells. These transgenic lines provide tools for in-depth analyses of interphase chromosome organization, expression, and dynamics in living plants.</jats:p> Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants Plant Physiology
spellingShingle Matzke, Antonius J.M., Huettel, Bruno, van der Winden, Johannes, Matzke, Marjori, Plant Physiology, Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants, Plant Science, Genetics, Physiology
title Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_full Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_fullStr Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_full_unstemmed Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_short Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
title_sort use of two-color fluorescence-tagged transgenes to study interphase chromosomes in living plants
title_unstemmed Use of Two-Color Fluorescence-Tagged Transgenes to Study Interphase Chromosomes in Living Plants
topic Plant Science, Genetics, Physiology
url http://dx.doi.org/10.1104/pp.105.071068