A new property of the maize B chromosome

TB-9Sb is a translocation between the B chromosome and chromosome 9 in maize. Certain deletions of B chromatin from the translocation cause a sharp decrease in B-9 transmission compared to the rate for standard TB-9Sb. The deletions remove components of a B chromosome genetic system that serves to s...

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Published in	Genetics (Austin) Vol. 131; no. 1; pp. 211 - 223
Main Authors	Carlson, W.R. (University of Iowa, Iowa City, IA), Roseman, R.R
Format	Journal Article
Language	English
Published	Bethesda, MD Genetics Soc America 01.05.1992 Genetics Society of America
Subjects	Anaphase Biological and medical sciences CHROMOSOME chromosome elimination chromosome translocation chromosome transmission Chromosomes Chromosomes - ultrastructure Corn CROMOSOMAS Crossing Over, Genetic Cytogenetics cytology Fundamental and applied biological sciences. Psychology Genetics Genetics of eukaryotes. Biological and molecular evolution Investigations Medical research MEIOSE MEIOSIS Metaphase Mitosis Pteridophyta, spermatophyta Translocation TRANSLOCATION CHROMOSOMIQUE Translocation, Genetic TRASLOCACION DE CROMOSOMAS ultrastructure Vegetals and fungi ZEA MAYS Zea mays - cytology Zea mays - genetics Chromosomal aberration Monocotyledones Chromatin Zea mays Segregation Accessory B chromosome Meiosis Chromosome elimination Disjunction Gramineae Angiospermae Cytogenetics Deletion Abnormal chromosome Spermatophyta Chromosome translocation
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ISSN	0016-6731 1943-2631 1943-2631
DOI	10.1093/genetics/131.1.211

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Abstract	TB-9Sb is a translocation between the B chromosome and chromosome 9 in maize. Certain deletions of B chromatin from the translocation cause a sharp decrease in B-9 transmission compared to the rate for standard TB-9Sb. The deletions remove components of a B chromosome genetic system that serves to suppress meiotic loss in the female. At least two distinct B-chromosome regions suppress meiotic loss: one on the B-9 and one on 9-B. The system operates by stabilizing univalent B-type chromosomes. It allows the univalents to migrate to one pole in meiosis, despite the absence of a pairing partner. The findings reported here are the first evidence for genetic control of meiotic loss by a B chromosome. However, it is proposed that the practice of suppressing meiotic loss is common to the B chromosomes of all species. The need to suppress meiotic loss results from the fact that B chromosomes are frequently unpaired in meiosis and subject to very high frequencies of loss. B chromosomes may utilize one or more of the following methods to suppress meiotic loss: (a) regular migration of univalent B's to one pole in meiosis, (b) enhanced recombination between B chromosomes and (c) mitotic nondisjunction
AbstractList	TB-9Sb is a translocation between the B chromosome and chromosome 9 in maize. Certain deletions of B chromatin from the translocation cause a sharp decrease in B-9 transmission compared to the rate for standard TB-9Sb. The deletions remove components of a B chromosome genetic system that serves to suppress meiotic loss in the female. At least two distinct B-chromosome regions suppress meiotic loss: one on the B-9 and one on 9-B. The system operates by stabilizing univalent B-type chromosomes. It allows the univalents to migrate to one pole in meiosis, despite the absence of a pairing partner. The findings reported here are the first evidence for genetic control of meiotic loss by a B chromosome. However, it is proposed that the practice of suppressing meiotic loss is common to the B chromosomes of all species. The need to suppress meiotic loss results from the fact that B chromosomes are frequently unpaired in meiosis and subject to very high frequencies of loss. B chromosomes may utilize one or more of the following methods to suppress meiotic loss: (a) regular migration of univalent B's to one pole in meiosis, (b) enhanced recombination between B chromosomes and (c) mitotic nondisjunction. TB-9Sb is a translocation between the B chromosome and chromosome 9 in maize. Certain deletions of B chromatin from the translocation cause a sharp decrease in B-9 transmission compared to the rate for standard TB-9Sb. The deletions remove components of a B chromosome genetic system that serves to suppress meiotic loss in the female. At least two distinct B-chromosome regions suppress meiotic loss: one on the B-9 and one on 9-B. The system operates by stabilizing univalent B-type chromosomes. It allows the univalents to migrate to one pole in meiosis, despite the absence of a pairing partner. The findings reported here are the first evidence for genetic control of meiotic loss by a B chromosome. However, it is proposed that the practice of suppressing meiotic loss is common to the B chromosomes of all species. The need to suppress meiotic loss results from the fact that B chromosomes are frequently unpaired in meiosis and subject to very high frequencies of loss. B chromosomes may utilize one or more of the following methods to suppress meiotic loss: (a) regular migration of univalent B's to one pole in meiosis, (b) enhanced recombination between B chromosomes and (c) mitotic nondisjunction.TB-9Sb is a translocation between the B chromosome and chromosome 9 in maize. Certain deletions of B chromatin from the translocation cause a sharp decrease in B-9 transmission compared to the rate for standard TB-9Sb. The deletions remove components of a B chromosome genetic system that serves to suppress meiotic loss in the female. At least two distinct B-chromosome regions suppress meiotic loss: one on the B-9 and one on 9-B. The system operates by stabilizing univalent B-type chromosomes. It allows the univalents to migrate to one pole in meiosis, despite the absence of a pairing partner. The findings reported here are the first evidence for genetic control of meiotic loss by a B chromosome. However, it is proposed that the practice of suppressing meiotic loss is common to the B chromosomes of all species. The need to suppress meiotic loss results from the fact that B chromosomes are frequently unpaired in meiosis and subject to very high frequencies of loss. B chromosomes may utilize one or more of the following methods to suppress meiotic loss: (a) regular migration of univalent B's to one pole in meiosis, (b) enhanced recombination between B chromosomes and (c) mitotic nondisjunction. TB-9Sb is a translocation between the B chromosome and chromosome 9 in maize. Certain deletions of B chromatin from the translocation cause a sharp decrease in B-9 transmission compared to the rate for standard TB-9Sb. The deletions remove components of a B chromosome genetic system that serves to suppress meiotic loss in the female. At least two distinct B-chromosome regions suppress meiotic loss: one on the B-9 and one on 9-B. The system operates by stabilizing univalent B-type chromosomes. It allows the univalents to migrate to one pole in meiosis, despite the absence of a pairing partner. The findings reported here are the first evidence for genetic control of meiotic loss by a B chromosome. However, it is proposed that the practice of suppressing meiotic loss is common to the B chromosomes of all species. The need to suppress meiotic loss results from the fact that B chromosomes are frequently unpaired in meiosis and subject to very high frequencies of loss. B chromosomes may utilize one or more of the following methods to suppress meiotic loss: (a) regular migration of univalent B's to one pole in meiosis, (b) enhanced recombination between B chromosomes and (c) mitotic nondisjunction
Author	Roseman, R.R Carlson, W.R. (University of Iowa, Iowa City, IA)
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Keywords	Chromosomal aberration Monocotyledones Chromatin Zea mays Segregation Accessory B chromosome Meiosis Chromosome elimination Disjunction Gramineae Angiospermae Cytogenetics Deletion Abnormal chromosome Spermatophyta Chromosome translocation
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References	17249076 - Genetics. 1981 Feb;97(2):379-89 17248936 - Genetics. 1979 Jul;92(3):931-45 17248652 - Genetics. 1974 May;77(1):45-54 17246210 - Genetics. 1984 May;107(1):117-30 371533 - Annu Rev Genet. 1978;12:5-23 17248577 - Genetics. 1972 May;71(1):73-96 17248377 - Genetics. 1967 Mar;55(3):433-49 17248448 - Genetics. 1969 Jul;62(3):543-54
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Snippet	TB-9Sb is a translocation between the B chromosome and chromosome 9 in maize. Certain deletions of B chromatin from the translocation cause a sharp decrease in...
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SubjectTerms	Anaphase Biological and medical sciences CHROMOSOME chromosome elimination chromosome translocation chromosome transmission Chromosomes Chromosomes - ultrastructure Corn CROMOSOMAS Crossing Over, Genetic Cytogenetics cytology Fundamental and applied biological sciences. Psychology Genetics Genetics of eukaryotes. Biological and molecular evolution Investigations Medical research MEIOSE MEIOSIS Metaphase Mitosis Pteridophyta, spermatophyta Translocation TRANSLOCATION CHROMOSOMIQUE Translocation, Genetic TRASLOCACION DE CROMOSOMAS ultrastructure Vegetals and fungi ZEA MAYS Zea mays - cytology Zea mays - genetics
Title	A new property of the maize B chromosome
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