Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae)

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The karyotype of Baccharis coridifolia DC., a dioecious diploid species consists of 16 chromosomes with median (m) and 2 with submedian centromeric positions (sm) (2n = 18). Meiotic analyses of 219 male plants belonging to 12 populations showed across a wide geographical range one quadrivalent and s...

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Autores principales: Hunziker, J.H., Wulff, A.F., Escobar, A.
Formato: Artículo publishedVersion
Publicado: 2002
Materias:
allele
article
Asteraceae
centromere
chromosome
chromosome bivalent
chromosome translocation
controlled study
diploidy
dominant gene
flowering
genetic linkage
geographic distribution
heterozygosity
karyotype
meiosis
metaphase
nonhuman
plant insect interaction
pollen
pollen mother cell
pollination
population genetics
recessive gene
sex ratio
suppressor gene
Chromosomes, Plant
Heterozygote
Translocation, Genetic
Baccharis
Embryophyta
Insecta
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00180661_v137_n2_p132_Hunziker
https://repositoriouba.sisbi.uba.ar/gsdl/cgi-bin/library.cgi?a=d&c=artiaex&d=paper_00180661_v137_n2_p132_Hunziker_oai
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Repositorio Digital de la Universidad de Buenos Aires (UBA) de Universidad de Buenos Aires
id I28-R145-paper_00180661_v137_n2_p132_Hunziker_oai
record_format dspace
spelling I28-R145-paper_00180661_v137_n2_p132_Hunziker_oai2024-08-16 Hunziker, J.H. Wulff, A.F. Escobar, A. 2002 The karyotype of Baccharis coridifolia DC., a dioecious diploid species consists of 16 chromosomes with median (m) and 2 with submedian centromeric positions (sm) (2n = 18). Meiotic analyses of 219 male plants belonging to 12 populations showed across a wide geographical range one quadrivalent and seven bivalents in all of them. The quadrivalent involves the four biggest m chromosomes and probably constitutes a sex multivalent carrying in tight linkage the sex genes and provides a mechanism whereby permanent translocation heterozygosity is maintained. In metaphase I alternate orientation of the quadrivalent was predominant (85.71 %). Fourteen megaspore mother cells were analyzed and did not show the quadrivalent. A model for the origin and maintenance of the sexual translocation system is presented. It is assumed that there are two non-allelic factors M and n; M would be a dominant female suppresor and n a recessive male-suppresor. The excess of male plants observed in several populations at different localities might result from heterotic effects of some gene complexes carried by the translocation. This excess probably ensures a good supply of pollen for the vagaries of insect pollination at flowering time. Fil:Wulff, A.F. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. application/pdf http://hdl.handle.net/20.500.12110/paper_00180661_v137_n2_p132_Hunziker info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar Hereditas 2002;137(2):132-139 allele article Asteraceae centromere chromosome chromosome bivalent chromosome translocation controlled study diploidy dominant gene flowering genetic linkage geographic distribution heterozygosity karyotype meiosis metaphase nonhuman plant insect interaction pollen pollen mother cell pollination population genetics recessive gene sex ratio suppressor gene Asteraceae Chromosomes, Plant Heterozygote Translocation, Genetic Asteraceae Baccharis Embryophyta Insecta Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae) info:eu-repo/semantics/article info:ar-repo/semantics/artículo info:eu-repo/semantics/publishedVersion https://repositoriouba.sisbi.uba.ar/gsdl/cgi-bin/library.cgi?a=d&c=artiaex&d=paper_00180661_v137_n2_p132_Hunziker_oai
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-145
collection Repositorio Digital de la Universidad de Buenos Aires (UBA)
topic allele
article
Asteraceae
centromere
chromosome
chromosome bivalent
chromosome translocation
controlled study
diploidy
dominant gene
flowering
genetic linkage
geographic distribution
heterozygosity
karyotype
meiosis
metaphase
nonhuman
plant insect interaction
pollen
pollen mother cell
pollination
population genetics
recessive gene
sex ratio
suppressor gene
Asteraceae
Chromosomes, Plant
Heterozygote
Translocation, Genetic
Asteraceae
Baccharis
Embryophyta
Insecta
spellingShingle allele
article
Asteraceae
centromere
chromosome
chromosome bivalent
chromosome translocation
controlled study
diploidy
dominant gene
flowering
genetic linkage
geographic distribution
heterozygosity
karyotype
meiosis
metaphase
nonhuman
plant insect interaction
pollen
pollen mother cell
pollination
population genetics
recessive gene
sex ratio
suppressor gene
Asteraceae
Chromosomes, Plant
Heterozygote
Translocation, Genetic
Asteraceae
Baccharis
Embryophyta
Insecta
Hunziker, J.H.
Wulff, A.F.
Escobar, A.
Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae)
topic_facet allele
article
Asteraceae
centromere
chromosome
chromosome bivalent
chromosome translocation
controlled study
diploidy
dominant gene
flowering
genetic linkage
geographic distribution
heterozygosity
karyotype
meiosis
metaphase
nonhuman
plant insect interaction
pollen
pollen mother cell
pollination
population genetics
recessive gene
sex ratio
suppressor gene
Asteraceae
Chromosomes, Plant
Heterozygote
Translocation, Genetic
Asteraceae
Baccharis
Embryophyta
Insecta
description The karyotype of Baccharis coridifolia DC., a dioecious diploid species consists of 16 chromosomes with median (m) and 2 with submedian centromeric positions (sm) (2n = 18). Meiotic analyses of 219 male plants belonging to 12 populations showed across a wide geographical range one quadrivalent and seven bivalents in all of them. The quadrivalent involves the four biggest m chromosomes and probably constitutes a sex multivalent carrying in tight linkage the sex genes and provides a mechanism whereby permanent translocation heterozygosity is maintained. In metaphase I alternate orientation of the quadrivalent was predominant (85.71 %). Fourteen megaspore mother cells were analyzed and did not show the quadrivalent. A model for the origin and maintenance of the sexual translocation system is presented. It is assumed that there are two non-allelic factors M and n; M would be a dominant female suppresor and n a recessive male-suppresor. The excess of male plants observed in several populations at different localities might result from heterotic effects of some gene complexes carried by the translocation. This excess probably ensures a good supply of pollen for the vagaries of insect pollination at flowering time.
format Artículo
Artículo
publishedVersion
author Hunziker, J.H.
Wulff, A.F.
Escobar, A.
author_facet Hunziker, J.H.
Wulff, A.F.
Escobar, A.
author_sort Hunziker, J.H.
title Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae)
title_short Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae)
title_full Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae)
title_fullStr Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae)
title_full_unstemmed Permanent translocation heterozygosity in dioecious Baccharis coridifolia DC. (Asteraceae)
title_sort permanent translocation heterozygosity in dioecious baccharis coridifolia dc. (asteraceae)
publishDate 2002
url http://hdl.handle.net/20.500.12110/paper_00180661_v137_n2_p132_Hunziker
https://repositoriouba.sisbi.uba.ar/gsdl/cgi-bin/library.cgi?a=d&c=artiaex&d=paper_00180661_v137_n2_p132_Hunziker_oai
work_keys_str_mv AT hunzikerjh permanenttranslocationheterozygosityindioeciousbacchariscoridifoliadcasteraceae
AT wulffaf permanenttranslocationheterozygosityindioeciousbacchariscoridifoliadcasteraceae
AT escobara permanenttranslocationheterozygosityindioeciousbacchariscoridifoliadcasteraceae
_version_ 1809357192393916416

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