Coffea genome structure and relationship with evolution

Coffea genome structure and relationship with evolution

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Among the numerous species constituting the Coffea genus, only one, C. arabica is tetraploid (2n=4X=44) all the others are diploid but their DNA content is quite variable. Originating from East Africa and Mascarene Islands, coffee trees are found all along the forest belt that crosses the continent. Interestingly, the genome of the species found closely to the origin centre have the lowest amount of DNA and oppositely, the species that "migrated" have a much bigger genome in terms of DNA content. The main reason to explain this difference can be attributed to the nature and amount of repeated sequences. It has been shown that, as all the plants so far analysed, coffee contains many different retrotransposons. It is assumed that the movement of some of these elements and the multiplication of copies in the genome can be related to the migration of the coffee trees and the stresses encountered. The augmentation of the DNA content also define new genetic barriers as the level of sterility in F1 hybridsissued from interspecific crosses is higher when the two parental species have bigger difference in DNA content. This sterility level is tightly related to the presence of univalent chromosomes during meiosis in the gamete precursor cells.

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Main Authors: 83508 Kochko, A. de, 87745 Louarn, J., 75865 Hamon, P., 75866 Hamon, S., 99614 Noirot, M., 3180 Association Scientifique Internationale du Cafe, París (Francia), 32308 19. International Scientific Colloquium on Coffee Trieste (Italia) 14-18 May 2001
Format: biblioteca
Published: Trieste (Italia) ASIC 2001
Subjects:COFFEA, COFFEA ARABICA, CRUZAMIENTO, EVOLUCION, GENOMAS, HIBRIDOS, HIBRIDACION INTERESPECIFICA, MEIOSIS, GENETICA MOLECULAR, SECUENCIA NUCLEOTIDICA, RECURSOS GENETICOS VEGETALES, AFRICA ORIENTAL,
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spelling KOHA-OAI-BVE:892722020-02-03T21:57:12ZCoffea genome structure and relationship with evolutionProceedings 83508 Kochko, A. de 87745 Louarn, J. 75865 Hamon, P. 75866 Hamon, S. 99614 Noirot, M. 3180 Association Scientifique Internationale du Cafe, París (Francia) 32308 19. International Scientific Colloquium on Coffee Trieste (Italia) 14-18 May 2001 Trieste (Italia) ASIC2001Among the numerous species constituting the Coffea genus, only one, C. arabica is tetraploid (2n=4X=44) all the others are diploid but their DNA content is quite variable. Originating from East Africa and Mascarene Islands, coffee trees are found all along the forest belt that crosses the continent. Interestingly, the genome of the species found closely to the origin centre have the lowest amount of DNA and oppositely, the species that "migrated" have a much bigger genome in terms of DNA content. The main reason to explain this difference can be attributed to the nature and amount of repeated sequences. It has been shown that, as all the plants so far analysed, coffee contains many different retrotransposons. It is assumed that the movement of some of these elements and the multiplication of copies in the genome can be related to the migration of the coffee trees and the stresses encountered. The augmentation of the DNA content also define new genetic barriers as the level of sterility in F1 hybridsissued from interspecific crosses is higher when the two parental species have bigger difference in DNA content. This sterility level is tightly related to the presence of univalent chromosomes during meiosis in the gamete precursor cells.Among the numerous species constituting the Coffea genus, only one, C. arabica is tetraploid (2n=4X=44) all the others are diploid but their DNA content is quite variable. Originating from East Africa and Mascarene Islands, coffee trees are found all along the forest belt that crosses the continent. Interestingly, the genome of the species found closely to the origin centre have the lowest amount of DNA and oppositely, the species that "migrated" have a much bigger genome in terms of DNA content. The main reason to explain this difference can be attributed to the nature and amount of repeated sequences. It has been shown that, as all the plants so far analysed, coffee contains many different retrotransposons. It is assumed that the movement of some of these elements and the multiplication of copies in the genome can be related to the migration of the coffee trees and the stresses encountered. The augmentation of the DNA content also define new genetic barriers as the level of sterility in F1 hybridsissued from interspecific crosses is higher when the two parental species have bigger difference in DNA content. This sterility level is tightly related to the presence of univalent chromosomes during meiosis in the gamete precursor cells.COFFEACOFFEA ARABICACRUZAMIENTOEVOLUCIONGENOMASHIBRIDOSHIBRIDACION INTERESPECIFICAMEIOSISGENETICA MOLECULARSECUENCIA NUCLEOTIDICARECURSOS GENETICOS VEGETALESAFRICA ORIENTALURN:ISBN:290012189
institution IICA
collection Koha
country Costa Rica
countrycode CR
component Bibliográfico
access En linea
Fisico
databasecode cat-sibiica
tag biblioteca
region America Central
libraryname Sistema de Bibliotecas IICA/CATIE
topic COFFEA
COFFEA ARABICA
CRUZAMIENTO
EVOLUCION
GENOMAS
HIBRIDOS
HIBRIDACION INTERESPECIFICA
MEIOSIS
GENETICA MOLECULAR
SECUENCIA NUCLEOTIDICA
RECURSOS GENETICOS VEGETALES
AFRICA ORIENTAL
COFFEA
COFFEA ARABICA
CRUZAMIENTO
EVOLUCION
GENOMAS
HIBRIDOS
HIBRIDACION INTERESPECIFICA
MEIOSIS
GENETICA MOLECULAR
SECUENCIA NUCLEOTIDICA
RECURSOS GENETICOS VEGETALES
AFRICA ORIENTAL
spellingShingle COFFEA
COFFEA ARABICA
CRUZAMIENTO
EVOLUCION
GENOMAS
HIBRIDOS
HIBRIDACION INTERESPECIFICA
MEIOSIS
GENETICA MOLECULAR
SECUENCIA NUCLEOTIDICA
RECURSOS GENETICOS VEGETALES
AFRICA ORIENTAL
COFFEA
COFFEA ARABICA
CRUZAMIENTO
EVOLUCION
GENOMAS
HIBRIDOS
HIBRIDACION INTERESPECIFICA
MEIOSIS
GENETICA MOLECULAR
SECUENCIA NUCLEOTIDICA
RECURSOS GENETICOS VEGETALES
AFRICA ORIENTAL
83508 Kochko, A. de
87745 Louarn, J.
75865 Hamon, P.
75866 Hamon, S.
99614 Noirot, M.
3180 Association Scientifique Internationale du Cafe, París (Francia)
32308 19. International Scientific Colloquium on Coffee Trieste (Italia) 14-18 May 2001
Coffea genome structure and relationship with evolution
description Among the numerous species constituting the Coffea genus, only one, C. arabica is tetraploid (2n=4X=44) all the others are diploid but their DNA content is quite variable. Originating from East Africa and Mascarene Islands, coffee trees are found all along the forest belt that crosses the continent. Interestingly, the genome of the species found closely to the origin centre have the lowest amount of DNA and oppositely, the species that "migrated" have a much bigger genome in terms of DNA content. The main reason to explain this difference can be attributed to the nature and amount of repeated sequences. It has been shown that, as all the plants so far analysed, coffee contains many different retrotransposons. It is assumed that the movement of some of these elements and the multiplication of copies in the genome can be related to the migration of the coffee trees and the stresses encountered. The augmentation of the DNA content also define new genetic barriers as the level of sterility in F1 hybridsissued from interspecific crosses is higher when the two parental species have bigger difference in DNA content. This sterility level is tightly related to the presence of univalent chromosomes during meiosis in the gamete precursor cells.
format
topic_facet COFFEA
COFFEA ARABICA
CRUZAMIENTO
EVOLUCION
GENOMAS
HIBRIDOS
HIBRIDACION INTERESPECIFICA
MEIOSIS
GENETICA MOLECULAR
SECUENCIA NUCLEOTIDICA
RECURSOS GENETICOS VEGETALES
AFRICA ORIENTAL
author 83508 Kochko, A. de
87745 Louarn, J.
75865 Hamon, P.
75866 Hamon, S.
99614 Noirot, M.
3180 Association Scientifique Internationale du Cafe, París (Francia)
32308 19. International Scientific Colloquium on Coffee Trieste (Italia) 14-18 May 2001
author_facet 83508 Kochko, A. de
87745 Louarn, J.
75865 Hamon, P.
75866 Hamon, S.
99614 Noirot, M.
3180 Association Scientifique Internationale du Cafe, París (Francia)
32308 19. International Scientific Colloquium on Coffee Trieste (Italia) 14-18 May 2001
author_sort 83508 Kochko, A. de
title Coffea genome structure and relationship with evolution
title_short Coffea genome structure and relationship with evolution
title_full Coffea genome structure and relationship with evolution
title_fullStr Coffea genome structure and relationship with evolution
title_full_unstemmed Coffea genome structure and relationship with evolution
title_sort coffea genome structure and relationship with evolution
publisher Trieste (Italia) ASIC
publishDate 2001
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