Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.

Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.

The backcrosses of dihaploid Solanum tuberosum with wild species hybrids generating tetraploids progenies require the formation of non-reduced pollen. In this work, the mechanisms responsible for the formation of 2n pollen in 28 dihaploid Solanum tuberosum x Solanum chacoense hybrids were studied. Four mechanisms were found: parallelspindles (ps), fused spindles (fs), premature cytokinesis-1 (pc-1) and premature cytokinesis-2 (pc-2). The ps mechanism was the most frequent, being found in 23 of the 28 assessed clones. The ps and fs mechanisms led to the formation of dyads by first division restitution (FDR), transferring about 80% of the heterozygosity to the progenies. The pc-1 and pc-2 mechanisms also led to the formation of dyads, but they were genetically equivalent to second division restitution (SDR), transferring only 40% of the heterozygosity to the progenies. Occurrence of FDR and SDR were shown to be associated in 12 clones, indicating that the clones can produce non-reduced microspores by more than one mechanism. However, only one mechanism is functional in a single pollen-grain mother-cell. Clones 9-2, 9-3, 9-6 and 15-15 are recommended for use in 4x x 2x matings.

Saved in:
Bibliographic Details
Main Authors: OLIVEIRA, M. N. de, DAVIDE, L. C., PINTO, C. A. B. P.
Other Authors: MARCELO NASCIMENTO DE OLIVEIRA, CPAC; Lisete Chama Davide, Ufla; César Augusto Brasil Pereira Pinto, Ufla.
Format: Artigo de periódico biblioteca
Language:English
eng
Published: 1996-08-15
Subjects:Clone híbrido, Solanum tuberosum L, Fitomejoramiento, Híbridos, Patatas, Retrocruzamiento., Plant breendig, Melhoramento genético vegetal, Batata, Retrocruzamento, Progenie híbrida., Potatoes, Hybrids, Backcrossing, Solanum chacoense.,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/492133
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-alice-doc-492133
record_format koha
spelling dig-alice-doc-4921332017-08-16T04:08:31Z Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones. OLIVEIRA, M. N. de DAVIDE, L. C. PINTO, C. A. B. P. MARCELO NASCIMENTO DE OLIVEIRA, CPAC; Lisete Chama Davide, Ufla; César Augusto Brasil Pereira Pinto, Ufla. Clone híbrido Solanum tuberosum L Fitomejoramiento Híbridos Patatas Retrocruzamiento. Plant breendig Melhoramento genético vegetal Batata Retrocruzamento Progenie híbrida. Potatoes Hybrids Backcrossing Solanum chacoense. The backcrosses of dihaploid Solanum tuberosum with wild species hybrids generating tetraploids progenies require the formation of non-reduced pollen. In this work, the mechanisms responsible for the formation of 2n pollen in 28 dihaploid Solanum tuberosum x Solanum chacoense hybrids were studied. Four mechanisms were found: parallelspindles (ps), fused spindles (fs), premature cytokinesis-1 (pc-1) and premature cytokinesis-2 (pc-2). The ps mechanism was the most frequent, being found in 23 of the 28 assessed clones. The ps and fs mechanisms led to the formation of dyads by first division restitution (FDR), transferring about 80% of the heterozygosity to the progenies. The pc-1 and pc-2 mechanisms also led to the formation of dyads, but they were genetically equivalent to second division restitution (SDR), transferring only 40% of the heterozygosity to the progenies. Occurrence of FDR and SDR were shown to be associated in 12 clones, indicating that the clones can produce non-reduced microspores by more than one mechanism. However, only one mechanism is functional in a single pollen-grain mother-cell. Clones 9-2, 9-3, 9-6 and 15-15 are recommended for use in 4x x 2x matings. 2017-02-08T23:02:26Z 2017-02-08T23:02:26Z 1996-08-15 1995 2019-01-04T11:11:11Z Artigo de periódico Brazilian Journal of Genetics, v. 18, n. 3, p. 445-450, 1995. 0100-8455 http://www.alice.cnptia.embrapa.br/alice/handle/doc/492133 en eng openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language English
eng
topic Clone híbrido
Solanum tuberosum L
Fitomejoramiento
Híbridos
Patatas
Retrocruzamiento.
Plant breendig
Melhoramento genético vegetal
Batata
Retrocruzamento
Progenie híbrida.
Potatoes
Hybrids
Backcrossing
Solanum chacoense.
Clone híbrido
Solanum tuberosum L
Fitomejoramiento
Híbridos
Patatas
Retrocruzamiento.
Plant breendig
Melhoramento genético vegetal
Batata
Retrocruzamento
Progenie híbrida.
Potatoes
Hybrids
Backcrossing
Solanum chacoense.
spellingShingle Clone híbrido
Solanum tuberosum L
Fitomejoramiento
Híbridos
Patatas
Retrocruzamiento.
Plant breendig
Melhoramento genético vegetal
Batata
Retrocruzamento
Progenie híbrida.
Potatoes
Hybrids
Backcrossing
Solanum chacoense.
Clone híbrido
Solanum tuberosum L
Fitomejoramiento
Híbridos
Patatas
Retrocruzamiento.
Plant breendig
Melhoramento genético vegetal
Batata
Retrocruzamento
Progenie híbrida.
Potatoes
Hybrids
Backcrossing
Solanum chacoense.
OLIVEIRA, M. N. de
DAVIDE, L. C.
PINTO, C. A. B. P.
Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.
description The backcrosses of dihaploid Solanum tuberosum with wild species hybrids generating tetraploids progenies require the formation of non-reduced pollen. In this work, the mechanisms responsible for the formation of 2n pollen in 28 dihaploid Solanum tuberosum x Solanum chacoense hybrids were studied. Four mechanisms were found: parallelspindles (ps), fused spindles (fs), premature cytokinesis-1 (pc-1) and premature cytokinesis-2 (pc-2). The ps mechanism was the most frequent, being found in 23 of the 28 assessed clones. The ps and fs mechanisms led to the formation of dyads by first division restitution (FDR), transferring about 80% of the heterozygosity to the progenies. The pc-1 and pc-2 mechanisms also led to the formation of dyads, but they were genetically equivalent to second division restitution (SDR), transferring only 40% of the heterozygosity to the progenies. Occurrence of FDR and SDR were shown to be associated in 12 clones, indicating that the clones can produce non-reduced microspores by more than one mechanism. However, only one mechanism is functional in a single pollen-grain mother-cell. Clones 9-2, 9-3, 9-6 and 15-15 are recommended for use in 4x x 2x matings.
author2 MARCELO NASCIMENTO DE OLIVEIRA, CPAC; Lisete Chama Davide, Ufla; César Augusto Brasil Pereira Pinto, Ufla.
author_facet MARCELO NASCIMENTO DE OLIVEIRA, CPAC; Lisete Chama Davide, Ufla; César Augusto Brasil Pereira Pinto, Ufla.
OLIVEIRA, M. N. de
DAVIDE, L. C.
PINTO, C. A. B. P.
format Artigo de periódico
topic_facet Clone híbrido
Solanum tuberosum L
Fitomejoramiento
Híbridos
Patatas
Retrocruzamiento.
Plant breendig
Melhoramento genético vegetal
Batata
Retrocruzamento
Progenie híbrida.
Potatoes
Hybrids
Backcrossing
Solanum chacoense.
author OLIVEIRA, M. N. de
DAVIDE, L. C.
PINTO, C. A. B. P.
author_sort OLIVEIRA, M. N. de
title Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.
title_short Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.
title_full Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.
title_fullStr Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.
title_full_unstemmed Mechanisms of 2n potato pollen formation in dihaploid Solanum tuberosum L. x S. chacoense Bitt. hybrid clones.
title_sort mechanisms of 2n potato pollen formation in dihaploid solanum tuberosum l. x s. chacoense bitt. hybrid clones.
publishDate 1996-08-15
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/492133
work_keys_str_mv AT oliveiramnde mechanismsof2npotatopollenformationindihaploidsolanumtuberosumlxschacoensebitthybridclones
AT davidelc mechanismsof2npotatopollenformationindihaploidsolanumtuberosumlxschacoensebitthybridclones
AT pintocabp mechanismsof2npotatopollenformationindihaploidsolanumtuberosumlxschacoensebitthybridclones
_version_ 1756023161463242752

Similar Items