Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat

Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat

Wheat vernalization requirement is mainly controlled by the VRN1, VRN2, VRN3, and VRN4 genes. The first three have been cloned and have homoeologs in all three genomes. VRN4 has been found only in the D genome (VRN-D4) and has not been cloned. We constructed a high-density genetic map of the VRN-D4 region and mapped VRN-D4 within a 0.09 cM interval in the centromeric region of chromosome 5D. Using telocentric 5D chromosomes generated from the VRN-D4 donor Triple Dirk F, we determined that VRN-D4 is located on the short arm. The VRN-D4 candidate region is colinear with a 2.24 Mb region on Brachypodium distachyon chromosome 4, which includes 127 predicted genes. Ten of these genes have predicted roles in development but we detected no functional polymorphisms associated to VRN-D4. Two recombination events separated VRN-D4 from TaVIL-D1, the wheat homolog of Arabidopsis vernalization gene VIL1, confirming that this gene is not a candidate for VRN-D4. We detected significant interactions between VRN-D4 and other four genes controlling vernalization requirement (Vrn-A1, Vrn-B1, Vrn-D1, and Vrn-B3), which confirmed that VRN-D4 is part of the vernalization pathway and that it is either upstream or is part of the regulatory feedback loop involving VRN1, VRN2 and VRN3 genes. The precise mapping of VRN-D4 and the characterization of its interactions with other vernalization genes provide valuable information for the utilization of VRN-D4 in wheat improvement and for our current efforts to clone this vernalization gene.

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Main Authors: Kippes, Néstor Fabián, Zhu, Jie, Chen, Andrew, Vanzetti, Leonardo Sebastian, Lukaszewski, Adam, Nishida, Hidetaka, Kato, Kenji, Dvorak, Jan, Dubcovsky, Jorge
Format: info:ar-repo/semantics/artículo biblioteca
Language:eng
Published: 2014-02
Subjects:Trigo, Vernalización, Mapas Genéticos, Hexaploidia, Wheat, Vernalization, Genetic Maps, Hexaploidy,
Online Access:https://link.springer.com/article/10.1007/s00438-013-0788-y
http://hdl.handle.net/20.500.12123/2111
http://ri.conicet.gov.ar/handle/11336/28515
https://doi.org/10.1007/s00438-013-0788-y
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spelling oai:localhost:20.500.12123-21112018-03-23T17:36:48Z Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat Kippes, Néstor Fabián Zhu, Jie Chen, Andrew Vanzetti, Leonardo Sebastian Lukaszewski, Adam Nishida, Hidetaka Kato, Kenji Dvorak, Jan Dubcovsky, Jorge Trigo Vernalización Mapas Genéticos Hexaploidia Wheat Vernalization Genetic Maps Hexaploidy Wheat vernalization requirement is mainly controlled by the VRN1, VRN2, VRN3, and VRN4 genes. The first three have been cloned and have homoeologs in all three genomes. VRN4 has been found only in the D genome (VRN-D4) and has not been cloned. We constructed a high-density genetic map of the VRN-D4 region and mapped VRN-D4 within a 0.09 cM interval in the centromeric region of chromosome 5D. Using telocentric 5D chromosomes generated from the VRN-D4 donor Triple Dirk F, we determined that VRN-D4 is located on the short arm. The VRN-D4 candidate region is colinear with a 2.24 Mb region on Brachypodium distachyon chromosome 4, which includes 127 predicted genes. Ten of these genes have predicted roles in development but we detected no functional polymorphisms associated to VRN-D4. Two recombination events separated VRN-D4 from TaVIL-D1, the wheat homolog of Arabidopsis vernalization gene VIL1, confirming that this gene is not a candidate for VRN-D4. We detected significant interactions between VRN-D4 and other four genes controlling vernalization requirement (Vrn-A1, Vrn-B1, Vrn-D1, and Vrn-B3), which confirmed that VRN-D4 is part of the vernalization pathway and that it is either upstream or is part of the regulatory feedback loop involving VRN1, VRN2 and VRN3 genes. The precise mapping of VRN-D4 and the characterization of its interactions with other vernalization genes provide valuable information for the utilization of VRN-D4 in wheat improvement and for our current efforts to clone this vernalization gene. EEA Marcos Juárez Fil: Kippes, Néstor Fabián. University of California at Davis. Department of Plant Sciences; Estados Unidos Fil: Zhu, Jie. Washington State University. USDA-ARS Wheat Genetics, Quality, Physiology and Disease Research Unit; Estados Unidos Fil: Chen, Andrew. University of California at Davis. Department of Plant Sciences; Estados Unidos Fil: Vanzetti, Leonardo Sebastian. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Marcos Juárez. Grupo Biotecnología y Recursos Genéticos; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Lukaszewski, Adam. University of California. Department of Botany and Plant Sciences; Estados Unidos Fil: Nishida, Hidetaka. Okayama University. Graduate School of Environmental and Life Science; Japón Fil: Kato, Kenji. Okayama University. Graduate School of Environmental and Life Science; Japón Fil: Dvorak, Jan. University of California at Davis. Department of Plant Sciences; Estados Unidos Fil: Dubcovsky, Jorge. University of California at Davies. Department of Plant Sciences; Estados Unidos. Howard Hughes Medical Institute; Estados Unidos 2018-03-23T17:35:13Z 2018-03-23T17:35:13Z 2014-02 info:ar-repo/semantics/artículo info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion https://link.springer.com/article/10.1007/s00438-013-0788-y http://hdl.handle.net/20.500.12123/2111 http://ri.conicet.gov.ar/handle/11336/28515 1617-4615 (Print) 1617-4623 (Online) https://doi.org/10.1007/s00438-013-0788-y eng info:eu-repo/semantics/openAccess application/pdf Molecular Genetics and Genomics 289 (1) : 47–62 (February 2014)
institution INTA AR
collection DSpace
country Argentina
countrycode AR
component Bibliográfico
access En linea
databasecode dig-inta-ar
tag biblioteca
region America del Sur
libraryname Biblioteca Central del INTA Argentina
language eng
topic Trigo
Vernalización
Mapas Genéticos
Hexaploidia
Wheat
Vernalization
Genetic Maps
Hexaploidy
Trigo
Vernalización
Mapas Genéticos
Hexaploidia
Wheat
Vernalization
Genetic Maps
Hexaploidy
spellingShingle Trigo
Vernalización
Mapas Genéticos
Hexaploidia
Wheat
Vernalization
Genetic Maps
Hexaploidy
Trigo
Vernalización
Mapas Genéticos
Hexaploidia
Wheat
Vernalization
Genetic Maps
Hexaploidy
Kippes, Néstor Fabián
Zhu, Jie
Chen, Andrew
Vanzetti, Leonardo Sebastian
Lukaszewski, Adam
Nishida, Hidetaka
Kato, Kenji
Dvorak, Jan
Dubcovsky, Jorge
Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat
description Wheat vernalization requirement is mainly controlled by the VRN1, VRN2, VRN3, and VRN4 genes. The first three have been cloned and have homoeologs in all three genomes. VRN4 has been found only in the D genome (VRN-D4) and has not been cloned. We constructed a high-density genetic map of the VRN-D4 region and mapped VRN-D4 within a 0.09 cM interval in the centromeric region of chromosome 5D. Using telocentric 5D chromosomes generated from the VRN-D4 donor Triple Dirk F, we determined that VRN-D4 is located on the short arm. The VRN-D4 candidate region is colinear with a 2.24 Mb region on Brachypodium distachyon chromosome 4, which includes 127 predicted genes. Ten of these genes have predicted roles in development but we detected no functional polymorphisms associated to VRN-D4. Two recombination events separated VRN-D4 from TaVIL-D1, the wheat homolog of Arabidopsis vernalization gene VIL1, confirming that this gene is not a candidate for VRN-D4. We detected significant interactions between VRN-D4 and other four genes controlling vernalization requirement (Vrn-A1, Vrn-B1, Vrn-D1, and Vrn-B3), which confirmed that VRN-D4 is part of the vernalization pathway and that it is either upstream or is part of the regulatory feedback loop involving VRN1, VRN2 and VRN3 genes. The precise mapping of VRN-D4 and the characterization of its interactions with other vernalization genes provide valuable information for the utilization of VRN-D4 in wheat improvement and for our current efforts to clone this vernalization gene.
format info:ar-repo/semantics/artículo
topic_facet Trigo
Vernalización
Mapas Genéticos
Hexaploidia
Wheat
Vernalization
Genetic Maps
Hexaploidy
author Kippes, Néstor Fabián
Zhu, Jie
Chen, Andrew
Vanzetti, Leonardo Sebastian
Lukaszewski, Adam
Nishida, Hidetaka
Kato, Kenji
Dvorak, Jan
Dubcovsky, Jorge
author_facet Kippes, Néstor Fabián
Zhu, Jie
Chen, Andrew
Vanzetti, Leonardo Sebastian
Lukaszewski, Adam
Nishida, Hidetaka
Kato, Kenji
Dvorak, Jan
Dubcovsky, Jorge
author_sort Kippes, Néstor Fabián
title Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat
title_short Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat
title_full Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat
title_fullStr Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat
title_full_unstemmed Fine mapping and epistatic interactions of the vernalization gene VRN-D4 in hexaploid wheat
title_sort fine mapping and epistatic interactions of the vernalization gene vrn-d4 in hexaploid wheat
publishDate 2014-02
url https://link.springer.com/article/10.1007/s00438-013-0788-y
http://hdl.handle.net/20.500.12123/2111
http://ri.conicet.gov.ar/handle/11336/28515
https://doi.org/10.1007/s00438-013-0788-y
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