Cargando…

Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety

BACKGROUND: Pyramiding multiple genes into a desirable genetic background can take years to accomplish. In this paper, a pseudo-backcrossing scheme was designed to shorten the backcrossing cycle needed. PinK3, an aromatic and potentially high-yielding rice variety—although one that is intolerant to...

Descripción completa

Detalles Bibliográficos
Autores principales: Ruengphayak, Siriphat, Chaichumpoo, Ekawat, Phromphan, Supaporn, Kamolsukyunyong, Wintai, Sukhaket, Wissarut, Phuvanartnarubal, Ekapol, Korinsak, Siripar, Korinsak, Siriporn, Vanavichit, Apichart
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer US 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4384721/
https://www.ncbi.nlm.nih.gov/pubmed/25844112
http://dx.doi.org/10.1186/s12284-014-0035-0
_version_ 1782364946752864256
author Ruengphayak, Siriphat
Chaichumpoo, Ekawat
Phromphan, Supaporn
Kamolsukyunyong, Wintai
Sukhaket, Wissarut
Phuvanartnarubal, Ekapol
Korinsak, Siripar
Korinsak, Siriporn
Vanavichit, Apichart
author_facet Ruengphayak, Siriphat
Chaichumpoo, Ekawat
Phromphan, Supaporn
Kamolsukyunyong, Wintai
Sukhaket, Wissarut
Phuvanartnarubal, Ekapol
Korinsak, Siripar
Korinsak, Siriporn
Vanavichit, Apichart
author_sort Ruengphayak, Siriphat
collection PubMed
description BACKGROUND: Pyramiding multiple genes into a desirable genetic background can take years to accomplish. In this paper, a pseudo-backcrossing scheme was designed to shorten the backcrossing cycle needed. PinK3, an aromatic and potentially high-yielding rice variety—although one that is intolerant to flash flooding (Sub) and susceptible to bacterial leaf blight (BB), leaf-neck blast (BL) and the brown planthopper (BPH)—was used as a genetic basis for significant improvements through gene pyramiding. RESULTS: Four resistance donors with five target genes (Sub1A-C, xa5, Xa21, TPS and SSIIa) and three QTLs (qBph3, qBL1 and qBL11) were backcrossed individually using markers into the pseudo-recurrent parent ‘PinK3’ via one cycle of backcrossing followed by two cycles of pseudo-backcrossing and three selfings with rigorous foreground marker-assisted selection. In total, 29 pseudo-backcross inbred lines (BILs) were developed. Genome composition was surveyed using 61 simple sequence repeats (SSRs), 35 of which were located on six carrier chromosomes, with the remainder located on six non-carrier chromosomes. The recurrent genome content (%RGC) and donor genome content (%DGC), which were based on the physical positions of BC(1)F(2), ranged from 69.99 to 88.98% and 11.02 to 30.01%, respectively. For the pseudo-BC(3)F(3)BILs, the %RGC and %DGC ranged from 74.50 to 81.30% and 18.70 to 25.50%, respectively. These results indicated that without direct background selection, no further increases in %RGC were obtained during pseudo-backcrossing, whereas rigorous foreground marker-assisted selection tended to reduce linkage drag during pseudo-backcrossing. The evaluation of new traits in selected pseudo-BC(3)F(3)BILs indicated significant improvements in resistance to BB, BL, BPH and Sub compared with PinK3, as well as significant improvements in grain yield (21-68%) over the donors, although yield was 7-26% lower than in ‘PinK3’. All pyramided lines were aromatic and exhibited improved starch profiles, rendering them suitable for industrial food applications. CONCLUSIONS: Results show that our new pyramiding platform, which is based on marker-assisted pseudo-backcrossing, can fix five target genes and three QTLs into a high-yielding pseudo-recurrent background within seven breeding cycles in four years. This multiple pseudo-backcrossing platform decreases the time required to generate new rice varieties exhibiting complex, durable resistance to biotic and abiotic stresses in backgrounds with desirable qualities. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12284-014-0035-0) contains supplementary material, which is available to authorized users.
format Online
Article
Text
id pubmed-4384721
institution National Center for Biotechnology Information
language English
publishDate 2015
publisher Springer US
record_format MEDLINE/PubMed
spelling pubmed-43847212015-04-04 Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety Ruengphayak, Siriphat Chaichumpoo, Ekawat Phromphan, Supaporn Kamolsukyunyong, Wintai Sukhaket, Wissarut Phuvanartnarubal, Ekapol Korinsak, Siripar Korinsak, Siriporn Vanavichit, Apichart Rice (N Y) Research BACKGROUND: Pyramiding multiple genes into a desirable genetic background can take years to accomplish. In this paper, a pseudo-backcrossing scheme was designed to shorten the backcrossing cycle needed. PinK3, an aromatic and potentially high-yielding rice variety—although one that is intolerant to flash flooding (Sub) and susceptible to bacterial leaf blight (BB), leaf-neck blast (BL) and the brown planthopper (BPH)—was used as a genetic basis for significant improvements through gene pyramiding. RESULTS: Four resistance donors with five target genes (Sub1A-C, xa5, Xa21, TPS and SSIIa) and three QTLs (qBph3, qBL1 and qBL11) were backcrossed individually using markers into the pseudo-recurrent parent ‘PinK3’ via one cycle of backcrossing followed by two cycles of pseudo-backcrossing and three selfings with rigorous foreground marker-assisted selection. In total, 29 pseudo-backcross inbred lines (BILs) were developed. Genome composition was surveyed using 61 simple sequence repeats (SSRs), 35 of which were located on six carrier chromosomes, with the remainder located on six non-carrier chromosomes. The recurrent genome content (%RGC) and donor genome content (%DGC), which were based on the physical positions of BC(1)F(2), ranged from 69.99 to 88.98% and 11.02 to 30.01%, respectively. For the pseudo-BC(3)F(3)BILs, the %RGC and %DGC ranged from 74.50 to 81.30% and 18.70 to 25.50%, respectively. These results indicated that without direct background selection, no further increases in %RGC were obtained during pseudo-backcrossing, whereas rigorous foreground marker-assisted selection tended to reduce linkage drag during pseudo-backcrossing. The evaluation of new traits in selected pseudo-BC(3)F(3)BILs indicated significant improvements in resistance to BB, BL, BPH and Sub compared with PinK3, as well as significant improvements in grain yield (21-68%) over the donors, although yield was 7-26% lower than in ‘PinK3’. All pyramided lines were aromatic and exhibited improved starch profiles, rendering them suitable for industrial food applications. CONCLUSIONS: Results show that our new pyramiding platform, which is based on marker-assisted pseudo-backcrossing, can fix five target genes and three QTLs into a high-yielding pseudo-recurrent background within seven breeding cycles in four years. This multiple pseudo-backcrossing platform decreases the time required to generate new rice varieties exhibiting complex, durable resistance to biotic and abiotic stresses in backgrounds with desirable qualities. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12284-014-0035-0) contains supplementary material, which is available to authorized users. Springer US 2015-02-05 /pmc/articles/PMC4384721/ /pubmed/25844112 http://dx.doi.org/10.1186/s12284-014-0035-0 Text en © Ruengphayak et al.; licensee Springer. 2015 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited.
spellingShingle Research
Ruengphayak, Siriphat
Chaichumpoo, Ekawat
Phromphan, Supaporn
Kamolsukyunyong, Wintai
Sukhaket, Wissarut
Phuvanartnarubal, Ekapol
Korinsak, Siripar
Korinsak, Siriporn
Vanavichit, Apichart
Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety
title Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety
title_full Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety
title_fullStr Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety
title_full_unstemmed Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety
title_short Pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety
title_sort pseudo-backcrossing design for rapidly pyramiding multiple traits into a preferential rice variety
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4384721/
https://www.ncbi.nlm.nih.gov/pubmed/25844112
http://dx.doi.org/10.1186/s12284-014-0035-0
work_keys_str_mv AT ruengphayaksiriphat pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT chaichumpooekawat pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT phromphansupaporn pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT kamolsukyunyongwintai pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT sukhaketwissarut pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT phuvanartnarubalekapol pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT korinsaksiripar pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT korinsaksiriporn pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety
AT vanavichitapichart pseudobackcrossingdesignforrapidlypyramidingmultipletraitsintoapreferentialricevariety