Seed shattering in weedy rice is not similarly regulated as in cultivated rice.

 

Autor(es):

MEROTTO JR., A. ; MARKUS, C. ; NUNES,A.L. ; KASPARY, T. E.

Tipo:

Conferencia

Versión:

Publicado

Resumen:

ABSTRACT:Although seed shattering is one of the main causes of weedy rice persistence it still is poorly understood. The aim of this study was to identify the main genes related with the occurrence of seed shattering in weedy rice. Gene expression and DNA sequencing of the coding and promoter region and a whole genome sequencing were performed in weedy and cultivated rice with contrasting seed shattering. The main genesassociated with the seed shattering in cultivated rice Sh4, qSH1 and SHAT1 were not important in weedy rice. The expression of the gene OsCPL1 was positively associated with high seed shattering in weedy rice, which is the opposite than in cultivated rice. This result is related to the absence of four SNPs and an indel in the OsCPL1 gene in weedy rice. The analysis of the expression of six genes related to cell wall synthesis/degradation pioneering revealed the importance of the genes OsXTH8 and OsCel9D to seed shattering in weedy rice. Thenucleotide variability of eight genes identified on a genome-wide re-sequencing study in cultivated rice indicated that only the genes Os01g0849100 and Os08g0512400 were associated with seed shattering in weedy rice. The whole genome sequencing of genotypes with high seed shattering indicates a variation on the promoter region of the gene OsXTH8. An insertion of G or C on this region next to the gibberellin motif was identified in all weedy rice genotypes with high seed shattering. This study evaluated jointly a series of genes involved in rice seedshattering and indicated that genes qSH1, Sh4 and SHAT1 are not important in weedy rice, and that the genes OsCPL1, OsCel9D, OsXTH8, Os08g0512400 and Os01g0849100 should be considered in studies of weedy rice evolution and in the development of mitigation approaches gene flow between cultivated and weedy rice.

Año:

2020

Idioma:

Inglés

Temas:

Abscission layer
Oryza sativa
QSH1
Red rice
Seed dispersal
Sh4.
ARROZ

Institución:

Instituto Nacional de Investigación Agropecuaria

Repositorio:

Ainfo

Enlace(s):

http://www.ainfo.inia.uy/consulta/busca?b=pc&id=62697&biblioteca=vazio&busca=62697&qFacets=62697

Nivel de acceso:

Acceso abierto