Abstract
AbstractThe development of two-line hybrid rice has done great contribution to the food security. It is imperative to study the male sterility mechanism of rice photo-thermo sensitive genic male sterile (PTGMS) line which is the core component of two-line hybrid rice. Zhu1S is a rice thermo-sensitive genic male sterile line used frequently as female parent in two-line hybrid seed production. A cytological examination of the development of the Zhu1S anther wall and the microspores showed that tms9 encoded male sterility is caused by the failure of the tapetum to degenerate normally, thereby starving the microspores and finally leading to pollen abortion. A fine-scale genetic map based on a large F2 population allowed tms9 to be located within a 30.2 Kb segment of chromosome 2 harboring seven open reading frames. A comparison between Zhu1S under sterile temperature condition (high temperature, male sterile) and fertile temperature condition (low temperature, fertile) showed that only one of the seven genes, LOC_Os02g12290, was differentially transcribed, with its transcript abundance being much lower under the sterile temperature growing condition. LOC_Os02g12290 encodes a nuclear ribonuclease Z. Re-sequencing demonstrated that the Zhu1S LOC_Os02g12290 allele differed from that present in non tms9 carrier alleles by two contiguous nucleotides in the first exon, inducing a truncated mRNA.
Highlights
The development of F1 hybrid rice cultivars over recent years has raised the yield potential of the crop by about 30 % (Chen et al 2007)
Rice photo-thermo sensitive genic male sterile (PTGMS) line whose fertility could reversion along with the changes of environmental conditions have attracted much attention of rice breeders and geneticists all the time (Peng et al 2010), and tremendous progress on the mechanism of rice PTGMS have been achieved in the past few decades
Previous researches of rice PTGMS mechanism were mainly focused on cytological characterization of pollen development, such as the characteristics changes of small spore morphology and morphological structures of four layers anther wall cells during pollen abortion period (Shi 1985)
Summary
The development of F1 hybrid rice cultivars over recent years has raised the yield potential of the crop by about 30 % (Chen et al 2007). Previous researches of rice PTGMS mechanism were mainly focused on cytological characterization of pollen development, such as the characteristics changes of small spore morphology and morphological structures of four layers anther wall cells (epidermis, endothecium, middle layer and tapetum layer) during pollen abortion period (Shi 1985). PCD mechanism involves in the tapetum cells degeneration during the pollen abortion period of rice PTGMS lines revealed by TUNEL staining (Ku et al 2003). By the reason of the earlier initialed tapetum PCD of rice PTGMS lines, together with the slower rate of PCD compared with that of normal rice varieties that caused tapetum could not provide sufficient nutrients for the developing small spores timely, result in the pollen abortion (Li et al 2011)
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