Abstract
Breeding hybrids with nuclear malesterile lines is an important method for the cross-breeding of sweet peppers. To date, few reports have been published on the nuclear malesterility gene of sweet pepper. Yet, there are approximately 20 pepper nuclear malesterility lines in the world. Using the self-developed testing material, sweet pepper nuclear malesterile dual-purpose line AB91, the genome-wide resequencing technique was applied to find that the mutation site causing the abortion of sweet pepper nuclear malesterility AB91 is on chromosome #5. The mutation gene Capana05g000747 was filtered out and validated by the flight mass spectrometry genotyping and quantitative realtime PCR method and determined to be the gene causing the abortion of sweet pepper nuclear male sterility AB91. The gene Capana05g000747 mutation site is a non-synonymous mutation site located at the 6th exon, the base C mutated into A, and the amino acid changed from alanine to serine. The three-dimensional protein structure of fertile and sterile plant Capana05g000747 was predicted. The results showed that the three-dimensional structure of the two proteins differed significantly. Sequence alignment analysis showed that the gene Capana05g000747 has a similar function to gene At2g02148. The gene At2g02148 contains a pentatricopeptide repeat protein which has important physiological functions in the gene expression process of organelles and is closely related to the performance of malesterility genes. Therefore, Capana05g000747 was selected as an important candidate gene for sweet pepper nuclear male sterile testing material AB91.
Highlights
Sweet pepper (Capsicum annuumvar. grossum) is a one-year or perennial crop in the Solanaceae and a variant of pepper
The mutation gene Capana05g000747 was filtered out and validated by the flight mass spectrometry genotyping and quantitative realtime PCR method and determined to be the gene causing the abortion of sweet pepper nuclear male sterility AB91
The gene Capana05g000747 mutation site is a non-synonymous mutation site located at the 6th exon, the base C mutated into A, and the amino acid changed from alanine to serine
Summary
Sweet pepper (Capsicum annuumvar. grossum) is a one-year or perennial crop in the Solanaceae and a variant of pepper. The heterosis of sweet pepper has high utilization value and using male infertility to breed hybrids is an important approach to solving the problem of artificial emasculation. Due to the lack of recovery genes for male sterility in the sweet pepper nucleus and the difficulty of finding excellent recovery lines, the breeding and application of cytoplasmic male sterility in sweet pepper hybrids are limited. The genetics of sweet pepper nucleus male sterility is relatively simpler and the number of recovery sources is relatively large, which are a great advantage inbreeding sweet pepper hybrids. Nearly 20 nuclear sterility genes have been discovered in peppers [2] [3] [4]. There are very few reports on the sweet pepper nuclear male sterility genes
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