Molecular advancements in male sterility systems of Capsicum: A review |
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Authors: | Salesh Kumar Jindal Major Singh Dhaliwal Om Prakash Meena |
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Affiliation: | 1. Department of Vegetable Science, Punjab Agricultural University, Ludhiana, India;2. Directorate of Research, Punjab Agricultural University, Ludhiana, India |
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Abstract: | In recent years, plant molecular research on genetic mapping, gene tagging and cloning, and marker-assisted selection (MAS) have gained importance in crop improvement programmes. In Capsicum, several inter- and intra-specific genetic maps with wide distribution of markers covering the whole genome have been developed. Recently, whole genome of the hot pepper C. annuum, its wild progenitor C. annuum var. glabriusculum and C. baccatum has been sequenced. The Capsicum genome size has been estimated to be approx. 4× (3.48 Gb) the genome size of cultivated tomato (Solanum lycopersicum L.) (900 Mb). Breeders’ access to the pepper genomic information would facilitate the choice of markers from different linkage groups, thus paving the way for gene cloning and its introgression into the elite breeding lines through MAS. Till date, approx. 20 independently inherited nuclear male sterility (NMS) genes have been reported. Linked markers have been identified for ms1, ms3, ms8, ms10, msk, msc-1 and an undesignated gene. However, markers tightly linked to ms8 and ms10 are still lacking. Except ms1, ms3, ms8 and ms10, the map position of other NMS genes is not known. In cytoplasmic male sterility (CMS), markers for the mitochondrial gene atp6 have been developed and the gene cloned. Number of markers some very tightly linked to the restorer-of-fertility (Rf) gene have been identified. However, the actual map position of the Rf locus is still not determined. Another CMS-associated nuclear gene “pr” responsible for restoring partial fertility has been identified and tagged. In this review, we have compiled up-to-date information about the marker technology relating to the NMS and the CMS-associated genes in Capsicum. This information can be useful when screening Capsicum germplasm, developing NMS lines through MAS, improving efficiency of the NMS system, transferring rf gene for maintainer line breeding and Rf genes for restorer line breeding in CMS and assessing genetic purity of the hybrid seed. |
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Keywords: | Capsicum cytoplasmic male sterility genetic maps molecular markers nuclear male sterility |
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