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Genetic diversity of the self-incompatibility locus in diploid potato

Xinyu Jing, Duoduo Qian, Xiuhan Jiang, Pei Wang, Huihui Bao, Dianjue Li, Yanhui Zhu, Guangtao Zhu, Chunzhi Zhang

2024Journal of Integrative Agriculture6 citationsDOIOpen Access PDF

Abstract

• A total of twenty-one S-RNase alleles were identified from 194 diploid potatoes through transcriptome sequencing • The S-RNase proteins showed a high genetic diversity with amino acid similarity ranging from 31.3 to 95.8%. • Twelve candidate SLF genes were identified within the S2 haplotype. • The S-RNase genes and SLF genes have followed a different evolutionary trajectory in potato. Re-domestication of diploid potato ( Solanum tuberosum ) into a seed crop is an innovative breeding method to accelerate genetic improvement. Seed propagation would allow hybrid production and mix superior alleles. However, almost all diploid potatoes in nature are self-incompatible (SI). Gametophytic self-incompatible (GSI) is a widespread SI in Solanaceae and is controlled by the S locus that contains a ribonuclease ( S-RNase ) and multiple F-box ( SLFs ); however, the genetic diversity of the S locus in potato is unclear. In this study, we identified 21 S-RNase alleles involved in SI from 194 diploid potato accessions by large-scale transcriptome sequencing. The levels of amino acid similarity among different S-RNase proteins varied from 31.3 to 95.8% . S2 alleles is the most widespread in 194 diploid potato and is mainly distributed in the S. tuberosum Group Phureja. Based on genomic annotation and expression analysis, we identified 12 potential functional SI male-determinant genes, S-locus F-box ( SLF s), encoding F-box proteins in the S2 locus on a genomic region of approximately 13 Mb. Comparative genomics analysis showed that eight SLF genes are relatively conserved among four homozygous S locus. The Ka and Ks analysis suggested that S-RNase and intra-haplotypic SLF genes have undergone co-evolved. These findings can not only help to select suitable pollinators but also to combine more hybrid combinations and make full use of heterosis to accelerate diploid potato breeding.

Topics & Concepts

PloidyGenetic diversityLocus (genetics)BiologyGeneticsEvolutionary biologyDemographyGenePopulationSociologyPlant Reproductive BiologyLegume Nitrogen Fixing SymbiosisPlant Pathogens and Resistance