Identification of S-RNase Genotypes of 65 Almond [Prunus dulcis (Mill.) D.A. Webb] Germplasm Resources and Close Relatives

IF 3.1 3区 农林科学 Q1 HORTICULTURE
Panyun Xu, Lirong Wang, Xin-Wei Wang, Yeting Xu, Yarmuhammat Ablitip, Chunmiao Guo, M. Ayup
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Abstract

Self-incompatibility (SI) systems in plants prevent self-pollination and mating among relatives, enhancing genetic diversity in nature but posing challenges in almond production and breeding. S-allele composition alongside the flowering periods of these cultivars enables the anticipation of cross-compatibility and optimal cultivar combinations for the allocation of pollinating trees in production. In the current study, 65 materials containing 61 almond (Prunus dulcis) germplasm resources, of which two were hybrids and the remaining four were peach (Prunus persica) germplasms, were used for the S-RNase genotype. The results showed that 55 genomic samples were amplified by PCR to obtain double-banded types, which identified their complete S-RNase genotypes, while the rest of the samples amplified only a single band, identifying one S-RNase gene in the S gene. A total of 30 S-RNase genes were identified in Prunus dulcis, Prunus webbii, Prunus persica, Prunus armeniaca, Prunus salicina, and Prunus cerasifera. Sequence analysis revealed polymorphisms spanning from 313 to 2031 bp within the amplified fragment sequence. The S57-RNase gene exhibited the highest frequency at 31.75% among the identified materials, with S1S57, S10S57, and S7S57 being the predominant S genotypes. A new S-RNase gene, named S65, was identified with a sequencing length of 1483 bp. Its deduced amino acid sequence shared 98.24% similarity with the amino acid sequence of the S-RNase gene on GenBank, with the highest homology. Furthermore, according to the findings, 65 materials belong to eight S genotype cross-incompatibility groups (CIG) and one semi-compatibility or compatibility group (0). Among them, most of the seven main almond germplasm resources and 35 cultivars can be cross-pollinated. The results of the study can lay the foundation for pollinator tree allocation and breeding hybrid parent selection in almond production.
65 种杏仁[Prunus dulcis (Mill.) D.A. Webb]种质资源和近缘种的 S-RNase 基因型鉴定
植物的自交不亲和性(SI)系统可防止近缘植物间的自花授粉和交配,从而提高了自然界的遗传多样性,但也给杏仁的生产和育种带来了挑战。根据这些栽培品种花期的 S-等位基因组成,可以预测杂交相容性和最佳栽培品种组合,以便在生产中分配授粉树。在本研究中,65 份材料包含 61 份杏树(Prunus dulcis)种质资源,其中 2 份为杂交种,其余 4 份为桃树(Prunus persica)种质资源,用于 S-RNase 基因型的研究。结果表明,55 个基因组样品经 PCR 扩增得到双带型,确定了其完整的 S-RNase 基因型,其余样品仅扩增出单带,确定了 S 基因中的一个 S-RNase 基因。在脆李、webbii 李、柿子李、杏李、水杨梅和苹果李中共鉴定出 30 个 S-RNase 基因。序列分析表明,扩增片段序列存在 313 至 2031 bp 的多态性。在已鉴定的材料中,S57-RNase 基因的频率最高,为 31.75%,其中 S1S57、S10S57 和 S7S57 是主要的 S 基因型。鉴定出了一个新的 S-RNase 基因,命名为 S65,测序长度为 1483 bp。其推导出的氨基酸序列与 GenBank 上的 S-RNase 基因氨基酸序列相似度为 98.24%,同源性最高。此外,根据研究结果,65 个材料属于 8 个 S 基因型交叉不相容组(CIG)和 1 个半相容或相容组(0)。其中,7 个主要杏树种质资源和 35 个栽培品种中的大部分可以进行异花授粉。研究结果可为杏仁生产中授粉树的配置和杂交亲本的选育奠定基础。
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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