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‘凯蒂’杏(Prunus armeniaca L.)的自交亲和性与花粉部分突变有关。

Self-compatibility of 'Katy' apricot (Prunus armeniaca L.) is associated with pollen-part mutations.

作者信息

Wu Jun, Gu Chao, Du Yu-Hu, Wu Hua-Qing, Liu Wei-Sheng, Liu Ning, Lu Juan, Zhang Shao-Ling

机构信息

College of Horticulture, Nanjing Agricultural University, Nanjing, Jiangsu Province, People's Republic of China.

出版信息

Sex Plant Reprod. 2011 Mar;24(1):23-35. doi: 10.1007/s00497-010-0148-6. Epub 2010 Jul 24.

DOI:10.1007/s00497-010-0148-6
PMID:20658154
Abstract

Apricot (Prunus armeniaca L.) cultivars originated in China display a typical S-RNase-based gametophytic self-incompatibility (GSI). 'Katy', a natural self-compatible cultivar belonging to the European ecotype group, was used as a useful material for breeding new cultivars with high frequency of self-compatibility by hybridizing with Chinese native cultivars. In this work, the pollen-S genes (S-haplotype-specific F-box gene, or SFB gene) of 'Katy' were first identified as SFB₁ and SFB (8), and the S-genotype was determined as S₁ S₈. Genetic analysis of 'Katy' progenies under controlled pollination revealed that the stylar S₁-RNase and S₈-RNase have a normal function in rejecting wild-type pollen with the same S-haplotype, while the pollen grains carrying either the SFB₁ or the SFB₈ gene are both able to overcome the incompatibility barrier. However, the observed segregation ratios of the S-genotype did not fit the expected ratios under the assumption that the pollen-part mutations are linked to the S-locus. Moreover, alterations in the SFB₁ and SFB₈ genes and pollen-S duplications were not detected. These results indicated that the breakdown of SI in 'Katy' occurred in pollen, and other factors not linked to the S-locus, which caused a loss of pollen S-activity. These findings support a hypothesis that modifying factors other than the S-locus are required for GSI in apricot.

摘要

源自中国的杏(Prunus armeniaca L.)品种表现出典型的基于S-RNase的配子体自交不亲和性(GSI)。‘Katy’是一个属于欧洲生态型组的天然自交亲和品种,被用作通过与中国本土品种杂交培育高自交亲和频率新品种的有用材料。在这项研究中,首先鉴定出‘Katy’的花粉S基因(S单倍型特异性F-box基因,即SFB基因)为SFB₁和SFB₈,并确定其S基因型为S₁S₈。对‘Katy’后代在控制授粉条件下的遗传分析表明,花柱中的S₁-RNase和S₈-RNase在排斥具有相同S单倍型的野生型花粉方面具有正常功能,而携带SFB₁或SFB₈基因的花粉粒都能够克服不亲和障碍。然而,在假设花粉部分突变与S位点连锁的情况下,观察到的S基因型分离比不符合预期比例。此外,未检测到SFB₁和SFB₈基因的改变以及花粉S重复。这些结果表明,‘Katy’中自交不亲和性的破坏发生在花粉中,并且存在与S位点不连锁的其他因素,这些因素导致了花粉S活性的丧失。这些发现支持了一个假设,即杏中GSI需要S位点以外的修饰因子。

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