孢子杀手的进化动力学

Evolutionary dynamics of spore killers.

作者信息

Nauta M J, Hoekstra R F

机构信息

Department of Genetics, Agricultural University, Wageningen, The Netherlands.

出版信息

Genetics. 1993 Nov;135(3):923-30. doi: 10.1093/genetics/135.3.923.

DOI:10.1093/genetics/135.3.923

PMID:8293989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1205731/

Abstract

Spore killing in ascomycetes is a special form of segregation distortion. When a strain with the Killer genotype is crossed to a Sensitive type, spore killing is expressed by asci with only half the number of ascospores as usual, all surviving ascospores being of the Killer type. Using population genetic modeling, this paper explores conditions for invasion of Spore killers and for polymorphism of Killers, Sensitives and Resistants (which neither kill, nor get killed), as found in natural populations. The models show that a population with only Killers and Sensitives can never be stable. The invasion of Killers and stable polymorphism only occur if Killers have some additional advantage during the process of spore killing. This may be due to the effects of local sib competition or some kind of "heterozygous" advantage in the stage of ascospore formation or in the short diploid stage of the life cycle. This form of segregation distortion appears to be essentially different from other, well-investigated forms, and more field data are needed for a better understanding of spore killing.

摘要

子囊菌中的孢子杀伤是一种特殊形式的分离畸变。当具有杀手基因型的菌株与敏感型菌株杂交时，孢子杀伤表现为子囊中存活的子囊孢子数量只有正常情况下的一半，且所有存活的子囊孢子都是杀手型。本文利用群体遗传模型，探讨了孢子杀手入侵的条件以及杀手、敏感型和抗性型（既不杀伤也不被杀伤）在自然种群中多态性的条件。模型表明，仅由杀手型和敏感型组成的种群永远不会稳定。只有当杀手型在孢子杀伤过程中具有一些额外优势时，杀手型的入侵和稳定多态性才会出现。这可能是由于局部同胞竞争的影响，或者是在子囊孢子形成阶段或生命周期的短二倍体阶段某种“杂合”优势的作用。这种分离畸变形式似乎与其他经过充分研究的形式有本质区别，需要更多的野外数据来更好地理解孢子杀伤现象。

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本文引用的文献

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