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对质粒复制的多层次选择。

Multileveled selection on plasmid replication.

作者信息

Paulsson Johan

机构信息

Department of Molecular Biology, Princeton University, Princeton, New Jersey 08544, USA.

出版信息

Genetics. 2002 Aug;161(4):1373-84. doi: 10.1093/genetics/161.4.1373.

Abstract

The replication control genes of bacterial plasmids face selection at two conflicting levels. Plasmid copies that systematically overreplicate relative to their cell mates have a higher chance of fixing in descendant cells, but these cells typically have a lower chance of fixing in the population. Apart from identifying the conflict, this mathematical discussion characterizes the efficiency of the selection levels and suggests how they drive the evolution of kinetic mechanisms. In particular it is hypothesized that: (1) tighter replication control is more vulnerable to selfishness; (2) cis-acting replication activators are relics of a conflict where a plasmid outreplicated its intracellular competitors by monopolizing activators; (3) high-copy plasmids with sloppy replication control arise because intracellular selection favors overreplication, thereby relieving intercellular selection for lower loss rates; (4) the excessive synthesis of cis-acting replication activators and trans-acting inhibitors is the result of an arms race between cis selfishness and trans retaliations; (5) site-specific recombination of plasmid dimers is equivalent to self-policing; and (6) plasmids modify their horizontal transfer to spread without promoting selfishness. It is also discussed how replication control may be subject to a third level of selection acting on the entire population of plasmid-containing cells.

摘要

细菌质粒的复制控制基因面临着两个相互冲突层面的选择。相对于其细胞内同伴系统性过度复制的质粒拷贝,在后代细胞中固定下来的机会更高,但这些细胞在群体中固定下来的机会通常较低。除了识别这种冲突外,本次数学讨论还描述了选择层面的效率,并提出了它们如何驱动动力学机制的进化。特别地,有如下假设:(1)更严格的复制控制更容易受到自私行为的影响;(2)顺式作用复制激活因子是一种冲突的遗留物,在这种冲突中,质粒通过垄断激活因子而比其细胞内竞争者复制得更多;(3)具有宽松复制控制的高拷贝质粒的出现是因为细胞内选择有利于过度复制,从而减轻了细胞间对较低丢失率的选择;(4)顺式作用复制激活因子和反式作用抑制剂的过度合成是顺式自私行为和反式报复之间军备竞赛的结果;(5)质粒二聚体的位点特异性重组等同于自我监管;(6)质粒会调整其水平转移以在不促进自私行为的情况下传播。还讨论了复制控制如何可能受到作用于整个含质粒细胞群体的第三层面选择的影响。

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