Aleksenko A Y, Clutterbuck A J
Genetics Laboratories, IBLS, University of Glasgow, Scotland, UK.
Curr Genet. 1995 Jun;28(1):87-93. doi: 10.1007/BF00311886.
Plasmids containing the AMA1 replicon are capable of autonomous maintenance in Aspergillus nidulans. It has been reported previously that these plasmids can form concatenates by recombination in a transformed mycelium, and up to 10% of molecules are involved in such events. The present study demonstrates that plasmid recombination, although frequent during transformation, rarely occurs during vegetative growth. As a result, the structure and phenotypic stability of AMA1 plasmids generally remains unaltered for many asexual (conidial) generations. It is also evident that plasmid replication does not require specific recombination events in the AMA1 palindrome. However, during sexual reproduction, autonomous plasmids exhibit increased recombination, which results in both plasmid concatenation and integration into the chromosome.
含有AMA1复制子的质粒能够在构巢曲霉中自主维持。此前已有报道称,这些质粒在转化的菌丝体中可通过重组形成串联体,多达10%的分子参与此类事件。本研究表明,质粒重组虽然在转化过程中频繁发生,但在营养生长期间很少发生。因此,AMA1质粒的结构和表型稳定性在许多无性(分生孢子)世代中通常保持不变。同样明显的是,质粒复制不需要AMA1回文序列中的特定重组事件。然而,在有性繁殖期间,自主质粒的重组增加,这导致质粒串联以及整合到染色体中。