Chilley P M, Wilkins B M
Department of Genetics, University of Leicester, UK.
Microbiology (Reading). 1995 Sep;141 ( Pt 9):2157-64. doi: 10.1099/13500872-141-9-2157.
The ardA gene of I1 plasmid ColIb-P9 was previously shown to alleviate DNA restriction by type I enzymes and to promote conjugative transmission of the unmodified plasmid to a restricting host. To clarify the ecological role of ardA, its distribution was determined on plasmids from 23 incompatibility groups using hybridization to the coding sequence as an assay. Hybridizing sequences, shown by nucleotide sequencing to have at least 60% identity with ardA, were detected on plasmids belonging to the I complex (IncB, I1 and K), the F complex (IncFV) and the IncN group. The ardA homologues were found to specify an antirestriction phenotype which was enhanced by genetic depression of the plasmid transfer system. ardA loci map in plasmid leading regions but show no consistent association with a particular type of origin-of-transfer or a leading region gene of the ssb (single-stranded DNA-binding protein), psiB (plasmid SOS inhibition) and hok (host killing) families. It may be significant that ardA+ plasmids are authentic enterobacterial plasmids and that type I restriction systems are associated historically with members of the Enterobacteriaceae.
I1 质粒 ColIb - P9 的 ardA 基因先前已被证明可减轻 I 型酶对 DNA 的限制作用,并促进未修饰质粒向限制宿主的接合转移。为阐明 ardA 的生态作用,以与编码序列杂交作为检测方法,确定了其在来自 23 个不相容群的质粒上的分布情况。通过核苷酸测序显示与 ardA 具有至少 60% 同一性的杂交序列,在属于 I 复合体(IncB、I1 和 K)、F 复合体(IncFV)和 IncN 组的质粒上被检测到。发现 ardA 同源物具有抗限制表型,该表型可通过质粒转移系统的基因抑制作用而增强。ardA 基因座定位于质粒的先导区,但与特定类型的转移起始点或 ssb(单链 DNA 结合蛋白)、psiB(质粒 SOS 抑制)和 hok(宿主杀伤)家族的先导区基因没有一致的关联。ardA⁺ 质粒是真正的肠杆菌质粒,且 I 型限制系统在历史上与肠杆菌科成员相关,这可能具有重要意义。
