大肠杆菌K-12染色体复制起点的结构:ori区域中存在携带自主复制信息的间隔序列。
Structure of replication origin of the Escherichia coli K-12 chromosome: the presence of spacer sequences in the ori region carrying information for autonomous replication.
作者信息
Asada K, Sugimoto K, Oka A, Takanami M, Hirota Y
出版信息
Nucleic Acids Res. 1982 Jun 25;10(12):3745-54. doi: 10.1093/nar/10.12.3745.
Abstract
The replication origin region of the Escherichia coli K-12 chromosome has been cloned, and a region of 245 base-pairs has been shown to contain all the information for autonomous replication (defined ori). In order to obtain further information on the sequence organization in the defined ori stretch, various types of mutation were introduced by in vitro techniques at a restriction site (AvaII site) which locates near the middle of ori. When the correlation between these mutations and replicating function was examined, different effects were obtained with the types of mutation: the replicating function was completely destroyed by either insertion or deletion of short sequences, but not by base-substitutions. Based on these observations and on the fact that multi-gene products are involved in the initiation of replication, we assume that two categories of sequences are present within the ori stretch, one specifying interaction with initiation factors (recognition sequences) and the other spacing the recognition sequences in appropriate distances (spacer sequences), and that the AvaII site is located in the spacer region.
摘要
大肠杆菌K-12染色体的复制起始区域已被克隆,并且已证明一个245个碱基对的区域包含自主复制的所有信息(定义为ori)。为了获得关于定义的ori片段中序列组织的更多信息,通过体外技术在ori中间附近的一个限制性位点(AvaII位点)引入了各种类型的突变。当检查这些突变与复制功能之间的相关性时,不同类型的突变产生了不同的效果:短序列的插入或缺失会完全破坏复制功能,但碱基替换不会。基于这些观察结果以及多基因产物参与复制起始这一事实,我们假设ori片段内存在两类序列,一类指定与起始因子的相互作用(识别序列),另一类将识别序列间隔适当的距离(间隔序列),并且AvaII位点位于间隔区域。
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