在锰存在的情况下,转移核糖核酸核苷酸转移酶的特异性改变。
Altered specificity of transfer-ribonucleic acid nucleotidyltransferase in the presence of manganese.
作者信息
Klemperer H G, Haynes G R
出版信息
Biochem J. 1967 Aug;104(2):537-44. doi: 10.1042/bj1040537.
Abstract
- s-RNA nucleotidyltransferase incorporated CMP into phosphodiesterase-treated s-RNA more rapidly in the presence of Mg(2+) (10mm) than in the presence of Mn(2+) (2mm). UMP was incorporated more rapidly in the presence of Mn(2+), and at high ionic strength the incorporation of CMP was also more rapid in the presence of Mn(2+). 2. The capacity of phosphodiesterase-treated s-RNA for CMP, UMP and AMP was increased in the presence of Mn(2+). Terminal sequences of more than one UMP or AMP residue were synthesized, but these atypical reactions were inhibited when CTP was added. CMP was incorporated rapidly to form -pCpC terminal sequences and then more slowly as longer chains were formed, but very little CMP was incorporated into s-RNA-pCpCpA. 3. CMP was incorporated into phosphodiesterase-treated 5s RNA and ribosomal RNA to form short chains of polyC attached to the primer RNA. This reaction was inhibited by the presence of s-RNA. 4. A small Mn(2+)-dependent incorporation of CMP was also primed by poly(A).(U) and poly(C).(I).
摘要
- 在存在Mg(2+)(10mM)的情况下,s-RNA核苷酸转移酶将CMP掺入经磷酸二酯酶处理的s-RNA中的速度比在存在Mn(2+)(2mM)的情况下更快。在存在Mn(2+)的情况下,UMP掺入速度更快,并且在高离子强度下,在存在Mn(2+)的情况下CMP的掺入也更快。2. 在存在Mn(2+)的情况下,经磷酸二酯酶处理的s-RNA对CMP、UMP和AMP的容纳能力增加。合成了多个UMP或AMP残基的末端序列,但当加入CTP时,这些非典型反应受到抑制。CMP迅速掺入形成-pCpC末端序列,然后随着形成更长的链掺入速度变慢,但很少有CMP掺入s-RNA-pCpCpA中。3. CMP被掺入经磷酸二酯酶处理的5s RNA和核糖体RNA中,形成连接到引物RNA上的聚C短链。s-RNA的存在会抑制该反应。4. 聚(A).(U)和聚(C).(I)也引发了少量依赖Mn(2+)的CMP掺入。
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