大鼠肝脏细胞质中酶对核糖核酸的链延伸作用。
Chain extension of ribonucleic acid by enzymes from rat liver cytoplasm.
作者信息
Wilkie N M, Smellie R M
出版信息
Biochem J. 1968 Oct;109(4):485-94. doi: 10.1042/bj1090485.
Abstract
- The 105000g supernatant fraction of rat liver catalyses the incorporation of ribonucleotides from ribonucleoside triphosphates into polyribonucleotide material. The reaction requires Mg(2+) ions and is enhanced by the addition of an ATP-generating system and RNA, ATP, UTP and CTP but not GTP are utilized in this reaction. In the case of UTP, the product is predominantly a homopolymer containing 2-3 uridine residues, and there is evidence that these may be added to the 3'-hydroxyl ends of RNA or oligoribonucleotide primers. 2. The microsome fraction of rat liver incorporates ribonucleotides from ATP, GTP, CTP and UTP into polyribonucleotide material. This reaction requires Mg(2+) ions and is enhanced slightly by the addition of an ATP-generating system, and by RNA but not DNA. Supplementation of the reaction mixture with the three complementary ribonucleoside 5'-triphosphates greatly increases the utilization of a single labelled ribonucleoside 5'-triphosphate. The optimum pH is in the range 7.0-8.5, and the reaction is strongly inhibited by inorganic pyrophosphate and to a much smaller degree by inorganic orthophosphate. It is not inhibited by actinomycin D or by deoxyribonuclease. In experiments with [(32)P]UTP in the absence of ATP, GTP and CTP, 80-90% of (32)P was recovered in UMP-2' or -3' after alkaline hydrolysis of the reaction product. When the reaction mixture was supplemented with ATP, GTP and CTP, however, about 40% of the (32)P was recovered in nucleotides other than UMP-2' or -3'. Although the reactions seem to lead predominantly to the synthesis of homopolymers, the possibility of some formation of some heteropolymer is not completely excluded.
摘要
- 大鼠肝脏105000g上清液组分催化核糖核苷三磷酸中的核糖核苷酸掺入多核糖核苷酸物质。该反应需要Mg(2+)离子,添加ATP生成系统、RNA可增强此反应,ATP、UTP和CTP参与此反应,但GTP不参与。就UTP而言,产物主要是含有2 - 3个尿苷残基的同聚物,有证据表明这些残基可能添加到RNA或寡核糖核苷酸引物的3'-羟基末端。2. 大鼠肝脏微粒体组分将ATP、GTP、CTP和UTP中的核糖核苷酸掺入多核糖核苷酸物质。该反应需要Mg(2+)离子,添加ATP生成系统和RNA可使其略有增强,而DNA则无此作用。向反应混合物中补充三种互补的核糖核苷5'-三磷酸可大大提高单一标记核糖核苷5'-三磷酸的利用率。最适pH范围为7.0 - 8.5,该反应受到无机焦磷酸的强烈抑制,受到无机正磷酸的抑制程度则小得多。它不受放线菌素D或脱氧核糖核酸酶的抑制。在无ATP、GTP和CTP的情况下用[(32)P]UTP进行实验,反应产物经碱性水解后,80 - 90%的(32)P在UMP - 2'或 - 3'中回收。然而,当反应混合物中补充了ATP、GTP和CTP时,约40%的(32)P在UMP - 2'或 - 3'以外的核苷酸中回收。尽管这些反应似乎主要导致同聚物的合成,但并不完全排除有一些杂聚物形成的可能性。
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