线粒体脱氧核糖核酸酶I在破坏分离细胞核形成凝胶能力方面的作用。

Action of mitochondrial DNAase I in destroying the capacity of isolated cell nuclei to form gels.

作者信息

DOUNCE A L, O'CONNELL M P, MONTY K J

出版信息

J Biophys Biochem Cytol. 1957 Sep 25;3(5):649-62. doi: 10.1083/jcb.3.5.649.

DOI:10.1083/jcb.3.5.649

PMID:13475382

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2224124/

Abstract

DNA prepared from non-gelable rat liver nuclei isolated in the presence of disrupted mitochondria at pH 6.0, has been compared with DNA obtained from gelable nuclei isolated at pH 4.0. The DNA of the non-gelable nuclei is partially depolymerized relative to the DNA of the gelable nuclei. 2. It has been found that sufficiently small quantities of crystallized DNAase I can cleave a very large part of the DNA of gelable nuclei isolated at pH 4 from the residual protein of these nuclei without causing extensive depolymerization of the DNA. At the same time the gelable nuclei are rendered non-gelable. 3. Partially purified DNAase II can also render gelable nuclei isolated at pH 4 non-gelable, and in so doing presumably also cleaves the DNA from the residual protein of the nuclei. 4. Mitochondrial DNAase I appears to be the enzyme responsible to a large extent for the cleavage of DNA from the residual protein of gelable rat liver cell nuclei with concomitant destruction of the gel-forming capability of these nuclei, when the nuclei are subjected to the action of disrupted mitochondria at pH 6.0 during the isolation procedure. 5. Mitochondrial DNAase II does not appear to exert appreciable action on nuclei during the course of isolation of the nuclei at pH 6.0 in the presence of disrupted mitochondria. 6. It is probable that DNAase I is not the sole enzyme responsible for destroying the gelability of nuclei isolated at pH 6.0 in the presence of disrupted mitochondria. Protease may be involved. 7. Sodium dodecyl sulfate at pH 6.0-6.3 cleaves the DNA of isolated gelable nuclei from the residual protein of these nuclei over a period of 2 to 3 hours. At pH 7.0-7.5, however, there is negligible cleavage over a period of 96 hours. 8. If non-gelable nuclei are isolated at pH 6.0 in the presence of disrupted mitochondria, DNA subsequently can be removed from them by the use of detergent at pH values ranging from 6.0-7.5 without the necessity of incubation in the detergent solution, since the DNA had already been detached from the residual protein by the action of the mitochondrial enzyme system during isolation of the nuclei.

摘要

将在pH 6.0条件下，于存在破碎线粒体的情况下分离得到的不可凝胶化大鼠肝细胞核制备的DNA，与在pH 4.0条件下分离得到的可凝胶化细胞核的DNA进行了比较。相对于可凝胶化细胞核的DNA，不可凝胶化细胞核的DNA发生了部分解聚。2. 已发现，足够少量的结晶型DNA酶I能够从pH 4条件下分离得到的可凝胶化细胞核的残余蛋白质中切割掉很大一部分DNA，而不会导致DNA发生广泛解聚。与此同时，可凝胶化细胞核会变成不可凝胶化。3. 部分纯化的DNA酶II也能使在pH 4条件下分离得到的可凝胶化细胞核变为不可凝胶化，并且在此过程中大概也会从细胞核的残余蛋白质中切割DNA。4. 当在分离过程中细胞核在pH 6.0条件下受到破碎线粒体的作用时，线粒体DNA酶I似乎是在很大程度上负责从可凝胶化大鼠肝细胞细胞核的残余蛋白质中切割DNA并同时破坏这些细胞核形成凝胶能力的酶。5. 线粒体DNA酶II在pH 6.0条件下，于存在破碎线粒体的情况下分离细胞核的过程中，似乎对细胞核没有明显作用。6. DNA酶I很可能不是在pH 6.0条件下，于存在破碎线粒体的情况下负责破坏细胞核凝胶化的唯一酶。蛋白酶可能也参与其中。7. pH 6.0 - 6.3的十二烷基硫酸钠在2至3小时内可从分离得到的可凝胶化细胞核的残余蛋白质中切割DNA。然而，在pH 7.0 - 7.5条件下，96小时内的切割作用可忽略不计。8. 如果在pH 6.0条件下，于存在破碎线粒体的情况下分离不可凝胶化细胞核，随后可通过使用pH值范围为6.0 - 7.5的去污剂从其中去除DNA，而无需在去污剂溶液中孵育，因为在细胞核分离过程中，DNA已通过线粒体酶系统的作用从残余蛋白质上脱离。