Pisum sativum endonuclease

Altaf A. Wani, Ronald W. Hart
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引用次数: 19

Abstract

An endonuclease purified from germinating pea (Pisum sativum) seeds has been shown to catalyze the hydrolysis of heat-denatured single-stranded DNA. Since P. sativum endonuclease shows appreciable activity in the presence of DNA destabilizing agents and, unlike many similar endonucleases, significant activity at neutral pH, it is a potentially valuable tool for studies of the secondary structure of nucleic acids. The residual hydrolysis of duplex DNA is directed towards partially denatured, A,T-rich areas in native DNA. The rate of hydrolysis of deoxypoly-nucleotides was in the order poly(dT) ⪢ denatured DNA > poly(dA) > poly(dA-dT) = native DNA. Neither poly(dC), poly(dG) nor poly(dC) · poly(dG) were attacked by the enzyme. Supercoiled, covalently closed circular phage PM2 form I DNA is converted to singly hit nicked circular form II and doubly hit linear form III duplexes. Prolonged treatment with enzyme does not further cleave the linear form III DNA. Addition of increasing concentrations of NaCl in the incubation mixture suppresses the conversion of form I to form II, but not the conversion of form II to form III, which is enhanced with the increasing ionic strength. The enzymatically relaxed circular form, I°, obtained by unwinding of supercoiled DNA with a DNA-relaxing protein, is resistant to the action of the enzyme. Molecules with intermediate superhelix densities do not serve as substrates. The sites of cleavage of P. sativum endonuclease in PM2 DNA occur within regions that are readily denaturable in a topologically constrained superhelical molecule.

油菜内切酶
从发芽的豌豆(Pisum sativum)种子中纯化的一种核酸内切酶已被证明可以催化热变性单链DNA的水解。由于sativum内切酶在DNA不稳定剂存在下显示出明显的活性,并且与许多类似的内切酶不同,它在中性pH下具有显著的活性,因此它是研究核酸二级结构的潜在有价值的工具。双链DNA的残余水解是针对部分变性,在天然DNA中富含A, t的区域。脱氧多核苷酸的水解速率为poly(dT)⪢变性DNA >保利(dA)比;poly(dA-dT) =天然DNA。聚(dC)、聚(dG)和聚(dC)·聚(dG)均未被酶攻击。超螺旋、共价封闭的环状噬菌体PM2型I DNA被转化为单击有缺口的环状型II和双击线性型III双链。长时间的酶处理不能进一步切割线性的III型DNA。在培养混合物中加入浓度增加的NaCl,抑制了形式I向形式II的转化,但不抑制形式II向形式III的转化,这种转化随着离子强度的增加而增强。酶放松的环状I°,是通过用DNA放松蛋白解开超卷曲DNA而得到的,它对酶的作用具有抗性。具有中间超螺旋密度的分子不作为底物。在PM2 DNA中,辣椒内切酶的切割位点发生在拓扑受限的超螺旋分子中容易变性的区域内。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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