Betti M, Petrucco S, Bolchi A, Dieci G, Ottonello S
Istituto di Scienze Biochimiche, Università di Parma, I-43100 Parma, Italy.
J Biol Chem. 2001 May 25;276(21):18038-45. doi: 10.1074/jbc.M010648200. Epub 2001 Feb 27.
Two novel, structurally and functionally distinct phosphatases have been identified through the functional complementation, by maize cDNAs, of an Escherichia coli diphosphonucleoside phosphatase mutant strain. The first, ZmDP1, is a classical Mg(2+)-dependent and Li(+)-sensitive diphosphonucleoside phosphatase that dephosphorylates both 3'-phosphoadenosine 5'-phosphate (3'-PAP) and 2'-PAP without any discrimination between the 3'- and 2'-positions. The other, ZmDP2, is a distinct phosphatase that also catalyzes diphosphonucleoside dephosphorylation, but with a 12-fold lower Li(+) sensitivity, a strong preference for 3'-PAP, and the unique ability to utilize double-stranded DNA molecules with 3'-phosphate- or 3'-phosphoglycolate-blocking groups as substrates. Importantly, ZmDP2, but not ZmDP1, conferred resistance to a DNA repairdeficient E. coli strain against oxidative DNA-damaging agents generating 3'-phosphate- or 3'-phosphoglycolate-blocked single strand breaks. ZmDP2 shares a partial amino acid sequence similarity with a recently identified human polynucleotide kinase 3'-phosphatase that is thought to be involved in DNA repair, but is devoid of 5'-kinase activity. ZmDP2 is the first DNA 3'-phosphoesterase thus far identified in plants capable of converting 3'-blocked termini into priming sites for reparative DNA polymerization.
通过玉米cDNA对大肠杆菌二磷酸核苷磷酸酶突变菌株进行功能互补,鉴定出两种结构和功能不同的新型磷酸酶。第一种是ZmDP1,它是一种典型的依赖Mg(2+)且对Li(+)敏感的二磷酸核苷磷酸酶,可对3'-磷酸腺苷5'-磷酸(3'-PAP)和2'-PAP进行去磷酸化,对3'-位和2'-位没有任何区分。另一种是ZmDP2,它是一种不同的磷酸酶,也催化二磷酸核苷去磷酸化,但对Li(+)的敏感性低12倍,强烈偏好3'-PAP,并且具有独特的能力,能够利用带有3'-磷酸或3'-磷酸乙醇酸阻断基团的双链DNA分子作为底物。重要的是,ZmDP2而非ZmDP1赋予DNA修复缺陷的大肠杆菌菌株对产生3'-磷酸或3'-磷酸乙醇酸阻断的单链断裂的氧化性DNA损伤剂的抗性。ZmDP2与最近鉴定的人类多核苷酸激酶3'-磷酸酶具有部分氨基酸序列相似性,该酶被认为参与DNA修复,但缺乏5'-激酶活性。ZmDP2是迄今为止在植物中鉴定出的第一种能够将3'-阻断末端转化为修复性DNA聚合引发位点的DNA 3'-磷酸酯酶。
