Wanner B L, Metcalf W W
Department of Biological Sciences, Purdue University, West Lafayette, IN 47907.
FEMS Microbiol Lett. 1992 Dec 15;100(1-3):133-9. doi: 10.1111/j.1574-6968.1992.tb14031.x.
Bacteria that use phosphonates as a phosphorus source must be able to break the stable carbon-phosphorus bond. In Escherichia coli phosphonates are broken down by a C-P lyase that has a broad substrate specificity. Evidence for a lyase is based on in vivo studies of product formation because it has been proven difficult to detect the activity in vitro. By using molecular genetic techniques, we have studied the genes for phosphonate uptake and degradation in E. coli, which are organized in an operon of 14 genes, named phnC to phnP. As expected for genes involved in P acquisition, the phnC-phnP operon is a member of the PHO regulon and is induced many hundred-fold during phosphate limitation. Three gene products (PhnC, PhnD and PhnE) comprise a binding protein-dependent phosphonate transporter, which also transports phosphate, phosphite, and certain phosphate esters such as phosphoserine; two gene products (PhnF and PhnO) may have a role in gene regulation; and nine gene products (PhnG, PhnH, PhnI, PhnJ, PhnK, PhnL, PhnM, PhnN, and PhnP) probably comprise a membrane-associated C-P lyase enzyme complex. Although E. coli can degrade many different phosphonates, the ability to use certain phosphonates appears to be limited by the specificity of the PhnCDE transporter and not by the specificity of the C-P lyase.
利用膦酸盐作为磷源的细菌必须能够打破稳定的碳 - 磷键。在大肠杆菌中,膦酸盐由具有广泛底物特异性的C-P裂解酶分解。裂解酶的证据基于对产物形成的体内研究,因为已证明在体外检测该活性很困难。通过使用分子遗传学技术,我们研究了大肠杆菌中膦酸盐摄取和降解的基因,这些基因组织在一个由14个基因组成的操纵子中,命名为phnC至phnP。正如参与磷获取的基因所预期的那样,phnC-phnP操纵子是PHO调节子的成员,在磷酸盐限制期间被诱导数百倍。三种基因产物(PhnC、PhnD和PhnE)构成一个依赖于结合蛋白的膦酸盐转运体,它也转运磷酸盐、亚磷酸盐和某些磷酸酯,如磷酸丝氨酸;两种基因产物(PhnF和PhnO)可能在基因调控中起作用;九种基因产物(PhnG、PhnH、PhnI、PhnJ、PhnK、PhnL、PhnM、PhnN和PhnP)可能构成一个与膜相关的C-P裂解酶复合物。尽管大肠杆菌可以降解许多不同的膦酸盐,但利用某些膦酸盐的能力似乎受到PhnCDE转运体特异性的限制,而不是C-P裂解酶的特异性。
