Gomez-Escribano Juan Pablo, Liras Paloma, Pisabarro Agustín, Martín Juan F
Area de Microbiología, Facultad de Ciencias Biológicas y Ambientales, Universidad de León, Campus de Vegazana, s/n, 24071 León, Spain.
Mol Microbiol. 2006 Aug;61(3):758-70. doi: 10.1111/j.1365-2958.2006.05266.x. Epub 2006 Jun 27.
The transcriptional and translational control of the biosynthesis of the beta-lactamase inhibitor clavulanic acid is a subject of great scientific and industrial interest. To study the role of the ribosomal protein L11 on control of clavulanic acid gene transcription, the DNA region aspC-tRNA(trp)-secE-rplK-rplA-rplJ-rplL of Streptomyces clavuligerus was cloned and characterized. An S. clavuligerus rplK(DeltaPALG) mutant, with an internal 12 nucleotides in-frame deletion in the rplK gene, encoding the L11 (RplK) ribosomal protein lacking amino acids (29)PALG(32), was constructed by gene replacement. This deletion alters the L11 N-terminal domain that interacts with the RelA and class I releasing factors-mediated translational termination. The mutant grew well, showed threefold higher resistance to thiostrepton, did not form spores and lacked diffusible brown pigments, as compared with the wild-type strain. The wild-type phenotype was recovered by complementation with the native rplK gene. S. clavuligerus rplK(DeltaPALG) produced reduced levels of clavulanic acid (15-26% as compared with the wild type) and cephamycin C (40-50%) in cultures grown in defined SA and complex TSB media. The decreased yields resulted from an impaired transcription of the regulatory genes ccaR and claR and the cefD and ceaS2 genes for cephamycin and clavulanic acid biosynthesis respectively. Expression of ceaS2 encoding carboxyethylarginine synthase (CEAS), the precursor-committing enzyme for clavulanic acid biosynthesis, was particularly affected in this mutant. In the wild-type strain polyphosphorylated nucleotides peaked at 36-48 h of growth in SA cultures whereas expression of the cephamycin and clavulanic acid genes occurred 12-24 h earlier than the increase in ppGpp indicating that there is no strict correlation between the peak of ppGpp and the onset of transcription of the clavulanic acid and cephamycin C biosynthesis. The drastic effect of the rplK(DeltaPALG) mutation on the onset of expression of the ceaS2 and the regulatory ccaR and claR genes and the lack of correlation with ppGpp levels suggest that the onset of transcription of these genes is modulated by the conformational alteration of the N-terminal region of L11 probably by interaction with the nascent peptide releasing factors and with RelA.
β-内酰胺酶抑制剂棒酸生物合成的转录和翻译控制是一个具有重大科学和工业意义的课题。为了研究核糖体蛋白L11在棒酸基因转录控制中的作用,对棒状链霉菌的DNA区域aspC-tRNA(trp)-secE-rplK-rplA-rplJ-rplL进行了克隆和表征。通过基因替换构建了棒状链霉菌rplK(DeltaPALG)突变体,该突变体在rplK基因中有一个12个核苷酸的框内内部缺失,编码缺少氨基酸(29)PALG(32)的L11 (RplK)核糖体蛋白。这种缺失改变了与RelA和I类释放因子介导的翻译终止相互作用的L11 N端结构域。与野生型菌株相比,该突变体生长良好,对硫链丝菌素的抗性高3倍,不形成孢子且缺乏可扩散的棕色色素。通过用天然rplK基因互补恢复了野生型表型。在限定的SA和复杂的TSB培养基中培养时,棒状链霉菌rplK(DeltaPALG)产生的棒酸水平降低(与野生型相比为15 - 26%),头孢霉素C水平降低(40 - 50%)。产量下降是由于调控基因ccaR和claR以及分别用于头孢霉素和棒酸生物合成的cefD和ceaS2基因的转录受损。编码羧乙基精氨酸合酶(CEAS)的ceaS2的表达,即棒酸生物合成的前体决定酶,在该突变体中受到特别影响。在野生型菌株中,多磷酸化核苷酸在SA培养物中生长36 - 48小时时达到峰值,而头孢霉素和棒酸基因的表达比ppGpp增加提前12 - 24小时出现,这表明ppGpp的峰值与棒酸和头孢霉素C生物合成转录的开始之间没有严格的相关性。rplK(DeltaPALG)突变对ceaS2以及调控基因ccaR和claR表达开始的剧烈影响以及与ppGpp水平缺乏相关性表明,这些基因转录的开始可能通过L11 N端区域与新生肽释放因子和RelA的相互作用而受到L11构象改变的调节。
