枯草芽孢杆菌ccpA基因敲除及对其核黄素产量的影响

CcpA蛋白是介导枯草芽孢杆菌碳分解代谢物阻遏(CCR)的全局调控因子,由ccpA基因编码。CCR效应的存在影响B.subtilis对葡萄糖的利用,降低B.subtilis生产发酵产品的效率。采用基因重组技术敲除了核黄素发酵菌株B.subtilis24/pMX45的ccpA基因,构建了CcpA缺陷株B.subtilis24A1/pMX45。发酵结果显示:B.subtilis24A1/pMX45能够在70h内基本耗尽10%的葡萄糖,生物量达到1.5×109个细胞/mL,溢流代谢产物积累量减少,在8%和10%葡萄糖浓度下,B.subtilis24A1/pMX45核黄素产量分别比B.subtilis24/pMX45提高了62%和95%。CcpA的缺陷,可以缓解葡萄糖引起的CCR效应,显著提高菌株的核黄素产量。     

枯草芽孢杆菌氧化还原感应全局调控因子Rex对乙偶姻合成的影响

【背景】枯草芽孢杆菌体内含有一种可响应胞内氧化还原水平的因子,称之为氧化还原感应全局调控因子Rex (由基因ydiH编码)。Rex可通过感知辅酶NADH/NAD+水平的变化来调节胞内氧化还原平衡。【目的】研究Rex对枯草芽孢杆菌乙偶姻合成和辅因子代谢的相关性。【方法】利用比较转录组挖掘乙偶姻和2,3-丁二醇可逆转化过程中显著差异的基因,并通过Cre/lox基因敲除技术敲除ydiH、acuA (乙酰AcsA)和acoC (二氢脂酰胺乙酰转移酶)。随后,利用实时荧光定量PCR (RT-qPCR)技术分析敲除菌株中乙偶姻相关基因的转录水平。【结果】通过发酵实验发现,敲除ydiH会在一定程度上抑制菌体的生长速率,但发酵前期乙偶姻单位细胞产量和底物转化率都得到了显著提高;敲除acuA和acoC后,对乙偶姻合成、菌体生长和糖耗速率均影响不大;敲除ydiH后,与乙偶姻合成相关基因alsR (alsSD的正转录调控因子)、alsS (α-乙酰乳酸合成酶)、alsD (α-乙酰乳酸脱羧酶)和bdhA (2,3-丁二醇脱氢酶)的转录水平显著上调。【结论】枯草芽孢杆菌氧化还原感应全局调控因子Rex通过抑制与...     

Solution structure and dynamics of Crh, the Bacillus subtilis catabolite repression HPr

The solution structure and dynamics of the Bacillus subtilis HPr-like protein, Crh, have been investigated using NMR spectroscopy. Crh exhibits high sequence identity (45 %) to the histidine-containing protein (HPr), a phospho-carrier protein of the phosphoenolpyruvate (PEP):carbohydrate phosphotransferase system, but contains no catalytic His15, the site of PEP-dependent phosphorylation in HPr. Crh also forms a mixture of monomers and dimers in solution whereas HPr is known to be monomeric. Complete backbone and side-chain assignments were obtained for the monomeric form, and 60 % of the dimer backbone resonances; allowing the identification of the Crh dimer interface from chemical-shift mapping. The conformation of Crh was determined to a precision of 0.46(+/-0.06) A for the backbone atoms, and 1.01(+/-0.08) A for the heavy atoms. The monomer structure is similar to that of known HPr 2.67(+/-0.22) A (C(alpha) rmsd), but has a few notable differences, including a change in the orientation of one of the helices (B), and a two-residue shift in beta-sheet pairing of the N-terminal strand with the beta4 strand. This shift results in a shortening of the surface loop present in HPr and consequently provides a flatter surface in the region of dimerisation contact, which may be related to the different oligomeric nature of these two proteins. A binding site of phospho-serine(P-Ser)-Crh with catabolite control protein A (CcpA) is proposed on the basis of highly conserved surface side-chains between Crh and HPr. This binding site is consistent with the model of a dimer-dimer interaction between P-Ser-Crh and CcpA. (15)N relaxation measured in the monomeric form also identified differential local mobility in the helix B which is located in the vicinity of this site.     

A Crh-specific function in carbon catabolite repression in Bacillus subtilis

Carbon catabolite repression in Bacillus subtilis is mediated by phosphorylation of the phosphoenolpyruvate:carbohydrate phosphotransferase system intermediate HPr at a serine residue catalyzed by HPr kinase. The orthologous protein Crh functions in a similar way, but, unlike HPr, it is not functional in carbohydrate uptake. A specific function for Crh is not known. The role of HPr and Crh in repressing the citM gene encoding the Mg(2+)-citrate transporter was investigated during growth of B. subtilis on different carbon sources. In glucose minimal medium, full repression was supported by both HPr and Crh. Strains deficient in Crh or the regulatory function of HPr revealed the same repression as the wild-type strain. In contrast, in a medium containing succinate and glutamate, repression was specifically mediated via Crh. Repression was relieved in the Crh-deficient strain, but still present in the HPr mutant strain. The data are the first demonstration of a Crh-specific function in B. subtilis and suggest a role for Crh in regulation of expression during growth on substrates other than carbohydrates.     

Search for additional replication terminators in the Bacillus subtilis 168 chromosome.

The Bacillus subtilis 168 chromosome is known to contain at least six DNA replication terminators in the terminus region of the chromosome. By using a degenerate DNA probe for the consensus terminator sequence and low-stringency hybridization conditions, several additional minor hybridizing bands were identified. DNA corresponding to the most intense of these bands was cloned and characterized. Although localized in the terminus region, it could not bind RTP and possibly represents a degenerate terminator. A search of the SubtiList database identified an additional terminator sequence in the terminus region, near glnA. It was shown to bind RTP and to function in blocking replication fork movement in a polar manner. Its orientation conformed to the replication fork trap arrangement of the other terminators. The low-stringency hybridization experiments failed to identify any terminus region-type terminators in the region of the chromosome where postinitiation control sequences (STer sites) are known to reside. The two most likely terminators in STer site regions, in terms of sequence similarity to terminus region terminators, were identified through sequence searching. They were synthesized and were found not to bind RTP under conditions that allowed binding to terminus region terminators. Neither did they elicit fork arrest, when present in a plasmid, under stringent conditions. It is concluded that the STer site terminators, at least the first two to the left of oriC, do not have the typical consensus A+B site makeup of terminus region terminators.