FrieslandCampina Research, Deventer, The Netherlands.
J Bacteriol. 2012 Jul;194(13):3522-33. doi: 10.1128/JB.06816-11. Epub 2012 Apr 20.
Sulfuric volatile compounds derived from cysteine and methionine provide many dairy products with a characteristic odor and taste. To better understand and control the environmental dependencies of sulfuric volatile compound formation by the dairy starter bacteria, we have used the available genome sequence and experimental information to systematically evaluate the presence of the key enzymes and to reconstruct the general modes of transcription regulation for the corresponding genes. The genomic organization of the key genes is suggestive of a subdivision of the reaction network into five modules, where we observed distinct differences in the modular composition between the families Lactobacillaceae, Enterococcaceae, and Leuconostocaceae, on the one hand, and the family Streptococcaceae, on the other. These differences are mirrored by the way in which transcription regulation of the genes is structured in these families. In the Lactobacillaceae, Enterococcaceae, and Leuconostocaceae, the main shared mode of transcription regulation is methionine (Met) T-box-mediated regulation. In addition, the gene metK, encoding S-adenosylmethionine (SAM) synthetase, is controlled via the S(MK) box (SAM). The S(MK) box is also found upstream of metK in species of the family Streptococcaceae. However, the transcription control of the other modules is mediated via three different LysR-family regulators, MetR/MtaR (methionine), CmbR (O-acetyl[homo]serine), and HomR (O-acetylhomoserine). Redefinition of the associated DNA-binding motifs helped to identify/disentangle the related regulons, which appeared to perfectly match the proposed subdivision of the reaction network.
半胱氨酸和蛋氨酸衍生的挥发性含硫化合物赋予许多乳制品以特征性的气味和味道。为了更好地理解和控制乳制品发酵剂细菌形成挥发性含硫化合物的环境依赖性,我们利用现有的基因组序列和实验信息,系统地评估了关键酶的存在,并重建了相应基因的转录调控的一般模式。关键基因的基因组组织暗示了将反应网络细分为五个模块,我们观察到乳杆菌科、肠球菌科和明串珠菌科一方面,与链球菌科之间,模块组成存在明显差异。这些差异反映在这些家族中基因转录调控的结构方式上。在乳杆菌科、肠球菌科和明串珠菌科中,主要的共同转录调控模式是蛋氨酸(Met)T 盒介导的调控。此外,编码 S-腺苷甲硫氨酸(SAM)合成酶的基因 metK 通过 S(MK)盒(SAM)进行控制。S(MK)盒也存在于链球菌科的物种中 metK 的上游。然而,其他模块的转录控制是通过三种不同的 LysR 家族调节剂介导的,MetR/MtaR(蛋氨酸)、CmbR(O-乙酰[同型]丝氨酸)和 HomR(O-乙酰高丝氨酸)。重新定义相关 DNA 结合基序有助于识别/区分相关调控子,这些调控子似乎与所提出的反应网络细分完美匹配。