resistens in its natural habitat, probably the histidine-rich inguinal and perineal areas of the human body. The ability of C. resistens to utilize l-histidine as a sole source of nitrogen was demonstrated by growth assays
in synthetic minimal media. Reverse transcriptase PCRs revealed enhanced transcript levels of the hut genes in C. resistens cells grown in the presence of l-histidine. Promoter-probe assays showed that the hut genes are organized in three transcription units: hutHUI,hutR, and hutG. The respective transcriptional start sites were mapped by 5′ RACE-PCR to detected putative promoter regions. DNA band shift assays with purified HutR protein identified Talazoparib the 14-bp DNA sequence TCTGwwATwCCAGA located upstream of the mapped promoters. This Selleckchem GSK3 inhibitor DNA motif includes a 4-bp terminal palindrome, which turned out
to be essential for HutR binding in vitro. These data add a new physiological function to the large IclR family of transcriptional regulators. Corynebacterium resistens was initially recovered from human infections and recognized as a new coryneform species that is highly resistant to antimicrobial agents (Otsuka et al., 2005). Corynebacterium resistens DSM 45100 represents the type strain of this species and was isolated from blood cultures of specimens taken from a patient with acute myelocytic leukemia. Very recently, the complete genome sequence of C. resistens DSM 45100 has been determined to delineate the putative lifestyle of this opportunistic pathogen on the human body (Schröder et al., 2012). In this context, a histidine utilization (hut) pathway was annotated, which is encoded by the hut gene cluster comprising the hutH, hutU, hutI, and hutG genes as well as the regulatory gene
hutR (Fig. 1). The protein products of orthologous genes catalyze Alanine-glyoxylate transaminase the four-step conversion of l-histidine to l-glutamate (Coote & Hassall, 1973). The presence of this pathway in C. resistens is remarkable, as this species probably colonizes the fatty and histidine-rich inguinal and perineal regions of the human body and thus lives in close proximity to the female genital tract (Schröder et al., 2012). Variable amounts of l-histidine are also present in the vaginal fluid (Dusitsin et al., 1967) and might be used by C. resistens as a combined nitrogen and carbon source, thereby compensating for the restricted catabolism of carbohydrates owing to the lipophilic lifestyle (Schröder et al., 2012). A comparative analysis of hut gene regions in the genus Corynebacterium revealed the presence of the respective cluster in few pathogenic species, although with different genetic organizations (Schröder et al., 2012). All corynebacterial hut gene clusters contain the hutR gene, encoding a transcriptional regulator of the IclR superfamily that is probably involved in the control of the histidine utilization genes. Members of the widely distributed IclR protein family can function as activators and/or repressors (Molina-Henares et al., 2006).
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