Molecular Regulation of Antibiotic Biosynthesis in Streptomyces

Liu, Gang; Chater, Keith F.; Chandra, Govind; Niu, Guoqing; Tan, Huarong

doi:10.1128/mmbr.00054-12

Cited by 609 publications

(573 citation statements)

References 300 publications

(412 reference statements)

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“…The initiation of antibiotic biosynthesis is controlled at several levels genetically (Liu et al, 2013). The most basic and specific control involves genes encoding regulators that work only on one biosynthetic pathway.…”

Section: Discussionmentioning

confidence: 99%

Regulation of the biosynthesis of thiopeptide antibiotic cyclothiazomycin by the transcriptional regulator SHJG8833 in Streptomyces hygroscopicus 5008

Zhang

Chen

et al. 2014

Microbiology

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Cyclothiazomycin is a member of the thiopeptide antibiotics, which are usually complicated derivatives of ribosomally synthesized peptides. A gene cluster containing 12 ORFs identical to the clt cluster encoding cyclothiazomycin from Streptomyces hygroscopicus 10-22 was revealed by genome sequencing in S. hygroscopicus 5008. Genes SHJG8833 and SHJG8837 of the cluster and flanking gene SHJG8838 were predicted to encode regulatory proteins from different families. In this study, we showed that the newly identified cluster is functional and we investigated the roles of these regulatory genes in the regulation of cyclothiazomycin biosynthesis. We determined that SHJG8833, but not SHJG8837 or SHJG8838, is critical for cyclothiazomycin biosynthesis. The transcriptional start point of SHJG8833 was located to a thymidine 54 nt upstream of the start codon. Inactivation of SHJG8833 abrogated the production of cyclothiazomycin, and synthesis could be restored by reintroducing SHJG8833 into the mutant strain. Gene expression analyses indicated that SHJG8833 regulates a consecutive set of seven genes from SHJG8826 to SHJG8832, whose products are predicted to be involved in different steps in the construction of the main framework of cyclothiazomycin. Transcriptional analysis indicated that these seven genes may form two operons, SHJG8826-27 and SHJG8828-32. Gel-shift analysis demonstrated that the DNA-binding domain of SHJG8833 binds the promoters of SHJG8826 and SHJG8828 and sequences internal to SHJG8826 and SHJG8829, and a conserved binding sequence was deduced. These results indicate that SHJG8833 is a positive regulator that controls cyclothiazomycin biosynthesis by activating structural genes in the clt cluster.

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Section: Discussionmentioning

confidence: 99%

Regulation of the biosynthesis of thiopeptide antibiotic cyclothiazomycin by the transcriptional regulator SHJG8833 in Streptomyces hygroscopicus 5008

Zhang

Chen

et al. 2014

Microbiology

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“…It was found that 15 N-JadX bound Cm at both pH values, with minimal loss in signal intensities ( Figure S19). With Water-LOGSY results comparable at pH 6.6 and 7.6, a series of 1 curve ( Figure 6D) that was fit using nonlinear regression (Equation S2). 48 The measured K d value of 232 μM was lower than that observed with the WaterLOGSY methodology and significantly tighter than the nonspecific binding 48 we have recently observed for JdDS interactions with a series of unrelated enzymes.…”

Section: ■ Introductionmentioning

confidence: 99%

JadX is a Disparate Natural Product Binding Protein

Robertson¹,

Forget²,

Martinez-Farina³

et al. 2016

J. Am. Chem. Soc.

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“…In contrast to the moe genes, the tchm genes do not contain TTA codons, which are known to limit moenomycin production at the translational level, in their coding sequences (Makitrynskyy et al, 2013). In general, tRNA Leu UAA (encoded by bldA gene) is an important and widespread regulatory switch in Streptomycetes Chandra and Chater 2008;Liu et al 2013). It is likely that the tchm cluster is not subject to direct bldA control.…”

Section: Annotation and Analysis Of The Teichomycin Gene Clustermentioning

confidence: 99%