Your search keyword '"Keqiang Fan"' showing total 4 results

1. JadR*-mediated feed-forward regulation of cofactor supply in jadomycin biosynthesis

Author

Keqiang Fan, Yanyan Zhang, Huarong Tan, Guohui Pan, Zhengzhong Zou, and Keqian Yang

Subjects

Streptomyces venezuelae, Regulation of gene expression, Oxygenase, biology, Plasma protein binding, biology.organism_classification, Microbiology, Cofactor, chemistry.chemical_compound, Biochemistry, Biosynthesis, chemistry, Gene cluster, biology.protein, NAD+ kinase, Molecular Biology

Abstract

Jadomycin production is under complex regulation in Streptomyces venezuelae. Here, another cluster-situated regulator, JadR*, was shown to negatively regulate jadomycin biosynthesis by binding to four upstream regions of jadY, jadR1, jadI and jadE in jad gene cluster respectively. The transcriptional levels of four target genes of JadR* increased significantly in ΔjadR*, confirming that these genes were directly repressed by JadR*. Jadomycin B (JdB) and its biosynthetic intermediates 2,3-dehydro-UWM6 (DHU), dehydrorabelomycin (DHR) and jadomycin A (JdA) modulated the DNA-binding activities of JadR* on the jadY promoter, with DHR giving the strongest dissociation effects. Direct interactions between JadR* and these ligands were further demonstrated by surface plasmon resonance, which showed that DHR has the highest affinity for JadR*. However, only DHU and DHR could induce the expression of jadY and jadR* in vivo. JadY is the FMN/FAD reductase supplying cofactors FMNH₂/FADH₂ for JadG, an oxygenase, that catalyses the conversion of DHR to JdA. Therefore, our results revealed that JadR* and early pathway intermediates, particularly DHR, regulate cofactor supply by a convincing case of a feed-forward mechanism. Such delicate regulation of expression of jadY could ensure a timely supply of cofactors FMNH₂/FADH₂ for jadomycin biosynthesis, and avoid unnecessary consumption of NAD(P)H.

Published

2013

2. A novel role of ‘pseudo’γ-butyrolactone receptors in controlling γ-butyrolactone biosynthesis in Streptomyces

Author

Huarong Tan, Weishan Wang, Linqi Wang, Guifeng Zhang, Juan Wang, Keqian Yang, and Keqiang Fan

Subjects

Streptomyces venezuelae, biology, Biochemistry, Transcription (biology), Gene cluster, Streptomyces coelicolor, Promoter, Binding site, biology.organism_classification, Secondary metabolism, Molecular Biology, Microbiology, Streptomyces

Abstract

In streptomycetes, a quorum-sensing mechanism mediated by gamma-butyrolactones (GBLs) and their cognate receptors was known to trigger secondary metabolism and morphological differentiation. However, many aspects on the control of GBL signal production are not understood. In this work, we report that ScbR2, the pseudo GBL receptor in Streptomyces coelicolor, negatively controls the biosynthesis of gamma-butyrolactone (SCB1) by directly repressing the transcription of scbA, which encodes the key enzyme for SCB1 biosynthesis. Similarly, the pseudo GBL receptor JadR2 in Streptomyces venezuelae was shown to repress the expression of jadW1, which also encodes the putative GBL synthase. These regulatory relationships were verified in Escherichia coli using lux-based reporter constructs. Additionally, the temporal expression profiles of scbA, scbR2 and scbR (receptor gene for SCB1) were examined in Streptomyces coelicolor, which showed the sequential expression of ScbR/R2 regulators in the control of SCB1 production. Overall, our results clearly demonstrated that pseudo GBL receptors play a novel role in controlling GBL biosynthesis in streptomycetes. As ScbR/R2 homologues and their binding sites upstream of GBL synthase genes are commonly found in Streptomyces species, and ScbR2 homologues cross-recognize each other's target promoters, the ScbA/R/R2 quorum-sensing regulatory system appears to represent an evolutionarily conserved signal control mechanism.

Published

2011

3. JadR*-mediated feed-forward regulation of cofactor supply in jadomycin biosynthesis

Author

Yanyan, Zhang, Guohui, Pan, Zhengzhong, Zou, Keqiang, Fan, Keqian, Yang, and Huarong, Tan

Subjects

Anthraquinones, Gene Expression Regulation, Bacterial, Surface Plasmon Resonance, Isoquinolines, Streptomyces, DNA-Binding Proteins, Bacterial Proteins, Genes, Bacterial, Multigene Family, Genes, Regulator, Promoter Regions, Genetic, NADP, Naphthoquinones, Protein Binding

Abstract

Jadomycin production is under complex regulation in Streptomyces venezuelae. Here, another cluster-situated regulator, JadR*, was shown to negatively regulate jadomycin biosynthesis by binding to four upstream regions of jadY, jadR1, jadI and jadE in jad gene cluster respectively. The transcriptional levels of four target genes of JadR* increased significantly in ΔjadR*, confirming that these genes were directly repressed by JadR*. Jadomycin B (JdB) and its biosynthetic intermediates 2,3-dehydro-UWM6 (DHU), dehydrorabelomycin (DHR) and jadomycin A (JdA) modulated the DNA-binding activities of JadR* on the jadY promoter, with DHR giving the strongest dissociation effects. Direct interactions between JadR* and these ligands were further demonstrated by surface plasmon resonance, which showed that DHR has the highest affinity for JadR*. However, only DHU and DHR could induce the expression of jadY and jadR* in vivo. JadY is the FMN/FAD reductase supplying cofactors FMNH₂/FADH₂ for JadG, an oxygenase, that catalyses the conversion of DHR to JdA. Therefore, our results revealed that JadR* and early pathway intermediates, particularly DHR, regulate cofactor supply by a convincing case of a feed-forward mechanism. Such delicate regulation of expression of jadY could ensure a timely supply of cofactors FMNH₂/FADH₂ for jadomycin biosynthesis, and avoid unnecessary consumption of NAD(P)H.

Published

2013

4. A novel role of 'pseudo'γ-butyrolactone receptors in controlling γ-butyrolactone biosynthesis in Streptomyces

Author

Juan, Wang, Weishan, Wang, Linqi, Wang, Guifeng, Zhang, Keqiang, Fan, Huarong, Tan, and Keqian, Yang

Subjects

DNA-Binding Proteins, 4-Butyrolactone, Bacterial Proteins, Base Sequence, Molecular Sequence Data, Down-Regulation, Receptors, Cell Surface, Streptomyces coelicolor, Gene Expression Regulation, Bacterial, Promoter Regions, Genetic, Receptors, GABA-A, Biosynthetic Pathways, Protein Binding

Abstract

In streptomycetes, a quorum-sensing mechanism mediated by γ-butyrolactones (GBLs) and their cognate receptors was known to trigger secondary metabolism and morphological differentiation. However, many aspects on the control of GBL signal production are not understood. In this work, we report that ScbR2, the pseudo GBL receptor in Streptomyces coelicolor, negatively controls the biosynthesis of γ-butyrolactone (SCB1) by directly repressing the transcription of scbA, which encodes the key enzyme for SCB1 biosynthesis. Similarly, the pseudo GBL receptor JadR2 in Streptomyces venezuelae was shown to repress the expression of jadW1, which also encodes the putative GBL synthase. These regulatory relationships were verified in Escherichia coli using lux-based reporter constructs. Additionally, the temporal expression profiles of scbA, scbR2 and scbR (receptor gene for SCB1) were examined in Streptomyces coelicolor, which showed the sequential expression of ScbR/R2 regulators in the control of SCB1 production. Overall, our results clearly demonstrated that pseudo GBL receptors play a novel role in controlling GBL biosynthesis in streptomycetes. As ScbR/R2 homologues and their binding sites upstream of GBL synthase genes are commonly found in Streptomyces species, and ScbR2 homologues cross-recognize each other's target promoters, the ScbA/R/R2 quorum-sensing regulatory system appears to represent an evolutionarily conserved signal control mechanism.

Published

2011