Haiyang Xia scite author profile

Streptomyces is taken as an important resource for producing the most abundant antibiotics and other bio-active natural products, which have been widely used in pharmaceutical and agricultural areas. Usually they are biosynthesized through secondary metabolic pathways encoded by cluster situated genes. And these gene clusters are stringently regulated by interweaved transcriptional regulatory cascades. In the past decades, great advances have been made to elucidate the regulatory mechanisms involved in antibiotic production in Streptomyces. In this review, we summarized the recent advances on the regulatory cascades of antibiotic production in Streptomyces from the following four levels: the signals triggering the biosynthesis, the global regulators, the pathway-specific regulators and the feedback regulation. The production of antibiotic can be largely enhanced by rewiring the regulatory networks, such as overexpression of positive regulators, inactivation of repressors, fine-tuning of the feedback and ribosomal engineering in Streptomyces. The enormous amount of genomic sequencing data implies that the Streptomyces has potential to produce much more antibiotics for the great diversities and wide distributions of biosynthetic gene clusters in Streptomyces genomes. Most of these gene clusters are defined cryptic for unknown or undetectable natural products. In the synthetic biology era, activation of the cryptic gene clusters has been successfully achieved by manipulation of the regulatory genes. Chemical elicitors, rewiring regulatory gene and ribosomal engineering have been employed to crack the potential of cryptic gene clusters. These have been proposed as the most promising strategy to discover new antibiotics. For the complex of regulatory network in Streptomyces, we proposed that the discovery of new antibiotics and the optimization of industrial strains would be greatly promoted by further understanding the regulatory mechanism of antibiotic production.

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Diversity of Telomere Palindromic Sequences and Replication Genes among Streptomyces Linear Plasmids

Zhang

Yang

Fang

et al. 2006

Appl Environ Microbiol

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Streptomyces sp. linear plasmids and linear chromosomes usually contain conserved terminal palindromic sequences bound by the conserved telomeric proteins Tap and Tp, encoded by the tap and tpg genes, respectively, as well as plasmid loci required for DNA replication in circular mode when the telomeres are deleted. These consist of iterons and an adjacent rep gene. By using PCR, we found that 8 of 17 newly detected linear plasmids in Streptomyces strains lack typical telomeric tap and tpg sequences. Instead, two novel telomeres in plasmids pRL1 and pRL2 from the eight strains and one conserved telomere in pFRL1 from the other strains were identified, while multiple short palindromes were also found in the plasmids. The complete nucleotide sequence of pRL2 revealed a gene encoding a protein containing two domains, resembling Tap of Streptomyces and a helicase of Thiobacillus, and an adjacent gene encoding a protein similar to Tpg of Streptomyces and a portion of the telomere terminal protein pTP of adenoviruses. No typical iterons-rep loci were found in the three plasmids. These results indicate an unexpected diversity of telomere palindromic sequences and replication genes among Streptomyces linear plasmids.Streptomyces species are gram-positive, high-GϩC, myceliumproducing eubacteria. Unlike the case for most eubacteria, linear plasmids and linear chromosomes are common in Streptomyces species (3,8,11,19,20,28). The linear plasmids vary in size between 12 kb (16) and 1,700 kb (19). Their telomeres contain long inverted repeat sequences of 44 bp (7) to 180 kb (21), and the 5Ј telomeric ends are linked covalently to terminal proteins (Tp) (1, 31). The telomeres of the ϳ8-Mb linear Streptomyces chromosomes are 46 bp to 1 Mb long (14,29). With the exceptions of the telomeres of the large linear plasmid SCP1 and the Streptomyces griseus linear chromosome (9, 18), Streptomyces linear plasmids and linear chromosomes usually contain conserved palindromic DNA sequences at their telomeres (13).Unlike the terminal protein-capped linear replicons of adenoviruses and bacteriophage ⌽29 (25), replication of Streptomyces linear plasmids starts at centrally located loci (27) and proceeds bidirectionally toward the telomeres (5). This leaves an ϳ280-nucleotide (nt) single-strand overhang at the 3Ј telomeric end of pSLA2 as a replication intermediate (5). To convert the 3Ј overhang to a double strand, the terminal 144 nt of the telomere contain short palindromes 1 to 5 (22), with palindromes 2/3 being bound by the conserved telomere-associated protein (Tap) to recruit the conserved telomere terminal protein (Tp) (1, 2).Streptomyces linear plasmids can also propagate in circular mode when the telomeres are deleted (5, 10, 24, 27). The centrally located locus for replication of pSLA2 consists of a rep-2 gene (encoding a DNA helicase) and its adjacent iterons within a transcribed rep-1 gene (6). The replication loci of plasmids SCP1 and pSLA2-L also consist of rep genes and different iteron sequences (10, 24). Such iterons-rep loci ...

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De Novo Sequencing and Transcriptome Analysis of Wolfiporia cocos to Reveal Genes Related to Biosynthesis of Triterpenoids

et al. 2013

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Wolfiporia cocos Ryvarden et Gilbertson is a saprophytic fungus in the Basidiomycetes. Its dried sclerotium is widely used as a traditional crude drug in East Asia. Especially in China, the dried sclerotium is regarded as the silver of the Chinese traditional drugs, not only for its white color, but also its medicinal value. Furthermore, triterpenoids from W. cocos are the main active compounds with antitumor and anti-inflammatory activity. Biosynthesis of the triterpenoids has rarely been researched. In this study, the de novo sequencing of the mycelia and sclerotia of W. cocos were carried out by Illumina HiSeq 2000. A total of 3,484,996,740 bp from 38,722,186 sequence reads of mycelia, and 3,573,921,960 bp from 39,710,244 high quality sequence reads of sclerotium were obtained. These raw data were assembled into 60,354 contigs and 40,939 singletons, and 56,938 contigs and 37,220 singletons for mycelia and sclerotia, respectively. The transcriptomic data clearly showed that terpenoid biosynthesis was only via the MVA pathwayin W. cocos. The production of total triterpenoids and pachymic acid was examined in the dry mycelia and sclerotia. The content of total triterpenoids was 5.36% and 1.43% in mycelia and sclerotia, respectively, and the content of pachymic acid was 0.458% and 0.174%. Some genes involved in the triterpenoid biosynthetic pathway were chosen to be verified by qRT-PCR. The unigenes encoding diphosphomevalonate decarboxylase (Unigene 20430), farnesyl diphosphate synthase (Unigene 14106 and 21656), hydroxymethylglutaryl-CoA reductase (NADPH) (Unigene 6395_All) and lanosterol synthase (Unigene28001_All) were upregulated in the mycelia stage. It is likely that expression of these genes influences the biosynthesis of triterpenoids in the mycelia stage.

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Sequential deletion of all the polyketide synthase and nonribosomal peptide synthetase biosynthetic gene clusters and a 900-kb subtelomeric sequence of the linear chromosome of Streptomyces coelicolor

Zhou

Jing

Xie

et al. 2012

FEMS Microbiol Lett

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Streptomyces coelicolor, with its 8 667 507-bp linear chromosome, is the genetically most studied Streptomyces species and is an excellent model for studying antibiotic production and cell differentiation. Here, we report construction of S. coelicolor derivatives containing sequential deletions of all the 10 polyketide synthase (PKS) and nonribosomal peptide synthetase (NRPS) biosynthetic gene clusters and a 900-kb subtelomeric sequence (total c. 1.22 Mb, 14% of the genome). No obvious differences in growth rates and sporulation of the strains were found. An artificially circularized S. coelicolor genome with deletions of total c. 1.6 Mb segments (840-kb for the left and 761-kb for the right arm of the linear chromosome) was obtained. The actinorhodin biosynthetic gene cluster could be overexpressed in some of the constructed strains.

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Haiyang Xia

The Application of Regulatory Cascades in Streptomyces: Yield Enhancement and Metabolite Mining

Diversity of Telomere Palindromic Sequences and Replication Genes among Streptomyces Linear Plasmids

De Novo Sequencing and Transcriptome Analysis of Wolfiporia cocos to Reveal Genes Related to Biosynthesis of Triterpenoids

Sequential deletion of all the polyketide synthase and nonribosomal peptide synthetase biosynthetic gene clusters and a 900-kb subtelomeric sequence of the linear chromosome of Streptomyces coelicolor

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