Ute Galm scite author profile

The tallysomycins (TLMs) belong to the bleomycin (BLM) family of antitumor antibiotics. The BLM biosynthetic gene cluster has been cloned and characterized previously from Streptomyces verticillus ATCC 15003, but engineering BLM biosynthesis for novel analogs has been hampered by the lack of a genetic system for S. verticillus. We now report the cloning and sequencing of the TLM biosynthetic gene cluster from Streptoalloteichus hindustanus E465-94 ATCC 31158 and the development of a genetic system for S. hindustanus, demonstrating the feasibility to manipulate TLM biosynthesis in S. hindustanus by gene inactivation and mutant complementation. Sequence analysis of the cloned 80.2 kb region revealed 40 open reading frames (ORFs), 30 of which were assigned to the TLM biosynthetic gene cluster. The TLM gene cluster consists of nonribosomal peptide synthetase (NRPS) genes encoding nine NRPS modules, a polyketide synthase (PKS) gene encoding one PKS module, genes encoding seven enzymes for deoxysugar biosynthesis and attachment, as well as genes encoding other biosynthesis, resistance, and regulatory proteins. The involvement of the cloned gene cluster in TLM biosynthesis was confirmed by inactivating the tlmE glycosyltransferase gene to generate a TLM non-producing mutant and by restoring TLM production to the DeltatlmE::ermE mutant strain upon expressing a functional copy of tlmE. The TLM gene cluster is highly homologous to the BLM cluster, with 25 of the 30 ORFs identified within the two clusters exhibiting striking similarities. The structural similarities and differences between TLM and BLM were reflected remarkably well by the genes and their organization in their respective biosynthetic gene clusters.

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Glycopeptide Antitumor Antibiotic Zorbamycin from Streptomyces flavoviridis ATCC 21892: Strain Improvement and Structure Elucidation

Wang

Yun

George

et al. 2007

J. Nat. Prod.

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Zorbamycin (1, ZBM) is a glycopeptide antitumor antibiotic first reported in 1971. The partial structures of 1 were speculated on the basis of its acid hydrolysis products, but the structure of the intact molecule has never been established. The low titer of 1 from the wild-type strain, combined with its acid-instability, has so far hampered its isolation. By random mutagenesis of Streptomyces flavoviridis ATCC21892, a wild-type producer of 1, with UV irradiation, two high-producing strains of 1, S. flavoviridis SB9000 and SB9001, were isolated. Under the optimized fermentation conditions, these two strains produced about 10 mg/L of 1, which was about 10-fold higher than the wild-type ATCC21892 strain, as estimated by HPLC analysis. Finally, 1 was isolated as both a 1-Cu complex and Cu-free molecule, and the intact structure of 1 was established on the basis of a combination of mass spectrometry and 1H and 13C NMR spectroscopic analyses.

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The biosyntheticgene cluster of zorbamycin, a member of the bleomycin family of antitumor antibiotics, from Streptomyces flavoviridis ATCC 21892

Galm

Wendt-Pienkowski

et al. 2009

Mol. BioSyst.

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The biosynthetic gene cluster for the glycopeptide-derived antitumor antibiotic zorbamycin (ZBM) was cloned by screening a cosmid library of Streptomyces flavoviridis ATCC 21892. Sequence analysis revealed 40 ORFs belonging to the ZBM biosynthetic gene cluster. However, only 23 and 22 ORFs showed striking similarities to the biosynthetic gene clusters for the bleomycins (BLMs) and tallysomycins (TLMs), respectively; the remaining ORFs do not show significant homology to ORFs from the related BLM and TLM clusters. The ZBM gene cluster consists of 16 nonribosomal peptide synthetase (NRPS) genes encoding eight complete NRPS modules, three incomplete didomain NRPS modules, and eight freestanding single NRPS domains or associated enzymes, a polyketide synthase (PKS) gene encoding one PKS module, six sugar biosynthesis genes, as well as genes encoding other biosynthesis and resistance proteins. A genetic system using Escherichia coli-Streptomyces flavoviridis intergeneric conjugation was developed to enable ZBM gene cluster boundary determinations and biosynthetic pathway manipulations.

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Heterologous Expression of Novobiocin and Clorobiocin Biosynthetic Gene Clusters

Eustáquio

Gust

Galm

et al. 2005

Appl Environ Microbiol

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A method was developed for the heterologous expression of biosynthetic gene clusters in different Streptomyces strains and for the modification of these clusters by single or multiple gene replacements or gene deletions with unprecedented speed and versatility. -Red-mediated homologous recombination was used for genetic modification of the gene clusters, and the attachment site and integrase of phage C31 were employed for the integration of these clusters into the heterologous hosts. This method was used to express the gene clusters of the aminocoumarin antibiotics novobiocin and clorobiocin in the well-studied strains Streptomyces coelicolor and Streptomyces lividans, which, in contrast to the natural producers, can be easily genetically manipulated. S. coelicolor M512 derivatives produced the respective antibiotic in yields comparable to those of natural producer strains, whereas S. lividans TK24 derivatives were at least five times less productive. This method could also be used to carry out functional investigations. Shortening of the cosmids' inserts showed which genes are essential for antibiotic production.

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Ute Galm

Antitumor Antibiotics: Bleomycin, Enediynes, and Mitomycin

The tallysomycin biosynthetic gene cluster from Streptoalloteichus hindustanus E465-94 ATCC 31158 unveiling new insights into the biosynthesis of the bleomycin family of antitumor antibiotics

Glycopeptide Antitumor Antibiotic Zorbamycin from Streptomyces flavoviridis ATCC 21892: Strain Improvement and Structure Elucidation

The biosyntheticgene cluster of zorbamycin, a member of the bleomycin family of antitumor antibiotics, from Streptomyces flavoviridis ATCC 21892

Heterologous Expression of Novobiocin and Clorobiocin Biosynthetic Gene Clusters

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