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Bifunctionality of ActIV as a Cyclase‐Thioesterase Revealed by in Vitro Reconstitution of Actinorhodin Biosynthesis in Streptomyces coelicolor A3(2) 下载免费PDF全文
Dr. Takaaki Taguchi Dr. Takayoshi Awakawa Yukitaka Nishihara Michiho Kawamura Prof. Dr. Yasuo Ohnishi Prof. Dr. Koji Ichinose 《Chembiochem : a European journal of chemical biology》2017,18(3):316-323
Type II polyketide synthases iteratively generate a nascent polyketide thioester of the acyl carrier protein (ACP); this is structurally modified to produce an ACP‐free intermediate towards the final metabolite. However, the timing of ACP off‐loading is not well defined because of the lack of an apparent thioesterase (TE) among relevant biosynthetic enzymes. Here, ActIV, which had been assigned as a second ring cyclase (CYC) in actinorhodin (ACT) biosynthesis, was shown to possess TE activity in vitro with a model substrate, anthraquinone‐2‐carboxylic acid‐N‐acetylcysteamine. In order to investigate its function further, the ACT biosynthetic pathway in Streptomyces coelicolor A3(2) was reconstituted in vitro in a stepwise fashion up to (S)‐DNPA, and the product of ActIV reaction was characterized as an ACP‐free bicyclic intermediate. These findings indicate that ActIV is a bifunctional CYC‐TE and provide clear evidence for the release timing of the intermediate from the ACP anchor. 相似文献
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Madan Kumar Kharel Dr. Pallab Pahari Dr. Hui Lian Jürgen Rohr Prof. Dr. 《Chembiochem : a European journal of chemical biology》2009,10(8):1305-1308
Last at last : The terminal step of the gilvocarcin V (GV) biosynthetic pathway is an unusual lactone formation. Here we show that the enzyme, GilR, dehydrogenates the hemiacetal moiety of pregilvocarcin V to the lactone found in GV by using covalently bound FAD.
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Birgit Ohlendorf Stefan Leyers Anja Krick Dr. Stefan Kehraus Dr. Michael Wiese Prof. Dr. Gabriele M. König Prof. Dr. 《Chembiochem : a European journal of chemical biology》2008,9(18):2997-3003
Myxobacteria are gliding bacteria that belong to the δ‐Proteobacteria and are known for their unique biosynthetic capabilities. Among myxobacteria, Nannocystis spp. are most closely related to marine myxobacteria and their secondary metabolism has hardly been investigated. Phenylnannolones A ( 1 ), B ( 2 ) and C ( 3 ) were obtained from a culture of Nannocystis exedens that was isolated from the intertidal region of Crete. Compound 1 had inhibitory activity toward the ABCB1 gene product P‐glycoprotein and reversed daunorubicin resistance in cultured cancer cells. Phenylnannolone A has an unusual structural architecture; it is composed of an ethyl‐substituted polyene chain linked to a pyrone moiety on one side and to a phenyl ring on the other. The investigation of the biosynthesis with labelled precursors revealed acetate, butyrate and phenylalanine as building blocks for 1 . The labelling pattern suggested novel biochemical reactions for the biosynthesis of the starter unit. 相似文献
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Hilda Sucipto Dr. Silke C. Wenzel Prof. Dr. Rolf Müller 《Chembiochem : a European journal of chemical biology》2013,14(13):1581-1589
Myxopyronins and corallopyronins are structurally related α‐pyrone antibiotics from myxobacteria. They are thought to represent a highly promising compound class for the development of broad‐spectrum antibacterial therapeutic agents, because of their ability to inhibit RNA polymerase through interaction with the “switch region”, a recently identified novel drug target. Here we describe the identification and characterization of the myxopyronin biosynthetic pathway from Myxococcus fulvus Mx f50. A detailed comparison with the recently identified corallopyronin biosynthetic pathway revealed the genetic and biochemical basis, thus explaining the observed structural differences between the two natural product families. Directed mutagenesis procedures for M. fulvus Mx f50 were developed to enable functional studies and pathway modifications. Our work provided new insights into myxopyronin biosynthesis and led to the production of a novel and unexpected myxopyronin derivative. 相似文献
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Keita Amagai Ryoma Takaku Prof. Dr. Fumitaka Kudo Prof. Dr. Tadashi Eguchi 《Chembiochem : a European journal of chemical biology》2013,14(15):1998-2006
Cremimycin is a 19‐membered macrolactam glycoside antibiotic based on three distinctive substructures: 1) a β‐amino fatty acid starter moiety, 2) a bicyclic macrolactam ring, and 3) a cymarose unit. To elucidate the biosynthetic machineries responsible for these three structures, the cremimycin biosynthetic gene cluster was identified. The cmi gene cluster consists of 33 open reading frames encoding eight polyketide synthases, six deoxysugar biosynthetic enzymes, and a characteristic group of five β‐amino‐acid‐transfer enzymes. Involvement of the gene cluster in cremimycin production was confirmed by a gene knockout experiment. Further, a feeding experiment demonstrated that 3‐aminononanoate is a direct precursor of cremimycin. Two characteristic enzymes of the cremimycin‐type biosynthesis were functionally characterized in vitro. The results showed that a putative thioesterase homologue, CmiS1, catalyzes the Michael addition of glycine to the β‐position of a non‐2‐enoic acid thioester, followed by hydrolysis of the thioester to give N‐carboxymethyl‐3‐aminononanoate. Subsequently, the resultant amino acid was oxidized by a putative FAD‐dependent glycine oxidase homologue, CmiS2, to produce 3‐aminononanoate and glyoxylate. This represents a unique amino transfer mechanism for β‐amino acid biosynthesis. 相似文献
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Identification and Characterization of the Streptazone E Biosynthetic Gene Cluster in Streptomyces sp. MSC090213JE08 下载免费PDF全文
Shoto Ohno Dr. Yohei Katsuyama Yuka Tajima Dr. Miho Izumikawa Dr. Motoki Takagi Dr. Manabu Fujie Dr. Noriyuki Satoh Dr. Kazuo Shin‐ya Dr. Yasuo Ohnishi 《Chembiochem : a European journal of chemical biology》2015,16(16):2385-2391
Streptazone derivatives isolated from Streptomyces species are piperidine alkaloids with a cyclopenta[b]pyridine scaffold. Previous studies indicated that these compounds are polyketides, but the biosynthetic enzymes responsible for their synthesis are unknown. Here, we have identified the streptazone E biosynthetic gene cluster in Streptomyces sp. MSC090213JE08, which encodes a modular type I PKS and tailoring enzymes that include an aminotransferase, three oxidoreductases, and two putative cyclases. The functions of the six tailoring enzymes were analyzed by gene disruption, and two putative biosynthetic intermediates that accumulated in particular mutants were structurally elucidated. On the basis of these results, we propose a pathway for the biosynthesis of streptazone E in which the two putative cyclases of the nuclear transport factor 2–like superfamily are responsible for C?C bond formation coupled with epoxide ring opening to give the five‐membered ring of streptazone E. 相似文献
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Cover Feature: Biochemical Characterization of β‐Amino Acid Incorporation in Fluvirucin B2 Biosynthesis (ChemBioChem 13/2018) 下载免费PDF全文
Jesus F. Barajas Amin Zargar Bo Pang Veronica T. Benites Jennifer Gin Edward E. K. Baidoo Christopher J. Petzold Nathan J. Hillson Dr. Jay D. Keasling 《Chembiochem : a European journal of chemical biology》2018,19(13):1351-1351
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Mayer A Taguchi T Linnenbrink A Hofmann C Luzhetskyy A Bechthold A 《Chembiochem : a European journal of chemical biology》2005,6(12):2312-2315
LanV is involved in the biosynthesis of landomycin A. The exact function of this enzyme was elucidated with combinatorial biosynthesis by using Streptomyces fradiae mutants that produce urdamycin A. After expression of lanV in S. fradiae DeltaurdM, which is a mutant that accumulates rabelomycin, urdamycinon B and urdamycin B were found to be produced by the strain. This result indicates that LanV is involved in the 6-ketoreduction of the angucycline core, which preceeds a 5,6-dehydration reaction. 9-C-D-Olivosyltetrangulol was also produced by this strain; this demonstrates that LanV catalyses the aromatization of ring A of the angucycline structure. Coexpression of lanV and lanGT2 in S. fradiae AO, a mutant that lacks all four urdamycin glycosyltransferases, resulted in the production of tetrangulol and the glycoside landomycin H, both of which have an aromatic ring A. As glycosylated angucyclines were not observed after expression of lanGT2 in the absence of lanV, we conclude that LanGT2 needs an aromatized ring A for substrate recognition. 相似文献
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Synthesis of C‐Glucosylated Octaketide Anthraquinones in Nicotiana benthamiana by Using a Multispecies‐Based Biosynthetic Pathway 下载免费PDF全文
Dr. Johan Andersen‐Ranberg Dr. Kenneth Thermann Kongstad Dr. Majse Nafisi Prof. Dan Staerk Finn Thyge Okkels Prof. Uffe Hasbro Mortensen Prof. Birger Lindberg Møller Dr. Rasmus John Normand Frandsen Dr. Rubini Kannangara 《Chembiochem : a European journal of chemical biology》2017,18(19):1893-1897
Carminic acid is a C‐glucosylated octaketide anthraquinone and the main constituent of the natural dye carmine (E120), possessing unique coloring, stability, and solubility properties. Despite being used since ancient times, longstanding efforts to elucidate its route of biosynthesis have been unsuccessful. Herein, a novel combination of enzymes derived from a plant (Aloe arborescens, Aa), a bacterium (Streptomyces sp. R1128, St), and an insect (Dactylopius coccus, Dc) that allows for the biosynthesis of the C‐glucosylated anthraquinone, dcII, a precursor for carminic acid, is reported. The pathway, which consists of AaOKS, StZhuI, StZhuJ, and DcUGT2, presents an alternative biosynthetic approach for the production of polyketides by using a type III polyketide synthase (PKS) and tailoring enzymes originating from a type II PKS system. The current study showcases the power of using transient expression in Nicotiana benthamiana for efficient and rapid identification of functional biosynthetic pathways, including both soluble and membrane‐bound enzymes. 相似文献
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Biosynthesis of Phenylnannolone A,a Multidrug Resistance Reversal Agent from the Halotolerant Myxobacterium Nannocystis pusilla B150 下载免费PDF全文
Dr. Sarah M. Bouhired Dr. Max Crüsemann Dr. Celso Almeida Dr. Tilmann Weber Prof. Dr. Jörn Piel Dr. Till F. Schäberle Prof. Dr. Gabriele M. König 《Chembiochem : a European journal of chemical biology》2014,15(5):757-765
The myxobacterial strain Nannocystis pusilla B150 synthesizes the structurally new polyketides phenylnannolone A–C. Apart from some common volatiles and siderophores, these are the first natural products from the genus Nannocystis. Phenylnannolone A shows inhibitory activity towards the ABCB1 gene product P‐glycoprotein and reverses daunorubicin resistance in cancer cells. To decipher the biochemical reactions leading to the formation of phenylnannolone A, the putative biosynthetic genes were identified (phn1, phn2). Phn2 is a polyketide synthase (PKS) with an NRPS‐like loading module, and its domain order is consistent with the phenylnannolone A structure. The functionality and substrate selectivity of the loading module were determined by means of a γ‐18O4‐ATP pyrophosphate exchange and a phosphopantetheine ejection assay. A specific activation of cinnamic acid by the AMP‐ligase was detected. Phn1 is a putative butyryl‐CoA carboxylase (BCC), providing ethylmalonyl‐CoA for the formation of the ethyl‐substituted part of phenylnannolone A. Phn1 is the first BCC found in biosynthetic genes for an ethyl‐substituted natural compound. Biosynthesis of phenylnannolone A, putatively encoded by phn1 and phn2, thus utilizes the first biosynthetic machinery in which both a BCC and a PKS are involved. 相似文献
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Phonghanpot S Punya J Tachaleat A Laoteng K Bhavakul V Tanticharoen M Cheevadhanarak S 《Chembiochem : a European journal of chemical biology》2012,13(6):895-903
A gene from Xylaria sp. BCC 1067, pks3, that encodes a putative 3660-residue hybrid polyketide synthase (PKS)/non-ribosomal peptide synthetase (NRPS) was characterised by targeted gene disruption in combination with comprehensive product identification. Studies of the features of a corresponding mutant, YA3, allowed us to demonstrate that pks3 is responsible for the synthesis of a new pyrroline compound, named xyrrolin, in the wild-type Xylaria sp. BCC 1067. The structure of xyrrolin was established by extensive spectroscopic and spectrometric analyses, including low- and high-resolution MS, IR, (1)H NMR, (13)C NMR, (13)C NMR with Dept135, HMQC 2D NMR, HMBC 2D NMR and COSY 2D NMR. On the basis of the Pks3 domain organisation and the chemical structure of xyrrolin, we proposed that biosynthesis of this compound requires the condensation of a tetraketide and an L-serine unit, followed by Dieckmann or reductive cyclisation and enzymatic removal of ketone residue(s). Bioassays of the pure xyrrolin further displayed cytotoxicity against an oral cavity (KB) cancer cell line. 相似文献
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Production of a Novel Amide‐Containing Polyene by Activating a Cryptic Biosynthetic Gene Cluster in Streptomyces sp. MSC090213JE08 下载免费PDF全文
Danyao Du Dr. Yohei Katsuyama Dr. Hiroyasu Onaka Manabu Fujie Dr. Noriyuki Satoh Dr. Kazuo Shin‐ya Dr. Yasuo Ohnishi 《Chembiochem : a European journal of chemical biology》2016,17(15):1464-1471
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Chi‐Ying Li I‐Wen Lo Yen‐Ping Hsueh Yu‐Ming Chung Shih‐Wei Wang Michal Korinek Yi‐Hong Tsai Yuan‐Bin Cheng Tsong‐Long Hwang Clay C. C. Wang Fang‐Rong Chang Yang‐Chang Wu 《Israel journal of chemistry》2019,59(5):432-438
Pursuing epigenetic manipulation approach in fungi led to the isolation of an unusual coumarin metabolite from fungi. An addition of the histone deacetylase inhibitor, suberohydroxamic acid (SBHA), to the culture medium of Arthrobotrys foliicola induced production of the coumarin‐type secondary metabolite represented by a single intensive peak in the HPLC profile of the ethyl acetate extract. The compound which was identified as 4‐ethyl‐7‐hydroxy‐8‐methyl‐2H‐chromen‐2‐one ( 1 ) was isolated from nature for the first time. Moreover, the investigation on the remaining part of the HPLC profile led to the separation of 6‐ethyl‐2,4‐dihydroxy‐3‐methylbenzaldehyde ( 2 ) and ten 2,5‐diketopiperazine compounds ( 3 – 12 ). The structures of isolates were deduced by their mass and NMR spectroscopic data. The coumarin‐type secondary metabolite ( 1 ) with peculiar smell induced by epigenetic stimulation is found for the first time in the Arthrobotrys species and the family Orbiliaceae. We evaluated 1 for the cytotoxic, anti‐inflammatory, anti‐allergic and nematocidal activities, however, it was found inactive. 相似文献
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