Journal ArticleDOI
Current understanding of fatty acid biosynthesis and the acyl carrier protein
David I. Chan,Hans J. Vogel +1 more
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TLDR
The present review discusses the state of the understanding of FA synthesis with a focus on ACP, and the structural and dynamic properties of an increasing number of acyl-ACPs have been described, leading to an improved comprehension of this central carrier protein.Abstract:
FA (fatty acid) synthesis represents a central, conserved process by which acyl chains are produced for utilization in a number of end-products such as biological membranes. Central to FA synthesis, the ACP (acyl carrier protein) represents the cofactor protein that covalently binds all fatty acyl intermediates via a phosphopantetheine linker during the synthesis process. FASs (FA synthases) can be divided into two classes, type I and II, which are primarily present in eukaryotes and bacteria/plants respectively. They are characterized by being composed of either large multifunctional polypeptides in the case of type I or consisting of discretely expressed mono-functional proteins in the type II system. Owing to this difference in architecture, the FAS system has been thought to be a good target for the discovery of novel antibacterial agents, as exemplified by the antituberculosis drug isoniazid. There have been considerable advances in this field in recent years, including the first high-resolution structural insights into the type I mega-synthases and their dynamic behaviour. Furthermore, the structural and dynamic properties of an increasing number of acyl-ACPs have been described, leading to an improved comprehension of this central carrier protein. In the present review we discuss the state of the understanding of FA synthesis with a focus on ACP. In particular, developments made over the past few years are highlighted.read more
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Structure of mammalian respiratory complex I
TL;DR: The structures of complex I provide a foundation for understanding complex I assembly and the effects of mutations that cause clinically relevant complex I dysfunctions, give insights into the structural and functional roles of the supernumerary subunits and reveal new information on the mechanism and regulation of catalysis.
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Metabolic engineering of microbial pathways for advanced biofuels production.
TL;DR: Recently engineered biosynthetic pathways from the well-characterized microorganisms Escherichia coli and Saccharomyces cerevisiae are reviewed for the production of several advanced biofuels.
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Carboxylic acid reductase is a versatile enzyme for the conversion of fatty acids into fuels and chemical commodities
TL;DR: Together with complementing enzymes, the broad substrate specificity and kinetic characteristics of CAR opens the road for direct and tailored enzyme-catalyzed conversion of lipids into user-ready chemical commodities.
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Siderophore uptake in bacteria and the battle for iron with the host; a bird’s eye view
Byron C. H. Chu,Alicia García-Herrero,Ted H. Johanson,Karla D. Krewulak,Cheryl K. Lau,R. Sean Peacock,Zoya Slavinskaya,Hans J. Vogel +7 more
TL;DR: This review paper will briefly discuss the relevant chemical properties of iron, and provide a perspective on the current understanding of the human and bacterial iron uptake pathways, and potential clinical uses of siderophores.
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Flavoenzymes: Versatile catalysts in biosynthetic pathways
TL;DR: The reactivity of dihydroflavins with molecular oxygen leads to flavin-4a-OOH adducts which then carry out a diverse range of oxygen transfers, including Baeyer-Villiger type ring expansions, olefin epoxidations, halogenations via transient HOCl generation, and an oxidative Favorskii rerrangement during enterocin assembly.
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High throughput screen
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Assembly-line enzymology for polyketide and nonribosomal Peptide antibiotics: logic, machinery, and mechanisms.
TL;DR: Christopher T. Walsh is the Hamilton Kuhn Professor of Biological Chemistry and Molecular Pharmacology (BCMP) at Harvard Medical School and has had extensive experience in academic administration, including Chairmanship of the MIT Chemistry Department and the HMS Biological Chemistry & molecular Pharmacology Department.
Journal ArticleDOI
Complete genome sequence and comparative analysis of the industrial microorganism Streptomyces avermitilis
Haruo Ikeda,Jun Ishikawa,Akiharu Hanamoto,Mayumi Shinose,Hisashi Kikuchi,Tadayoshi Shiba,Yoshiyuki Sakaki,Masahira Hattori,Satoshi Omura +8 more
TL;DR: The complete nucleotide sequence of the linear chromosome of Streptomyces avermitilis is determined and it is revealed that an internal 6.5-Mb region in the S. avermitILis genome was highly conserved with respect to gene order and content, and contained all known essential genes but showed perfectly asymmetric structure at the oriC center.