David Chan scite author profile

Antimicrobial peptides encompass a number of different classes, including those that are rich in a particular amino acid. An important subset are peptides rich in Arg and Trp residues, such as indolicidin and tritrpticin, that have broad and potent antimicrobial activity. The importance of these two amino acids for antimicrobial activity was highlighted through the screening of a complete combinatorial library of hexapeptides. These residues possess some crucial chemical properties that make them suitable components of antimicrobial peptides. Trp has a distinct preference for the interfacial region of lipid bilayers, while Arg residues endow the peptides with cationic charges and hydrogen bonding properties necessary for interaction with the abundant anionic components of bacterial membranes. In combination, these two residues are capable of participating in cation-pi interactions, thereby facilitating enhanced peptide-membrane interactions. Trp sidechains are also implicated in peptide and protein folding in aqueous solution, where they contribute by maintaining native and nonnative hydrophobic contacts. This has been observed for the antimicrobial peptide from human lactoferrin, possibly restraining the peptide structure in a suitable conformation to interact with the bacterial membrane. These unique properties make the Arg- and Trp-rich antimicrobial peptides highly active even at very short peptide lengths. Moreover, they lead to structures for membrane-mimetic bound peptides that go far beyond regular alpha-helices and beta-sheet structures. In this review, the structures of a number of different Trp- and Arg-rich antimicrobial peptides are examined and some of the major mechanistic studies are presented.

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Current understanding of fatty acid biosynthesis and the acyl carrier protein

Chan

Vogel

2010

260

199

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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.

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Molecular Dynamics Simulations of the Apo-, Holo-, and Acyl-forms of Escherichia coli Acyl Carrier Protein

Chan

Stockner²,

Tieleman³

et al. 2008

Journal of Biological Chemistry

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Innovation and practice of continuous auditing

Chan

Vasarhelyi

2011

International Journal of Accounting Information Systems

153

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Consequences of XBRL Standardization on Financial Statement Data

Vasarhelyi

Chan

Krahel

2012

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XBRL (eXtensible Business Reporting Language) has become an important element of the financial reporting landscape. This paper provides a discussion of the effects of XBRL on the usefulness of financial data. Using the theoretical framework of the technology acceptance model (TAM), we examine XBRL's potential to improve the usefulness of reported financial information. As XBRL gains wider acceptance, we examine five axes along which XBRL standardization will propagate: current data, disclosure format, historical data, data fidelity and assurance, and third-party data. We also call attention to new research opportunities that may arise as XBRL and related technologies mature.

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David Chan

Tryptophan- and arginine-rich antimicrobial peptides: Structures and mechanisms of action

Current understanding of fatty acid biosynthesis and the acyl carrier protein

Molecular Dynamics Simulations of the Apo-, Holo-, and Acyl-forms of Escherichia coli Acyl Carrier Protein

Innovation and practice of continuous auditing

Consequences of XBRL Standardization on Financial Statement Data

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