An analysis of protein domain linkers: their classification and role in protein folding
Richard A. George,Jaap Heringa +1 more
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TLDR
A linker database intended for the rational design of linkers for domain fusion is constructed and two main types of linker were identified; helical and non-helical.Abstract:
Recent advances in protein engineering have come from creating multi-functional chimeric proteins containing modules from various proteins. These modules are typically joined via an oligopeptide linker, the correct design of which is crucial for the desired function of the chimeric protein. Here we analyse the properties of naturally occurring inter-domain linkers with the aim to design linkers for domain fusion. Two main types of linker were identified; helical and non-helical. Helical linkers are thought to act as rigid spacers separating two domains. Non-helical linkers are rich in prolines, which also leads to structural rigidity and isolation of the linker from the attached domains. This means that both linker types are likely to act as a scaffold to prevent unfavourable interactions between folding domains. Based on these results we have constructed a linker database intended for the rational design of linkers for domain fusion, which can be accessed via the Internet at http://mathbio.nimr.mrc.ac.uk.read more
Citations
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Journal ArticleDOI
The Pfam protein families database
Marco Punta,Penny Coggill,Ruth Y. Eberhardt,Jaina Mistry,John Tate,Chris Boursnell,Ningze Pang,Kristoffer Forslund,Goran Ceric,Jody Clements,Andreas Heger,Liisa Holm,Erik L. L. Sonnhammer,Sean R. Eddy,Alex Bateman,Robert D. Finn +15 more
TL;DR: The definition and use of family-specific, manually curated gathering thresholds are explained and some of the features of domains of unknown function (also known as DUFs) are discussed, which constitute a rapidly growing class of families within Pfam.
Journal ArticleDOI
Pfam: the protein families database.
Robert D. Finn,Alex Bateman,Jody Clements,Penelope Coggill,Ruth Y. Eberhardt,Sean R. Eddy,Andreas Heger,Kirstie Hetherington,Liisa Holm,Jaina Mistry,Erik L. L. Sonnhammer,John Tate,Marco Punta +12 more
TL;DR: Pfam as discussed by the authors is a widely used database of protein families, containing 14 831 manually curated entries in the current version, version 27.0, and has been updated several times since 2012.
Journal ArticleDOI
Fusion protein linkers: Property, design and functionality
TL;DR: This review covers the current knowledge of fusion protein linkers and summarizes examples for their design and application and considers the general properties of linkers derived from naturally-occurring multi-domain proteins as the foundation in linker design.
Book ChapterDOI
Pfam: the protein families database
TL;DR: The basic contents and availability of the Pfam database are described, and the new resource that describes domain–domain interactions at the molecular level is called iPfam, a protein families database that contains information on domain– domain interactions.
Journal ArticleDOI
Composition Profiler: a tool for discovery and visualization of amino acid composition differences
TL;DR: The software can be used to guide feature selection for protein function or structure predictors as a rough, light-weight visual classifier for classes of proteins with significant differences in frequencies of amino acids having particular physico-chemical or structural properties.
References
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Journal ArticleDOI
Conformational parameters for amino acids in helical, beta-sheet, and random coil regions calculated from proteins.
Peter Y. Chou,Gerald D. Fasman +1 more
TL;DR: The helix, s Applequist, 1963) in which the Zimm-Bragg parameters u and s are defined respectively as the cooperativity factor for helix initiation, and the equi- librium constant for converting a coil residue to a helical helix.
Journal ArticleDOI
The nature of the accessible and buried surfaces in proteins
TL;DR: The accessible surface areas have been calculated for the individual residues in 12 proteins, and for the extended chains, the secondary structures and tertiary structure of six proteins and it is shown that the accessible surface area of folded proteins is simply proportional to the two-thirds power of their molecular weight.
Journal ArticleDOI
Influence of proline residues on protein conformation
TL;DR: An analysis has been made of all proline residues and their local conformations extracted from the Brookhaven Protein Data bank to highlight the unique role of proline in determining local conformation.
Journal ArticleDOI
Consideration of the possibility that the slow step in protein denaturation reactions is due to cis-trans isomerism of proline residues
TL;DR: Since the present model assumes that only one of the major kinetic phases seen in denaturation reactions is concerned with the denaturation process per se, it is in agreement with numerous thermodynamic studies which show consistency with the two-state model for unfolding.
Journal ArticleDOI
Helix geometry in proteins.
D.J. Barlow,Janet M. Thornton +1 more
TL;DR: In alpha-helices where there are kinks caused by proline residues, it is shown that the angle of kink is relatively constant (approximately 26 degrees), and that there is minimal disruption of the helix hydrogen bonding.