Protein Folds Propelled by Diversity

Overview

Journal Prog Biophys Mol Biol

Specialties Biophysics
Molecular Biology

Date 2001 Jun 8

PMID 11389935

Citations 47

Authors

M Paoli

Affiliations

Soon will be listed here.

Abstract

Many proteins involved in key biological processes are modular in nature. A group of these, the beta-propeller proteins, fold by packing 4-stranded beta-sheets in a circular array. The members of this group are increasingly numerous and, although their modular building blocks all preserve the same basic conformation, they do not have similar sequences. These proteins have extreme functional and phylogenetic diversity. Here, features of the beta-propeller fold are reviewed through comparisons of available structural coordinates. Structure-based sequence alignments combined with analyses of superpositions of individual modular units reveal conserved general features such as hydrogen bonds, beta-turns and positions of hydrophobic contacts. The lack of significant sequence identity is compensated by sets of interactions which stabilise the fold differently in distinct structures. Re-occurring aspartates make contacts to exposed backbone amides in turns or peptide connections within the same sheet. The sole factor responsible for the number of sheets that assemble in the array is the size of the hydrophobic residues that pack into the cores between the sheets. Whilst there is no overall sequence conservation, it may be possible to detect new members of this fold through sequence searches that take into account the repeated nature of the modular assembly as well as the positions of hydrophobic residues and H-bonding side chains.

Citing Articles

Pan-WD40ome analysis of 26 diverse inbred lines reveals the structural and functional diversity of WD40 proteins in maize.

Ji S, Yin P, Li T, Du X, Chen W, Zhang R BMC Genomics. 2025; 26(1):181.

PMID: 39987072 PMC: 11847395. DOI: 10.1186/s12864-025-11342-1.

Creation of a point-of-care therapeutics sensor using protein engineering, electrochemical sensing and electronic integration.

Cai R, Ngwadom C, Saxena R, Soman J, Bruggeman C, Hickey D Nat Commun. 2024; 15(1):1689.

PMID: 38402222 PMC: 11258353. DOI: 10.1038/s41467-024-45789-9.

Molecular double clips within RepID WD40 domain control chromatin binding and CRL4-substrate assembly.

Kim D, Redon C, Aladjem M, Kim H, Jang S Biochem Biophys Res Commun. 2021; 567:208-214.

PMID: 34171797 PMC: 9969741. DOI: 10.1016/j.bbrc.2021.06.047.

What makes a type IIA topoisomerase a gyrase or a Topo IV?.

Hirsch J, Klostermeier D Nucleic Acids Res. 2021; 49(11):6027-6042.

PMID: 33905522 PMC: 8216471. DOI: 10.1093/nar/gkab270.

WDSPdb: an updated resource for WD40 proteins.

Ma J, An K, Zhou J, Wu N, Wang Y, Ye Z Bioinformatics. 2019; 35(22):4824-4826.

PMID: 31161214 PMC: 6853709. DOI: 10.1093/bioinformatics/btz460.