Crystal structure of HlyU, the hemolysin gene transcription activator, from Vibrio cholerae N16961 and functional implications

Mukherjee, Debadrita ; Datta, Ajit Bikram ; Chakrabarti, Pinak (2014) Crystal structure of HlyU, the hemolysin gene transcription activator, from Vibrio cholerae N16961 and functional implications Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics, 1844 (12). pp. 2346-2354. ISSN 15709639

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Official URL: http://doi.org/10.1016/j.bbapap.2014.09.020

Related URL: http://dx.doi.org/10.1016/j.bbapap.2014.09.020

Abstract

HlyU in Vibrio cholerae is known to be the transcriptional activator of the hemolysin gene, HlyA and possibly a regulator of other virulence factors influencing growth, colonization and pathogenicity of this infective agent. Here we report the crystal structure of HlyU from V. cholerae N16961 (HlyU_Vc) at 1.8 Å. The protein, with five α-helices and three β-strands in the topology of α1-α2-β1-α3-α4-β2-β3-α5, forms a homodimer. Helices α3–α4 and a β sheet form the winged helix–turn–helix (wHTH) DNA-binding motif common to the transcription regulators of the SmtB/ArsR family. In spite of an overall fold similar to SmtB/ArsR family, it lacks any metal binding site seen in SmtB. A comparison of the dimeric interfaces showed that the one in SmtB is much larger and have salt bridges that can be disrupted to accommodate metal ions. A model of HlyU-DNA complex suggests bending of the DNA. Cys38 in the structure was found to be modified as sulfenic acid; the oxidized form was not seen in another structure solved under reducing condition. Although devoid of any metal binding site, the presence of a Cys residue exhibiting oxidation-reduction suggests the possibility of the existence of a redox switch in transcription regulation. A structure-based phylogenetic analysis of wHTH proteins revealed the segregation of metal and non-metal binding proteins as well as those in the latter group that are under redox control.

Item Type:Article
Source:Copyright of this article belongs to Elsevier B.V
Keywords:X-ray crystallography;Virulence factor;Metalloprotein;Transcription regulator;Phylogenetic analysis;Thiol-dependent redox regulation
ID Code:129027
Deposited On:07 Nov 2022 10:23
Last Modified:07 Nov 2022 10:23

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