University of Limerick
Browse
- No file added yet -

X-ray diffraction data for the C5a-peptidase mutant with modified activity and specificity

Download (637.22 kB)
journal contribution
posted on 2023-08-03, 14:05 authored by Todd KagawaTodd Kagawa, Monica Jain, Jakki CooneyJakki Cooney

The Streptococcal C5a peptidase (ScpA) specifically inactivates the human complement factor hC5a, a potent anaphylatoxin recently identified as a therapeutic target for treatment of COVID-19 infections. Engineering of ScpA to enhance its potential as a therapeutic will require detailed examination of the basis for its highly selective activity. The emerging view of ScpA and related subtilases is that selection of their substrates is a dynamic two-step process involving flexibility in the domains around the active site and in the C-ter of the substrate. Surface plasmon resonance (SPR) analyses of the ScpA-hC5a interaction have shown that high affinity binding of the substrate is driven by electrostatic interactions between an exosite on the Fn2 domain of the enzyme and the bulky N-ter cleavage product (PN, ’core’ residues 1-67) of C5a [1]. Introduction of a D783A mutation in the Fn2 exosite, located approximately 50 Å from the catalytic serine, was shown to significantly reduce substrate binding affinity and kcat of the enzyme. X-ray crystallographic studies on the D783A mutant (ScpAD783A) were undertaken to better interpret the impact of this mutation on the specificity and activity of ScpA. Here we present the 1.9 Å X-ray diffraction data for ScpAD783A and the molecular replacement solution for the structure. Both raw diffraction images and coordinates have been made available on public databases. Additional details on the related SPR and enzyme kinetics analyses on ScpAD783A reported in Jain et al. [2].

Funding

SSPC_Phase 2

Science Foundation Ireland

Find out more...

History

Publication

Data in Brief, 2023, 46, 108778

Publisher

Elsevier

Other Funding information

MJ was in receipt of Irish Research Council Government of Ireland Postgraduate Scholarships (RS/2012/391). TFK was funded through Science Foundation Ireland (Grant 12/RC/2275_P2 to JCC). This work was supported by Enterprise Ireland Commercial Fund CF/2013/3336 to JCC. The University of Limerick Foundation is acknowledged for funding aspects of this work. Professor Tewfik Soulimane and Dr. Ahmed Djeghader in the Department of Chemical Sciences, University of Limerick for their assistance in data collection at the Diamond Light Source

Also affiliated with

  • Bernal Institute

Department or School

  • Biological Sciences

Usage metrics

    University of Limerick

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC