Crystals (Aug 2023)

Crystal Structure of Aspartate Semialdehyde Dehydrogenase from <i>Porphyromonas gingivalis</i>

  • Jisub Hwang,
  • Hackwon Do,
  • Youn-Soo Shim,
  • Jun Hyuck Lee

DOI
https://doi.org/10.3390/cryst13081274
Journal volume & issue
Vol. 13, no. 8
p. 1274

Abstract

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Aspartate semialdehyde dehydrogenase (ASADH) catalyzes the biosynthesis of several essential amino acids, including lysine, methionine, and threonine, and bacterial cell components. Thus, ASADH is a crucial target for developing new antimicrobial agents that can potentially disrupt the biosynthesis of essential amino acids, thereby inhibiting the growth of pathogens. Herein, the crystal structures of ASADH obtained from Porphyromonas gingivalis (PgASADH, UniProtKB code A0A1R4DY25) were determined in apo- and adenosine-2′-5′-diphosphate (2′,5′-ADP)-bound complex forms at a resolution of 1.73 Å. The apo- and 2′,5′-ADP-complexed crystals of PgASADH belonged to the space groups of I212121 and C2221, respectively. Analytical size-exclusion chromatography showed a stable PgASADH dimer in a solution. Clustering analysis and structural comparison studies performed on PgASADH and previously known ASADHs revealed that ASADHs, including PgASADH, can be classified into three types depending on sequential and structural differences at the α-helical subdomain region. These findings provide valuable insights into developing structure-based species-specific new antibacterial drugs against the oral pathogen P. gingivalis.

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