Novel class of Bi(iii) hydroxamato complexes: synthesis, urease inhibitory activity and activity against H. pylori.

Keogan, Donal M.; Twamley, Brendan; Fitzgerald-Hughes, Deirdre; Griffith, Darren M.

Novel class of Bi(iii) hydroxamato complexes: synthesis urease i.pdf (704.18 kB)

Novel class of Bi(iii) hydroxamato complexes: synthesis, urease inhibitory activity and activity against H. pylori.

Version 2 2022-01-13, 12:18

Version 1 2019-11-23, 11:50

journal contribution

posted on 2019-11-23, 11:50 authored by Donal M. Keogan, Brendan Twamley, Deirdre Fitzgerald-Hughes, Darren M. Griffith

Reaction of Bi(NO3)3 with benzohydroxamic acid (Bha) and salicylhydroxamic acid (Sha) gives the novel Bi(iii) complexes [Bi2(Bha-1H)2(μ-Bha-1H)2(η(2)-NO3)2] () and [Bi6(CH3OH)2(η(1)-NO3)2(η(2)-NO3)(OH2)2(Sha-1H)12](NO3)2 (). X-ray crystal structure of reveals two hydroxamato coordination modes; bidentate bridging (O, O') and bidentate non-bridging (O, O') and of reveals one coordination mode; bidentate bridging (O, O'). , specifically designed to and demonstrated to inhibit the activity of urease, exhibits excellent antibacterial activity against three strains of Helicobacter pylori with MIC ≥ 16 μg mL(-1).

Funding

Irish Research Council. Royal College of Surgeons in Ireland

History

Comments

The original article is available at http://www.rsc.org

Published Citation

Keogan DM, Twamley B, Fitzgerald-Hughes D, Griffith DM. Novel class of Bi(iii) hydroxamato complexes: synthesis, urease inhibitory activity and activity against H. pylori. Dalton Transactions. 2016;45(27):11008-14.