Dr Jim Reid

School of Mathematical and Physical Sciences

Lecturer in Chemical Biology

Jim Reid
Profile picture of Jim Reid
j.reid@sheffield.ac.uk
+44 114 222 9558
Dainton Building

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Dr Jim Reid
School of Mathematical and Physical Sciences
Dainton Building
13 Brook Hill
º¬Ð߲ݴ«Ã½
S3 7HF
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Dr. Reid obtained a BSc in Biochemistry from the University of St. Andrews in 1994, which was followed by a PhD from Queen Mary, University of London. In 1998 he became a postdoctoral researcher at the University of º¬Ð߲ݴ«Ã½, which was followed by an appointment as postdoctoral researcher at Albert Einstein College of Medicine, New York. In 2005 he was appointed as lecturer in Chemical Biology at the University of º¬Ð߲ݴ«Ã½.

Qualifications

FHEA

Research interests

My interests centre on enzyme mechanism, in particular enzymes involved in porphyrin biosynthesis. Biologically interesting porphyrins include haem, sirohaem, coenzyme F430, and chlorophyll and contain a central metal ion. The metal ion insertion steps in porphyrin biosynthesis are catalysed by a family of specific enzymes – the chelatases. We currently focus on two of these enzymes in particular; magnesium chelatase which inserts a magnesium ion into protoporphyrin IX bound for chlorophyll and ferrochelatase which catalyses the final step in haem biosynthesis. Although they share a porphyrin substrate these two enzymes are very different.

Ferrochelatases (E.C. 4.99.1.1) are small proteins, either monomeric or homodimeric depending on species, that catalyse the energetically favourable insertion of ferrous iron into protoporphyrin IX. Mechanistically these are the best characterised of the metal ion chelatases with spectroscopic and crystallographic evidence suggesting that a deformed non-planar porphyrin is a critical intermediate in the reaction.

On the other hand, Magnesium chelatase (E.C. 6.6.1.1) is a large multimeric enzyme comprising three different types of subunit. The increase in complexity is explained by the Mg2+ insertion being energetically unfavourable; the process requires ATP hydrolysis and distinct protein subunits bind porphyrin and hydrolyse MgATP2-. As the two active sites are on separate subunits the question is, how do the ATPase site and the chelatase site communicate?

Publications

Journal articles

  • Moody NR, Phansopal C & Reid JD (2021) . Bio-protocol, 11(24). RIS download Bibtex download
  • Adams NBP, Bisson C, Brindley AA, Farmer DA, Davison PA, Reid JD & Hunter CN (2020) . Nature Plants. RIS download Bibtex download
  • Moody NR, Christin P-A & Reid JD (2020) . Frontiers in Plant Science, 11. RIS download Bibtex download
  • Phansopa C, Dunning LT, Reid JD & Christin P-A (2020) . Molecular Biology and Evolution. RIS download Bibtex download
  • Farmer DA, Brindley AA, Hitchcock A, Jackson PJ, Johnson B, Dickman MJ, Hunter CN, Reid JD & Adams NBP (2019) . Biochemical Journal. RIS download Bibtex download
  • Hobbs C, Reid JD & Shepherd M (2017) . The Biochemical journal, 474(20), 3513-3522. RIS download Bibtex download
  • Adams NB, Brindley AA, Neil Hunter C & Reid JD (2016) . FEBS Letters, 590(12), 1687-1693. RIS download Bibtex download
  • Brindley AA, Adams NBP, Hunter CN & Reid JD (2015) . Biochemistry, 54(44), 6659-6662. RIS download Bibtex download
  • Adams NBP, Marklew CJ, Brindley AA, Hunter CN & Reid JD (2014) . Biochem J, 457(1), 163-170. RIS download Bibtex download
  • Adams NBP & Reid JD (2013) . J Biol Chem, 288(40), 28727-28732. RIS download Bibtex download
  • Adams NBP & Reid JD (2012) . Biochemistry, 51(10), 2029-2031. RIS download Bibtex download
  • Davidson RE, Chesters CJ & Reid JD (2009) . J Biol Chem, 284(49), 33795-33799. RIS download Bibtex download
  • Viney J, Davison PA, Hunter CN & Reid JD (2007) . Biochemistry, 46(44), 12788-12794. RIS download Bibtex download
  • Hoggins M, Dailey HA, Hunter CN & Reid JD (2007) . Biochemistry, 46(27), 8121-8127. RIS download Bibtex download
  • Davison PA, Schubert HL, Reid JD, Iorg CD, Heroux A, Hill CP & Hunter CN (2005) . Biochemistry, 44(21), 7603-7612. RIS download Bibtex download
  • Reid JD & Hunter CN (2004) . J Biol Chem, 279(26), 26893-26899. RIS download Bibtex download
  • Reid JD, Hussain S, Bailey TSF, Sonkaria S, Sreedharan SK, Thomas EW, Resmini M & Brocklehurst K (2004) . Biochemical Journal, 378(2), 699-703. RIS download Bibtex download
  • Reid JD, Siebert CA, Bullough PA & Hunter CN (2003) . Biochemistry, 42(22), 6912-6920. RIS download Bibtex download
  • Shepherd M, Reid JD & Hunter CN (2003) . Biochem J, 371(Pt 2), 351-360. RIS download Bibtex download
  • Hussain S, Pinitglang S, Bailey TSF, Reid JD, Noble MA, Resmini M, Thomas EW, Greaves RB, Verma CS & Brocklehurst K (2003) . Biochemical Journal, 372(3), 735-746. RIS download Bibtex download
  • Reid JD & Hunter CN (2002) . Biochem Soc Trans, 30(4), 643-645. RIS download Bibtex download
  • Reid JD & Hunter CN (2002) . Biochemical Society Transactions, 30(3), A75-A75. RIS download Bibtex download
  • Reid JD & Hunter CN (2002) . Biochemical Society Transactions, 30(3), A50-A50. RIS download Bibtex download
  • Karger GA, Reid JD & Hunter CN (2001) . Biochemistry, 40(31), 9291-9299. RIS download Bibtex download
  • REID JD, HUSSAIN S, SREEDHARAN SK, BAILEY TSF, PINITGLANG S, THOMAS EW, VERMA CS & BROCKLEHURST K (2001) . Biochemical Journal, 357(2), 343-352. RIS download Bibtex download
  • REID JD, HUSSAIN S, SREEDHARAN SK, BAILEY TSF, PINITGLANG S, THOMAS EW, VERMA CS & BROCKLEHURST K (2001) . Biochemical Journal, 357(2), 343-343. RIS download Bibtex download
  • Jensen PE, Reid JD & Hunter CN (2000) Modification of cysteine residues in the ChlI and ChlH subunits of magnesium chelatase results in enzyme inactivation. BIOCHEM J, 352, 435-441. RIS download Bibtex download
  • Heyes DJ, Martin GE, Reid RJ, Hunter CN & Wilks HM (2000) . FEBS Lett, 483(1), 47-51. RIS download Bibtex download
  • REID JD, SREEDHARAN S, COLE A, MASKELL S, BOKTH A, THOMAS EW & BROCKLEHURST K (1998) . Biochemical Society Transactions, 26(2), S173-S173. RIS download Bibtex download
  • Pinitglang S, Watts AB, Patel M, Reid JD, Noble MA, Gul S, Bokth A, Naeem A, Patel H, Thomas EW , Sreedharan SK et al (1997) . Biochemistry, 36(33), 9968-9982. RIS download Bibtex download
  • REID JD, PINITGLANG S, TOPHAM CM, VERMA C, THOMAS EW & BROCKLEHURST K (1997) . Biochemical Society Transactions, 25(1), 89S-89S. RIS download Bibtex download
Teaching interests

Biological Chemistry

Teaching activities

Undergraduate and postgraduate taught modules

  • Biological Molecules 2 (Level 2)
    This course introduces the structures and chemical properties of key biological molecules: proteins and nucleic acids.
  • Enzyme Catalysis (Level 4)
    This module describes the chemical basis of enzyme catalysis and the techniques used in establishing how enzymes function at the molecular level.

Support Teaching:

  • Skills for Success: Enterprise Project.
  • Level 3 Literature Review