Biography:Judy Hirst

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Short description: Physical Chemist
Judy Hirst

FRS FMedSci
Education
  • King James's School, Almondbury
  • Greenhead College
Alma materUniversity of Oxford (BA, DPhil)
AwardsFellow of the Academy of Medical Sciences (2019)
Scientific career
InstitutionsUniversity of Cambridge
Scripps Research Institute
ThesisElectron transport in redox enzymes (1997)
Doctoral advisorFraser Armstrong[1]
Websitewww.mrc-mbu.cam.ac.uk/research-groups/hirst-group

Judy Hirst FRS FMedSci is a British scientist specialising in mitochondrial biology. She is Director[2] of the MRC Mitochondrial Biology Unit at the University of Cambridge.

Early life and education

Hirst grew up in Lepton, a village near Huddersfield, West Yorkshire, and attended King James's School and Greenhead College, Huddersfield.[3] She studied for an M.A. in chemistry at St John's College, Oxford,[2] and then was awarded a Doctor of Philosophy degree at Lincoln College, Oxford, in 1997, for research supervised by Fraser Armstrong on electron transport in redox enzymes.[1]

Career and research

Following her D.Phil., Hirst held a fellowship at the Scripps Research Institute in California, before moving to Cambridge.[4]

(As of 2023) Hirst is a professorial fellow and Director of Studies in Natural Sciences Chemistry at Corpus Christi College, Cambridge,[4] and since 2020 has been director of the MRC Mitochondrial Biology Unit having previously been its assistant director (2011-2014) and deputy director (2014-2020). Her main research interest is mitochondrial complex I.[2]

Hirst has been published in 2018 on Open questions: respiratory chain supercomplexes – why are they there and what do they do?[5] and working with Justin Fedor, published research on mitochondrial supercomplexes in Cell Metabolism.[6] Recent research in her team includes a study, published in May 2020 by the American Chemical Society Synthetic Biology on 'Adenosine triphosphate (ATP), the cellular energy currency, is essential for life. The ability to provide a constant supply of ATP is therefore crucial for the construction of artificial cells in synthetic biology' which has developed a 'minimal system for cellular respiration and energy regeneration'.[7]

Awards and honours

Early in her career, Hirst was awarded EMBO Young Investigator Award (2001) and Young Investigator Award from the Royal Society of Chemistry Inorganic Biochemistry Discussion Group (2006).[8]

Hirst was elected a Fellow of the Royal Society (FRS) in 2018.[9] She was awarded an Interdisciplinary Prize of the Royal Society of Chemistry in the same year.[10] In 2019, Hirst was elected Fellow of the Academy of Medical Sciences[11] with the citation:

Judy Hirst, Professor of Biological Chemistry at the MRC Mitochondrial Biology Unit, Cambridge, has had a definitive hand in every advance towards defining the highly complex mechanism of complex I catalysis, and has developed new physical and biochemical methods to address the elusive coupling mechanism between the redox reaction and proton translocation. She established the mechanism of complex I inhibition by the anti-diabetic drug metformin, and has used kinetic and thermodynamic strategies to define how superoxide production by complex I, responds to the intramitochondrial NADH/NAD+ ratio to directly link two pathological effects of complex I dysfunction. This seminal work has brought understanding that is fundamental to critical issues of health and disease on a global stage.[12]

Hirst was awarded Keilin Memorial Lecture and Medal in 2020 for research which:

has made pivotal contributions to understanding energy conversion in complex redox enzymes: how they capture the energy released by a redox reaction to power proton translocation across a membrane, or catalyse the interconversion of chemical bond energy and electrical potential. She is known particularly for her work on mammalian respiratory complex I (NADH: ubiquinone oxidoreductase), an energy-transducing, mitochondrial redox enzyme of fundamental and medical importance, and for solving its structure by electron cryomicroscopy.[13][14]

References

  1. 1.0 1.1 Hirst, Judy (1997). Electron transport in redox enzymes. bodleian.ox.ac.uk (DPhil thesis). University of Oxford. OCLC 557413704. EThOS uk.bl.ethos.364043.
  2. 2.0 2.1 2.2 "Judy Hirst FRS | MRC Mitochondrial Biology Unit" (in en). http://www.mrc-mbu.cam.ac.uk/people/judy-hirst. 
  3. "Dr Judy Hirst MA, DPhil, FRS" (in en). https://www.greenhead.ac.uk/dr-judy-hirst-ma-dphil-frs/279.html. 
  4. 4.0 4.1 "Dr Judy Hirst MA DPhil (Oxford) FRS FMedSci". Corpus Christi College. https://www.corpus.cam.ac.uk/people/dr-judy-hirst. 
  5. Hirst, Judy (2018). "Open questions: respiratory chain supercomplexes-why are they there and what do they do?". BMC Biol 16 (1): 111. doi:10.1186/s12915-018-0577-5. ISSN 1741-7007. PMID 30382836. PMC 6211484. http://www.mrc-mbu.cam.ac.uk/publications/3140/open-questions-respiratory-chain-supercomplexes-why-are-they-there-and-what-do. 
  6. Fedor, Justin; Hirst, Judy (2018). "Mitochondrial Supercomplexes Do Not Enhance Catalysis by Quinone Channeling.". Cell Metab 28 (3): 525–531.e4. doi:10.1016/j.cmet.2018.05.024. ISSN 1932-7420. PMID 29937372. PMC 6125145. http://www.mrc-mbu.cam.ac.uk/publications/3068/mitochondrial-supercomplexes-do-not-enhance-catalysis-quinone-channeling. 
  7. Biner, Olivier; Fedor, Justin G.; Yin, Zhan; Hirst, Judy (2020-06-19). "Bottom-Up Construction of a Minimal System for Cellular Respiration and Energy Regeneration". ACS Synthetic Biology 9 (6): 1450–1459. doi:10.1021/acssynbio.0c00110. PMID 32383867. 
  8. "RSC Interdisciplinary Prize 2018 Winner". https://www.rsc.org/ScienceAndTechnology/Awards/InterdisciplinaryPrize/2018-Winner-Hirst.asp. 
  9. "Judy Hirst". https://royalsociety.org/people/judy-hirst-13818/. 
  10. "2018 Interdisciplinary Prize Winner: Dr Judy Hirst". Royal Society of Chemistry. http://www.rsc.org/ScienceAndTechnology/Awards/InterdisciplinaryPrize/2018-Winner-Hirst.asp. 
  11. "New Fellows: 50 top biomedical and health scientists join the Academy | The Academy of Medical Sciences". https://acmedsci.ac.uk/more/news/new-fellows-50-top-biomedical-and-health-scientists-join-the-academy-. 
  12. "Professor Judy Hirst | The Academy of Medical Sciences". https://acmedsci.ac.uk/fellows/fellows-directory/ordinary-fellows/fellow/Professor-Judy-Hirst-0028326. 
  13. "The Keilin Memorial Lecture" (in en). https://www.biochemistry.org/grants-and-awards/awards/awards-listing/the-keilin-memorial-lecture/. 
  14. "Professor Judy Hirst FRS receives Keilin Memorial Lecture Award" (in en). 2019-04-01. https://www.corpus.cam.ac.uk/articles/professor-judy-hirst-frs-receives-keilin-memorial-lecture-award. 

External links



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