Difference between revisions of "Bailey SM"
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{{Person}} | {{Person | ||
|lastname=Bailey | |||
|firstname=Stephen | |||
|title=BSc, MSc, PhD, FHEA | |||
|institution=Lecturer in Sport and Exercise Nutrition | |||
Loughborough University | |||
|address=Epinal Way, Loughborough | |||
|area code=LE11 3TU | |||
|city=Leicestershire | |||
|country=United Kingdom | |||
|mailaddress=S.Bailey2@lboro.ac.uk | |||
}} | |||
{{Labelingperson}} | {{Labelingperson}} |
Revision as of 11:04, 14 August 2017
Name | Bailey Stephen, BSc, MSc, PhD, FHEA |
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Institution | Lecturer in Sport and Exercise Nutrition
Loughborough University |
Address | Epinal Way, Loughborough, LE11 3TU |
City | Leicestershire |
State/Province | |
Country | United Kingdom |
S.Bailey2@lboro.ac.uk | |
Weblink | |
O2k-Network Lab |
Labels:
Publications
Published | Reference | |
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Saini 2020 Nat Commun | 2020 | Saini V, Chinta KC, Reddy VP, Glasgow JN, Stein A, Lamprecht DA, Rahman MA, Mackenzie JS, Truebody BE, Adamson JH, Kunota TTR, Bailey SM, Moellering DR, Lancaster JR Jr, Steyn AJC (2020) Hydrogen sulfide stimulates Mycobacterium tuberculosis respiration, growth and pathogenesis. Nat Commun 11:557. |
Konopka 2018 Aging Cell | 2018 | Konopka AR, Laurin JL, Schoenberg HM, Reid JJ, Castor WM, Wolff CA, Musci RV, Safairad OD, Linden MA, Biela LM, Bailey SM, Hamilton KL, Miller BF (2018) Metformin inhibits mitochondrial adaptations to aerobic exercise training in older adults. Aging Cell 18:e12880. |
King 2016 Redox Biol | 2016 | King AL, Mantena SK, Andringa KK, Millender-Swain T, Dunham-Snary KJ, Oliva CR, Griguer CE, Bailey SM (2016) The methyl donor S-adenosylmethionine prevents liver hypoxia and dysregulation of mitochondrial bioenergetic function in a rat model of alcohol-induced fatty liver disease. Redox Biol 9:188-97. |
Mantena 2009 Biochem J | 2009 | Mantena SK, Vaughn Jr DP, Andringa KK, Eccleston HB, King AL, Abrams GA, Doeller JE, Kraus DW, Darley-Usmar V, Bailey SM (2009) High fat diet induces dysregulation of hepatic oxygen gradients and mitochondrial function in vivo. Biochem J 417:183β93. |