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Items: 14

1.

Author Correction: A mechanism for CO regulation of ion channels.

Kapetanaki SM, Burton MJ, Basran J, Uragami C, Moody PCE, Mitcheson JS, Schmid R, Davies NW, Dorlet P, Vos MH, Storey NM, Raven E.

Nat Commun. 2018 Aug 17;9(1):3354. doi: 10.1038/s41467-018-05622-6.

2.

A mechanism for CO regulation of ion channels.

Kapetanaki SM, Burton MJ, Basran J, Uragami C, Moody PCE, Mitcheson JS, Schmid R, Davies NW, Dorlet P, Vos MH, Storey NM, Raven E.

Nat Commun. 2018 Mar 2;9(1):907. doi: 10.1038/s41467-018-03291-z. Erratum in: Nat Commun. 2018 Aug 17;9(1):3354.

3.

A heme-binding domain controls regulation of ATP-dependent potassium channels.

Burton MJ, Kapetanaki SM, Chernova T, Jamieson AG, Dorlet P, Santolini J, Moody PC, Mitcheson JS, Davies NW, Schmid R, Raven EL, Storey NM.

Proc Natl Acad Sci U S A. 2016 Apr 5;113(14):3785-90. doi: 10.1073/pnas.1600211113. Epub 2016 Mar 22.

4.

Monitoring Changes in the Redox State of Myoglobin in Cardiomyocytes by Raman Spectroscopy Enables the Protective Effect of NO Donors to Be Evaluated.

Almohammedi A, Kapetanaki SM, Hudson AJ, Storey NM.

Anal Chem. 2015 Oct 20;87(20):10605-12. doi: 10.1021/acs.analchem.5b03103. Epub 2015 Oct 2.

PMID:
26407187
5.

Spectroscopic analysis of myoglobin and cytochrome c dynamics in isolated cardiomyocytes during hypoxia and reoxygenation.

Almohammedi A, Kapetanaki SM, Wood BR, Raven EL, Storey NM, Hudson AJ.

J R Soc Interface. 2015 Apr 6;12(105). pii: 20141339. doi: 10.1098/rsif.2014.1339.

6.

Nitric oxide binding to the cardiolipin complex of ferric cytochrome C.

Silkstone G, Kapetanaki SM, Husu I, Vos MH, Wilson MT.

Biochemistry. 2012 Aug 28;51(34):6760-6. Epub 2012 Aug 14.

PMID:
22803508
7.

Femtosecond stimulated Raman spectrometer in the 320-520nm range.

Pontecorvo E, Kapetanaki SM, Badioli M, Brida D, Marangoni M, Cerullo G, Scopigno T.

Opt Express. 2011 Jan 17;19(2):1107-12. doi: 10.1364/OE.19.001107.

PMID:
21263650
8.

Nitric oxide binds to the proximal heme coordination site of the ferrocytochrome c/cardiolipin complex: formation mechanism and dynamics.

Silkstone G, Kapetanaki SM, Husu I, Vos MH, Wilson MT.

J Biol Chem. 2010 Jun 25;285(26):19785-92. doi: 10.1074/jbc.M109.067736. Epub 2010 Apr 15.

9.

Interaction of carbon monoxide with the apoptosis-inducing cytochrome c-cardiolipin complex.

Kapetanaki SM, Silkstone G, Husu I, Liebl U, Wilson MT, Vos MH.

Biochemistry. 2009 Feb 24;48(7):1613-9. doi: 10.1021/bi801817v.

PMID:
19183042
10.

Ultrafast ligand binding dynamics in the active site of native bacterial nitric oxide reductase.

Kapetanaki SM, Field SJ, Hughes RJ, Watmough NJ, Liebl U, Vos MH.

Biochim Biophys Acta. 2008 Jul-Aug;1777(7-8):919-24. doi: 10.1016/j.bbabio.2008.03.012. Epub 2008 Mar 29.

11.

Modification of the active site of Mycobacterium tuberculosis KatG after disruption of the Met-Tyr-Trp cross-linked adduct.

Kapetanaki SM, Zhao X, Yu S, Magliozzo RS, Schelvis JP.

J Inorg Biochem. 2007 Mar;101(3):422-33. Epub 2006 Nov 17.

12.

Resonance Raman spectroscopy of Compound II and its decay in Mycobacterium tuberculosis catalase-peroxidase KatG and its isoniazid resistant mutant S315T.

Kapetanaki SM, Chouchane S, Yu S, Magliozzo RS, Schelvis JP.

J Inorg Biochem. 2005 Jun;99(6):1401-6.

PMID:
15917090
13.

Mycobacterium tuberculosis KatG(S315T) catalase-peroxidase retains all active site properties for proper catalytic function.

Kapetanaki SM, Chouchane S, Yu S, Zhao X, Magliozzo RS, Schelvis JP.

Biochemistry. 2005 Jan 11;44(1):243-52.

PMID:
15628865
14.

Substrate electric dipole moment exerts a pH-dependent effect on electron transfer in Escherichia coli photolyase.

Kapetanaki SM, Ramsey M, Gindt YM, Schelvis JP.

J Am Chem Soc. 2004 May 26;126(20):6214-5.

PMID:
15149202

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