Publications

Found 23 results
Filters: Keyword is Substrate Specificity  [Clear All Filters]
2018
Majd H, King MS, Palmer SM, Smith AC, Elbourne LDh, Paulsen IT, Sharples D, Henderson PJf & Kunji ERs (2018) Screening of candidate substrates and coupling ions of transporters by thermostability shift assays. Elife 7
2016
Kunji ERS, Aleksandrova A, King MS, Majd H, Ashton VL, Cerson E, Springett R, Kibalchenko M, Tavoulari S, Crichton PG & Ruprecht JJ (2016) The transport mechanism of the mitochondrial ADP/ATP carrier. Biochim Biophys Acta 1863, 2379-93
2013
Monné M, Palmieri F & Kunji ERS (2013) The substrate specificity of mitochondrial carriers: mutagenesis revisited. Mol Membr Biol 30, 149-59
Mifsud J, Ravaud S, Krammer E-M, Chipot C, Kunji ERS, Pebay-Peyroula E & Dehez F (2013) The substrate specificity of the human ADP/ATP carrier AAC1. Mol Membr Biol 30, 160-8
2012
Monné M, Miniero DValeria, Daddabbo L, Robinson AJ, Kunji ERS & Palmieri F (2012) Substrate specificity of the two mitochondrial ornithine carriers can be swapped by single mutation in substrate binding site. J Biol Chem 287, 7925-34
2011
Stael S, Rocha AG, Robinson AJ, Kmiecik P, Vothknecht UC & Teige M (2011) Arabidopsis calcium-binding mitochondrial carrier proteins as potential facilitators of mitochondrial ATP-import and plastid SAM-import. FEBS Lett 585, 3935-40
Woodroof HI, Pogson JH, Begley M, Cantley LC, Deak M, Campbell DG, van Aalten DMF, Whitworth AJ, Alessi DR & Muqit MMK (2011) Discovery of catalytically active orthologues of the Parkinson's disease kinase PINK1: analysis of substrate specificity and impact of mutations. Open Biol 1, 110012
Armstrong FA & Hirst J (2011) Reversibility and efficiency in electrocatalytic energy conversion and lessons from enzymes. Proc Natl Acad Sci U S A 108, 14049-54
2006
Kunji ERS & Robinson AJ (2006) The conserved substrate binding site of mitochondrial carriers. Biochim Biophys Acta 1757, 1237-48
Minczuk M, Papworth MA, Kolasinska P, Murphy MP & Klug A (2006) Sequence-specific modification of mitochondrial DNA using a chimeric zinc finger methylase. Proc Natl Acad Sci U S A 103, 19689-94
2004
Mamedova AA, Holt PJ, Carroll J & Sazanov LA (2004) Substrate-induced conformational change in bacterial complex I. J Biol Chem 279, 23830-6
2003
Fiermonte G, Dolce V, David L, Santorelli FMaria, Dionisi-Vici C, Palmieri F & Walker JE (2003) The mitochondrial ornithine transporter. Bacterial expression, reconstitution, functional characterization, and tissue distribution of two human isoforms. J Biol Chem 278, 32778-83
2002
Minczuk M, Piwowarski J, Papworth MA, Awiszus K, Schalinski S, Dziembowski A, Dmochowska A, Bartnik E, Tokatlidis K, Stepien PP & Borowski P (2002) Localisation of the human hSuv3p helicase in the mitochondrial matrix and its preferential unwinding of dsDNA. Nucleic Acids Res 30, 5074-86
2001
Fiermonte G, Dolce V, Palmieri L, Ventura M, Runswick MJ, Palmieri F & Walker JE (2001) Identification of the human mitochondrial oxodicarboxylate carrier. Bacterial expression, reconstitution, functional characterization, tissue distribution, and chromosomal location. J Biol Chem 276, 8225-30
Tozawa K, Broadhurst RW, Raine AR, Fuller C, Alvarez A, Guillen G, Padron G & Perham RN (2001) Solution structure of the lipoyl domain of the chimeric dihydrolipoyl dehydrogenase P64K from Neisseria meningitidis. Eur J Biochem 268, 4908-17
1998
Kunji ER, Fang G, Jeronimus-Stratingh CM, Bruins AP, Poolman B & Konings WN (1998) Reconstruction of the proteolytic pathway for use of beta-casein by Lactococcus lactis. Mol Microbiol 27, 1107-18
1996
Kunji ER, Mierau I, Poolman B, Konings WN, Venema G & Kok J (1996) Fate of peptides in peptidase mutants of Lactococcus lactis. Mol Microbiol 21, 123-31
Kunji ER, Mierau I, Hagting A, Poolman B & Konings WN (1996) The proteolytic systems of lactic acid bacteria. Antonie Van Leeuwenhoek 70, 187-221
1995
Foucaud C, Kunji ER, Hagting A, Richard J, Konings WN, Desmazeaud M & Poolman B (1995) Specificity of peptide transport systems in Lactococcus lactis: evidence for a third system which transports hydrophobic di- and tripeptides. J Bacteriol 177, 4652-7
1993
Kunji ER, Smid EJ, Plapp R, Poolman B & Konings WN (1993) Di-tripeptides and oligopeptides are taken up via distinct transport mechanisms in Lactococcus lactis. J Bacteriol 175, 2052-9
1980
Bloxham DP, Ericsson LH, Titani K, Walsh KA & Neurath H (1980) Limited proteolysis of pig heart citrate synthase by subtilisin, chymotrypsin, and trypsin. Biochemistry 19, 3979-85