Publications

Found 16 results
Filters: Keyword is Amino Acids  [Clear All Filters]
2014
Johnson MA, Vidoni S, Durigon R, Pearce SF, Rorbach J, He J, Brea-Calvo G, Minczuk MA, Reyes A, Holt IJ & Spinazzola A (2014) Amino acid starvation has opposite effects on mitochondrial and cytosolic protein synthesis. PLoS One 9, e93597
Ruprecht JJ, Hellawell AM, Harding M, Crichton PG, McCoy AJ & Kunji ERS (2014) Structures of yeast mitochondrial ADP/ATP carriers support a domain-based alternating-access transport mechanism. Proc Natl Acad Sci U S A 111, E426-34
2012
Bricker DK, Taylor EB, Schell JC, Orsak T, Boutron A, Chen Y-C, Cox JE, Cardon CM, Van Vranken JG, Dephoure N, Redin C, Boudina S, Gygi SP, Brivet M, Thummel CS & Rutter J (2012) A mitochondrial pyruvate carrier required for pyruvate uptake in yeast, Drosophila, and humans. Science 337, 96-100
2011
Miniero DV, Cappello AR, Curcio R, Ludovico A, Daddabbo L, Stipani I, Robinson AJ, Kunji ERS & Palmieri F (2011) Functional and structural role of amino acid residues in the matrix alpha-helices, termini and cytosolic loops of the bovine mitochondrial oxoglutarate carrier. Biochim Biophys Acta 1807, 302-10
2009
Dimmock D, Maranda B, Dionisi-Vici C, Wang J, Kleppe S, Fiermonte G, Bai R, Hainline B, Hamosh A, O'Brien WE, Scaglia F & Wong L-J (2009) Citrin deficiency, a perplexing global disorder. Mol Genet Metab 96, 44-9
2006
Cappello ARita, Curcio R, Miniero DValeria, Stipani I, Robinson AJ, Kunji ERS & Palmieri F (2006) Functional and structural role of amino acid residues in the even-numbered transmembrane alpha-helices of the bovine mitochondrial oxoglutarate carrier. J Mol Biol 363, 51-62
2000
Polevoda B, Martzen MR, Das B, Phizicky EM & Sherman F (2000) Cytochrome c methyltransferase, Ctm1p, of yeast. J Biol Chem 275, 20508-13
Cabezón E, Butler PJ, Runswick MJ & Walker JE (2000) Modulation of the oligomerization state of the bovine F1-ATPase inhibitor protein, IF1, by pH. J Biol Chem 275, 25460-4
1998
Kunji ERS, 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
Scrutton NS & Raine AR (1996) Cation-pi bonding and amino-aromatic interactions in the biomolecular recognition of substituted ammonium ligands. Biochem J 319 ( Pt 1), 1-8
Mierau I, Kunji ERS, Leenhouts KJ, Hellendoorn MA, Haandrikman AJ, Poolman B, Konings WN, Venema G & Kok J (1996) Multiple-peptidase mutants of Lactococcus lactis are severely impaired in their ability to grow in milk. J Bacteriol 178, 2794-803
1995
Juillard V, Le Bars D, Kunji ERS, Konings WN, Gripon JC & Richard J (1995) Oligopeptides are the main source of nitrogen for Lactococcus lactis during growth in milk. Appl Environ Microbiol 61, 3024-30
Poolman B, Kunji ERS, Hagting A, Juillard V & Konings WN (1995) The proteolytic pathway of Lactococcus lactis. Soc Appl Bacteriol Symp Ser 24, 65S-75S
Kunji ERS, Hagting A, De Vries CJ, Juillard V, Haandrikman AJ, Poolman B & Konings WN (1995) Transport of beta-casein-derived peptides by the oligopeptide transport system is a crucial step in the proteolytic pathway of Lactococcus lactis. J Biol Chem 270, 1569-74
1993
Tynkkynen S, Buist G, Kunji ERS, Kok J, Poolman B, Venema G & Haandrikman A (1993) Genetic and biochemical characterization of the oligopeptide transport system of Lactococcus lactis. J Bacteriol 175, 7523-32
1985
Walker JE, Fearnley IM, Gay NJ, Gibson BW, Northrop FD, Powell SJ, Runswick MJ, Saraste M & Tybulewicz VL (1985) Primary structure and subunit stoichiometry of F1-ATPase from bovine mitochondria. J Mol Biol 184, 677-701