Centre Publications for Steve Smith

last updated: Mon Nov 2 14:54:33 2009
20. Li J, Franscisco P, Zhou W, Edner C, Steup M, Ritte G, Bond CS and Smith SM (2009) Catalytically-inactive β-amylase BAM4 required for starch breakdown in Arabidopsis leaves is a starch-binding-protein Archives of Biochemistry and Biophysics 489(1-2):92-8 PUBMED Impact Factor: 2.626
19. Wiszniewski A.A.G., Zhou W., Smith S.M. and Bussell J.D. (Mar. 2009) Identification of two Arabidopsis genes encoding a peroxisomal oxidoreductase-like protein and an acyl:CoA transferase-like protein required for responses to pro-auxins Plant Molecular Biology 69(5):503-515 PUBMED Impact Factor: 3
18. Wilson P, Estavillo G, Field K, Pornsiriwong W, Carroll AJ, Howell K, Woo N, Nick, Lake J, Smith S, Millar AH, von Caemmerer S and Pogson B April 2009 The nucleotidase/phosphatase, SAL1, is a negative regulator of drought tolerance in Arabidopsis The Plant Journal 58(2):299-317 PUBMED Impact Factor: 7
17. Pracharoenwattana I. and Smith S.M. (2008) When is a peroxisome not a peroxisome? Trends in Plant Sci. 3, 522-525 PUBMED Impact Factor: 10
16. Cousins AB, Pracharoenwattana I, Zhou W, Smith SM and Badger MR (2008) Peroxisomal malate dehydrogenase is not essential for photorespiration in Arabidopsis but its absence causes an increase in the stoichiometry of photorespiratory CO2 release Plant Physiology 148(2):786-95 PUBMED Impact Factor: 6
15. Eubel H, Meyer EH, Taylor NL, Bussell JD, O'Toole N, Heazlewood JL, Castleden I, Small ID, Smith SM and Millar AH. (October 17, 2008) Novel proteins, putative membrane transporters and an integrated metabolic network are revealed by quantitative proteomic analysis of Arabidopsis cell culture peroxisomes. Plant Physiology 148:1809-29 PUBMED Impact Factor: 6
14. Fulton DC, Stettler M, Mettler T, Vaughan CK, Li J, Franscisco P, Gil M, Reinhold H, Messerli G, Eicke S, Dorkin G, Halliday K, Smith AM, Smith SM and Zeeman SC. Apr 2008 BETA-AMYLASE 4, a non-catalytic protein that regulates leaf starch breakdown upstream of three active alpha-amylases in Arabidopsis chloroplasts. Plant Cell 20(4):1040-58 PUBMED Impact Factor 11.
13. Glaring MA, Zygadlo A, Thorneycroft D, Schulz A, Smith SM, Blennow A and Baunsgaard L. (2007) An extra-plastidial alpha-glucan, water dikinase from Arabidopsis phosphorylates amylopectin in vitro and is not necessary for transient starch degradation. Journal of Experimental Botany 58, 3949-60. PUBMED Impact Factor 3
12. Edner C, Li J, Albrecht T, Mahlow S, Hejazi M, Hussain H, Kaplan F, Guy C, Smith SM, Steup M and Ritte G (2007) Glucan, Water Dikinase Activity Stimulates Breakdown of Starch Granules by Plastidial β-Amylases. Plant Physiology 145, 17-28 PUBMED Impact Factor: 6
11. Pracharoenwattana I, Cornah JE and Smith SM (2007) Arabidopsis peroxisomal malate dehydrogenase functions in beta-oxidation but not the glyoxylate cycle. The Plant Journal 50, 381-390 PUBMED Impact Factor: 7
10. Carrie C, Murcha MW, Millar AH, Smith SM and Whelan J (2007) Nine 3-ketoacyl-CoA thiolases (KATs) and acetoacetyl-CoA thiolases (ACATs) encoded by five genes in Arabidopsis thaliana are targeted either to peroxisomes or cytosol but not to mitochondria. Plant Molecular Biology 63:97-108. PUBMED Impact Factor: 3
9. Zeeman SC, Smith SM and Smith AM(2007) The diurnal metabolism of leaf starch. Biochemical Journal 401:13-28. PUBMED Impact Factor: 4
8. Kunze M, Pracharoenwattana I, Smith SM and Hartig A. (2006) A central role for the peroxisomal membrane in glyoxylate cycle function. Biochimica et Biophysica Acta - Molecular Cell Research 1763, 1441-52 PUBMED Impact Factor: 5
7. Sundaramoorthy R, Micossi E, Alphey MS, Germain V, Bryce JH, Smith SM, Leonard GA and Hunter WN. (2006) The Crystal Structure of a Plant 3-Ketoacyl-CoA Thiolase Reveals the Potential for Redox Control of Peroxisomal Fatty Acid beta-Oxidation. Journal of Molecular Biology 359, 347-57. PUBMED Impact Factor: 5
6. Niittyl T, Comparot-Moss S, Lue W-L, Messerli G, Trevisan M, Seymour MDJ, Gatehouse JA, Villadsen D, Smith SM, Chen J, Zeeman SC, and Smith AM (2006) Similar protein phosphatases control starch metabolism in plants and glycogen metabolism in mammals. Journal of Biological Chemistry 281, 11815-8. PUBMED Impact Factor: 6
5. Delatte T, Umhang M, Trevisan M, Eicke S, Thorneycroft D, Smith SM, and Zeeman SC (2006) Evidence for distinct mechanisms of starch granule breakdown in plants. Journal of Biological Chemistry 281, 12050-9. PUBMED Impact Factor: 6
4. Baker A, Graham IA, Holdsworth M, Smith SM and Theodoulou FL (2006) Chewing the fat: beta-oxidation in signalling and development. Trends in Plant Science 11, 124-32. PUBMED Impact Factor: 10
3. De Coninck B, Le Roy K, Francis I, Clerens S, Vergauwen R, Halliday A, Smith SM, Van Laere A and Van den Ende W (2005) AtcwINV3 and 6 are not invertases but are fructan exohydrolases with different substrate specificities. Plant Cell and Environment 28, 432-443. Impact Factor: 4
2. Smith AM, Zeeman SC and Smith SM (2005) Starch degradation. Annual Review of Plant Biology 56, 73-98. PUBMED Impact Factor: 18
1. Pracharoenwattana I, Cornah JE and Smith SM (2005) Peroxisomal citrate synthase catalyses an essential step in the respiration of fatty acids during germination of Arabidopsis seeds and is required to break dormancy. Plant Cell, 17, 2037-2048. PUBMED Impact Factor: 11

Previous Publications by Steve Smith

2004

Plastidial a-Glucan Phosphorylase Is Not Required for Starch Degradation in Arabidopsis Leaves But Has a Role in the Tolerance of Abiotic Stress.Zeeman SC, Thorneycroft D, Schupp N, Chapple A, Weck M, Dunstan H, Haldimann P, Bechtold N, Smith AM, Smith SM.PMCID: 514120

Chia, T., Thorneycroft, D., Zeeman S.C., Smith, S.M. and Smith, A.M. (2004) A cytosolic glucosyltransferase is required for conversion of starch to sucrose in Arabidopsis leaves at night. Plant J 37, 853-863.

Zeeman SC, Smith SM and Smith AM. (2004) The breakdown of starch in leaves. New Phytologist, 163, 247-261.

Smith SM, Fulton DC, Chia T, Thorneycroft T, Chapple A, Dunstan H, Hylton C, Zeeman SC and Smith AM. (2004) Diurnal changes in the transcriptome encoding enzymes of starch metabolism provide evidence for both transcriptional and post-transcriptional regulation of starch metabolism in Arabidopsis leaves. Plant Physiol, 136, 2687-2699.PMCID: 523333

Villadsen D and Smith, S.M. (2004) Identification of more than 200 glucose-responsive genes in Arabidopsis seedlings, none of which responds to 3-O-methylglucose or 6-deoxyglucose. Plant Mol. Biol. 55, 467-477.

Cornah JC, Germain V, Ward JL, Beale MH and Smith SM (2004) Lipid utilisation, gluconeogenesis and seedling growth in Arabidopsis mutants lacking glyoxylate cycle enzyme malate synthase. J Biol Chem 279, 42916-42923.

2003

Sherson, SM., Alford, HL., Forbes, SM, Wallace G., and Smith, SM. (2003) Roles of cell wall invertases and monosaccharide transporters in the growth and development of Arabidopsis. J. Exp. Bot. 54, 525-531

Smith, AM., Zeeman, SC., Thorneycroft, D. and Smith, SM (2003) Starch mobilisation in leaves. J. Exp. Bot, 54, 577-583.

Smith, S.M. and Denyer, K (2003) Primary products: Starch. Encyclopedia of Applied Plant Sciences. (eds B. Thomas, D. Murphy and B. Murray). Academic Press, pp 896-905.

Denyer, K. and Smith, S.M. (2003) Seed development and starch deposition. Encyclopedia of Applied Plant Sciences. (eds B. Thomas, D. Murphy and B. Murray). Academic Press, pp 1249-1256.

Smith AM., Zeeman SC., Niittyla T., Kofler H, Thorneycroft D and Smith, S.M. (2003) Starch degradation in leaves. J. Appl. Glycoscience, 50, 173-176.

Stadler R, Büttner M, Ache P, Hedrich R, Ivashikina N, Melzer M, Sherson SM, Smith SM and Sauer N (2003) Diurnal and Light-Regulated Expression of AtSTP1 in Guard Cells of Arabidopsis. Plant Physiol. 133, 528-537. PMCID: 219029

2002

Cornah, J and Smith, S.M. (2002) Synthesis and function of glyoxylate cycle enzymes in plants. In ‘Plant peroxisomes’, Eds A. Baker and I. Graham, Kluwer, NL. book

Zeeman, S.C., Smith, S.M., Smith, A.M. (2002) The priming of amylose synthesis in Arabidopsis leaves. Plant Physiol, 128, 1069-1076. PMCID: 152218

Smith, S. M. (2002) Does the glyoxylate cycle have an anaplerotic role in plants? Trends in Plant Sci., 7, 12-13.

Yanase, M., Takata, H., Takaha, T., Kuriki, T., Okada, S. and Smith, S.M. (2002) Cyclization reaction catalyzed by glycogen debranching enzyme (EC 2.4.1.25/3.2.1.33), and its potential for cycloamylose production. Appl. Env. Microbiol. 68, 4233-4239.

2001

Critchley, J., Zeeman, S., Takaha, T., Smith, A.M. and Smith, S.M. (2001) A critical role for disproportionating enzyme in starch breakdown is revealed by a knock-out mutation in Arabidopsis thaliana. Plant J., 26, 89-100.

Thorneycroft, D., Sherson, S.M. and Smith, S. M. (2001) Using gene knock-outs to investigate plant metabolism. J. Exp. Bot., 52, 1593-1601.

Germain, V., Rylott, E., Larson, T.R., Sherson, S.M., Bechtold, N., Carde, J-P., Bryce, J.H., Graham, I.A. and Smith, S.M. (2001) Requirement for 3-ketoacyl-CoA thiolase-2 in peroxisome development, fatty acid b-oxidation and breakdown of triacylglycerol in lipid bodies of Arabidopsis seedlings Plant J. 28, 1-12.


Centre Publications

Chief Investigators

Personal Publications

  • Ian Small
  • Murray Badger
  • David Day
  • Harvey Millar
  • Barry Pogson
  • Steve Smith
  • Jim Whelan

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    last modified: Mon Jun 16 15:46:59 2008