|
Aducci P, Camoni L, Marra M, Visconti S 2002 From cytosol to organelles: 14-3-3 proteins as multifunctional regulators of plant cell. IUBMB Life 53: 49-55. Aharoni A, O'Connell AP 2002 Gene expression analysis of strawberry achene and receptacle maturation using DNA microarrays. J. Exp. Bot. 53: 2073-2087. Aitken A 1996 14-3-3 and its possible role in co-ordinating multiple signalling pathways. Trends Cell Biol. 6: 341-347. Aitken A 2002 Functional specificity in 14-3-3 isoform interactions through dimer formation and phosphorylation. Chromosome location of mammalian isoforms and variants. Plant Mol. Biol. 50: 993-1010. Aksamit A, Korobczak A, Skala J, Lukaszewicz M, Szopa J 2005 The 14-3-3 gene expression specificity in response to stress is promoter dependent. Plant Cell Physiol. 46: 1635-1645. Allegre A, Silvestre J, Morard P, Kallerhoff J, Pinelli E 2004 Nitrate reductase regulation in tomato roots by exogenous nitrate: a possible role in tolerance to long-term root anoxia. J. Exp. Bot. 55: 2625-2634. Athwal GS, Huber JL, Huber SC 1998 Phosphorylated nitrate reductase and 14-3-3 proteins. Site of interaction, effects of ions, and evidence for an AMP-binding site on 14-3-3 proteins. Plant Physiol. 118: 1041-1048. Athwal GS, Huber JL, Huber SC 1998 Biological significance of divalent metal ion binding to 14-3-3 proteins in relationship to nitrate reductase inactivation. Plant Cell Physiol. 39: 1065-1072. Athwal GS, Huber SC 2002 Divalent cations and polyamines bind to loop 8 of 14-3-3 proteins, modulating their interaction with phosphorylated nitrate reductase. Plant J. 29: 119-129. Athwal GS, Lombardo CR, Huber JL, Masters SC, Fu H, Huber SC 2000 Modulation of 14-3-3 protein interactions with target polypeptides by physical and metabolic effectors. Plant Cell Physiol. 41: 523-533. Babakov AV, Chelysheva VV, Klychnikov OI, Zorinyanz SE, Trofimova MS, De Boer AH 2000 Involvement of 14-3-3 proteins in the osmotic regulation of H+-ATPase in plant plasma membranes. Planta 211: 446-448. Bachmann M, Huber JL, Athwal GS, Wu K, Ferl RJ, Huber SC 1996 14-3-3 proteins associate with the regulatory phosphorylation site of spinach leaf nitrate reductase in an isoform-specific manner and reduce dephosphorylation of Ser-543 by endogenous protein phosphatases. FEBS Lett. 398: 26-30. Bachmann M, Huber JL, Liao PC, Gage DA, Huber SC 1996 The inhibitor protein of phosphorylated nitrate reductase from spinach (Spinacia oleracea) leaves is a 14-3-3 protein. FEBS Lett. 387: 127-131. Booij PP, Roberts MR, Vogelzang SA, Kraayenhof R, De Boer AH 1999 14-3-3 proteins double the number of outward-rectifying K+ channels available for activation in tomato cells. Plant J. 20: 673-683. Bulychev AA, van den Wijngaard PW, de Boer AH 2005 Spatial coordination of chloroplast and plasma membrane activities in Chara cells and its disruption through inactivation of 14-3-3 proteins. Biochemistry (Mosc.) 70: 55-61. Bunney TD, van den Wijngaard PW, de Boer AH 2002 14-3-3 protein regulation of proton pumps and ion channels. Plant Mol. Biol. 50: 1041-1051. Bustos DM, Iglesias AA 2003 Phosphorylated non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase from heterotrophic cells of wheat interacts with 14-3-3 proteins. Plant Physiol. 133: 2081-2088. Campbell WH 1999 Nitrate reductase structure, function and regulation: bridging the gap between biochemistry and physiology. Annu. Rev. Plant Physiol. Plant Mol. Biol. 50: 277-303. Cao A, Jain A, Baldwin JC, Raghothama KG 2007 Phosphate differentially regulates 14-3-3 family members and GRF9 plays a role in Pi-starvation induced responses. Planta 226: 1219-1230. Castleden CK, Aoki N, Gillespie VJ, MacRae EA, Quick WP, Buchner P, Foyer CH, Furbank RT, Lunn JE 2004 Evolution and function of the sucrose-phosphate synthase gene families in wheat and other grasses. Plant Physiol. 135: 1753-1764. Cherel I 2004 Regulation of K+ channel activities in plants: from physiological to molecular aspects. J. Exp. Bot. 55: 337-351. Chung H-J, Sehnke PC, Ferl RJ 1999 The 14-3-3 proteins: cellular regulators of plant metabolism. Trends Plant Sci. 4: 367-371. Comparot S, Lingiah G, Martin T 2003 Function and specificity of 14-3-3 proteins in the regulation of carbohydrate and nitrogen metabolism. J. Exp. Bot. 54: 595-604. Cotelle V, Meek SE, Provan F, Milne FC, Morrice N, MacKintosh C 2000 14-3-3s regulate global cleavage of their diverse binding partners in sugar-starved Arabidopsis cells. EMBO J. 19: 2869-2876. Datta R, Chamusco KC, Chourey PS 2002 Starch biosynthesis during pollen maturation is associated with altered patterns of gene expression in maize. Plant Physiol. 130: 1645-1656. Daugherty CJ, Rooney MF, Miller PW, Ferl RJ 1996 Molecular organization and tissue-specific expression of an Arabidopsis 14-3-3 gene. Plant Cell 8: 1239-1248. de Vetten NC, Ferl RJ 1994 Two genes encoding GF14 (14-3-3) proteins in Zea mays. Structure, expression, and potential regulation by the G-box binding complex. Plant Physiol. 106: 1593-1604. DeLille JM, Sehnke PC, Ferl RJ 2001 The Arabidopsis 14-3-3 family of signaling regulators. Plant Physiol. 126: 35-38. Dessi P, Pavlov PF, Wallberg F, Rudhe C, Brack S, Whelan J, Glaser E 2003 Investigations on the in vitro import ability of mitochondrial precursor proteins synthesized in wheat germ transcription-translation extract. Plant Mol. Biol. 52: 259-271. Douglas P, Moorhead G, Hong Y, Morrice N, MacKintosh C 1998 Purification of a nitrate reductase kinase from Spinacea oleracea leaves, and its identification as a calmodulin-domain protein kinase. Planta 206: 435-442. Douglas P, Pigaglio E, Ferrer A, Halfords NG, MacKintosh C 1997 Three spinach leaf nitrate reductase-3-hydroxy-3-methylglutaryl-CoA reductase kinases that are required by reversible phosphorylation and/or Ca2+ ions. Biochem. J. 325: 101-109. Eckardt NA 2001 Transcription factors dial 14-3-3 for nuclear shuttle. Plant Cell 13: 2385-2389. Emi T, Kinoshita T, Shimazaki Ki K 2001 Specific binding of vf14-3-3a isoform to the plasma membrane H(+)-ATPase in response to blue light and fusicoccin in guard cells of broad bean. Plant Physiol. 125: 1115-1125. Ferl RJ 2004 14-3-3 proteins: regulation of signal-induced events. Physiol. Plant. 120: 173-178. Ferl RJ 1996 14-3-3 proteins and signal transduction. Annu. Rev. Plant Physiol. Plant Mol. Biol. 47: 49-73. Finnemann J, Schjoerring JK 2000 Post-translational regulation of cytosolic glutamine synthetase by reversible phosphorylation and 14-3-3 protein interaction. Plant J. 24: 171-181. Finni C, Andersen CH, Borch J, Gjetting S, Christensen AB, de Boer AH, Thordal-Christensen H, Collinge DB 2002 Do 14-3-3 proteins and plasma membrane H+-AtPases interact in the barley epidermis in response to the barley powdery mildew fungus? Plant Mol. Biol. 49: 137-147. Finnie C, Borch J, Collinge DB 1999 14-3-3 proteins: eukaryotic regulatory proteins with many functions. Plant Mol. Biol. 40: 545-554. Fiol DF, Kultz D 2007 Osmotic stress sensing and signaling in fishes. FEBS J. 274: 5790-5798. Fuglsang AT, Borch J, Bych K, Jahn TP, Roepstorff P, Palmgren MG 2003 The binding site for regulatory 14-3-3 protein in plant plasma membrane H+- ATPase: involvement of a region promoting phosphorylation-independent interaction in addition to the phosphorylation-dependent C-terminal end. J. Biol. Chem. 278: 42266-42272. Fuglsang AT, Guo Y, Cuin TA, Qiu Q, Song C, Kristiansen KA, Bych K, Schulz A, Shabala S, Schumaker KS, Palmgren MG, Zhu JK 2007 Arabidopsis protein kinase PKS5 inhibits the plasma membrane H+ -ATPase by preventing interaction with 14-3-3 protein. Plant Cell 19: 1617-1634. Fulgosi H, Soll J, de Faria Maraschin S, Korthout HA, Wang M, Testerink C 2002 14-3-3 proteins and plant development. Plant Mol. Biol. 50: 1019-1029. Garufi A, Visconti S, Camoni L, Aducci P 2007 Polyamines as physiological regulators of 14-3-3 interaction with the plant plasma membrane H+-ATPase. Plant Cell Physiol. 48: 434-440. Gonzalez CA, Kirkwood C, Kenis JD 2000 Occurrence of a protein that preferentially inactivates phospho-nitrate reductase in oat (Avena sativa) leaves. Phyton-Int. J. Exp. Bot. 69: 109-118. Hajduch M, Ganapathy A, Stein JW, Thelen JJ 2005 A systematic proteomic study of seed filling in soybean. Establishment of high-resolution two-dimensional reference maps, expression profiles, and an interactive proteome database. Plant Physiol. 137: 1397-1419. Harthill JE, Meek SE, Morrice N, Peggie MW, Borch J, Wong BH, Mackintosh C 2006 Phosphorylation and 14-3-3 binding of Arabidopsis trehalose-phosphate synthase 5 in response to 2-deoxyglucose. Plant J. 47: 211-223. Henriksson ML, Francis MS, Peden A, Aili M, Stefansson K, Palmer R, Aitken A, Hallberg B 2002 A nonphosphorylated 14-3-3 binding motif on exoenzyme S that is functional in vivo. Eur. J. Biochem. 269: 4921-4929. Hill MK, Lyon KJ, Lyon BR 1999 Identification of disease response genes expressed in Gossypium hirsutum upon infection with the wilt pathogen Verticillium dahliae. Plant Mol. Biol. 40: 289-296. Huber SC, MacKintosh C, Kaiser WM 2002 Metabolic enzymes as targets for 14-3-3 proteins. Plant Mol. Biol. 50: 1053-1063. Hutchins JRA, Dikovskaya D, Clarke PR 2002 Dephosphorylation of the inhibitory phosphorylation site S287 in Xenopus Cdc25C by protein phosphatase-2A is inhibited by 14- 3-3 binding. FEBS Lett. 528: 267-271. Igarashi D, Ishida S, Fukazawa J, Takahashi Y 2001 14-3-3 proteins regulate intracellular localization of the bZIP transcriptional activator RSG. Plant Cell 13: 2483-2497. Iglesias-Bartolome R, Gonzalez CA, Kenis JD 2004 Nitrate reductase dephosphorylation is induced by sugars and sugar-phosphates in corn leaf segments. Physiol. Plant. 122: 62-67. Ikeda Y, Koizumi N, Kusano T, Sano H 2000 Specific binding of a 14-3-3 protein to autophosphorylated WPK4, an SNF1-related wheat protein kinase, and to WPK4-phosphorylated nitrate reductase. J. Biol. Chem. 275: 31695-31700. Inoue SI, Kinoshita T, Shimazaki KI 2005 Possible involvement of phototropins in leaf movement of kidney bean in response to blue light. Plant Physiol. 138: 1994-2004. Ishida S, Fukazawa J, Yuasa T, Takahashi Y 2004 Involvement of 14-3-3 signaling protein binding in the functional regulation of the transcriptional activator REPRESSION OF SHOOT GROWTH by gibberellins. Plant Cell 16: 2641-2651. Jarillo JA, Capel J, Leyva A, Martinez-Zapater JM, Salinas J 1994 Two related low-temperature-inducible genes of Arabidopsis encode proteins showing high homology to 14-3-3 proteins, a family of putative kinase regulators. Plant Mol. Biol. 25: 693-704. Jaspert N, Oecking C 2002 Regulatory 14-3-3 proteins bind the atypical motif within the C terminus of the plant plasma membrane H(+)-ATPase via their typical amphipathic groove. Planta 216: 136-139. Kaiser WM, Huber SC 2001 Post-translational regulation of nitrate reductase: mechanism, physiological relevance and environmental triggers. J. Exp. Bot. 52: 1981-1989. Kaiser WM, Kandlbinder A, Stoimenova M, Glaab J 2000 Discrepancy between nitrate reduction rates in intact leaves and nitrate reductase activity in leaf extracts: what limits nitrate reduction in situ? Planta 210: 801-807. Kaiser WM, Weiner H, Kandlbinder A, Tsai CB, Rockel P, Sonoda M, Planchet E 2002 Modulation of nitrate reductase: some new insights, an unusual case and a potentially important side reaction. J. Exp. Bot. 53: 875-882. Kanamaru K, Wang R, Su W, Crawford NM 1999 Ser-534 in the hinge 1 region of Arabidopsis nitrate reductase is conditionally required for binding of 14-3-3 proteins and in vitro inhibition. J. Biol. Chem. 274: 4160-4165. Kandlbinder A, Weiner H, Kaiser WM 2000 Nitrate reductases from leaves of Ricinus (Ricinus communis L.) and spinach (Spinacia oleracea L.) have different regulatory properties. J. Exp. Bot. 51: 1099-1105. Karlova R, Boeren S, Russinova E, Aker J, Vervoort J, de Vries S 2006 The Arabidopsis SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE1 protein complex includes BRASSINOSTEROID-INSENSITIVE1. Plant Cell 18: 626-638. Kinoshita T, Emi T, Tominaga M, Sakamoto K, Shigenaga A, Doi M, Shimazaki K 2003 Blue-light- and phosphorylation-dependent binding of a 14-3-3 protein to phototropins in stomatal guard cells of broad bean. Plant Physiol. 133: 1453-1463. Klahre U, Kost B 2006 Tobacco RhoGTPase ACTIVATING PROTEIN1 spatially restricts signaling of RAC/Rop to the apex of pollen tubes. Plant Cell 18: 3033-3046. Kulma A, Villadsen D, Campbell DG, Meek SE, Harthill JE, Nielsen TH, MacKintosh C 2004 Phosphorylation and 14-3-3 binding of Arabidopsis 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Plant J. 37: 654-667. Kultz D 2001 Cellular osmoregulation: beyond ion transport and cell volume. Zoology (Jena) 104: 198-208. Kuramae EE, Fenille RC, de Rosa VE 2001 Identification of 14-3-3-like protein in sugarcane (Saccharum officinarum). Genet. Mol. Biol. 24: 43-48. Lalle M, Visconti S, Marra M, Camoni L, Velasco R, Aducci P 2005 ZmMPK6, a novel maize MAP kinase that interacts with 14-3-3 proteins. Plant Mol. Biol. 59: 713-722. Lancien M, Roberts MR 2006 Regulation of Arabidopsis thaliana 14-3-3 gene expression by gamma-aminobutyric acid. Plant Cell Environ. 29: 1430-1436. Latz A, Becker D, Hekman M, Müller T, Beyhl D, Marten I, Eing C, Fischer A, Dunkel M, Bertl A, Rapp UR, Hedrich R 2007 TPK1, a Ca(2+)-regulated Arabidopsis vacuole two-pore K(+) channel is activated by 14-3-3 proteins. Plant J. 52: 449-459. Laughner B, Lawrence SD, Ferl RJ 1994 Two tomato fruit homologs of 14-3-3 mammalian brain proteins. Plant Physiol. 105: 1457-1458. Lea US, Ten Hoopen F, Provan F, Kaiser WM, Meyer C, Lillo C 2004 Mutation of the regulatory phosphorylation site of tobacco nitrate reductase results in high nitrite excretion and NO emission from leaf and root tissue. Planta 219: 59-65. Lillo C, Kazazaic S, Ruoff P, Meyer C 1997 Characterization of nitrate reductase from light- and dark-exposed leaves. Comparison of different species and effects of 14-3-3 inhibitor proteins. Plant Physiol. 114: 1377-1383. Lillo C, Lea US, Leydecker MT, Meyer C 2003 Mutation of the regulatory phosphorylation site of tobacco nitrate reductase results in constitutive activation of the enzyme in vivo and nitrite accumulation. Plant J. 35: 566-573. Lillo C, Meyer C, Lea US, Provan F, Oltedal S 2004 Mechanism and importance of post-translational regulation of nitrate reductase. J. Exp. Bot. 55: 1275-1282. Lima L, Seabra A, Melo P, Cullimore J, Carvalho H 2006 Post-translational regulation of cytosolic glutamine synthetase of Medicago truncatula. J. Exp. Bot. 57: 2751-2761. Lima L, Seabra A, Melo P, Cullimore J, Carvalho H 2006 Phosphorylation and subsequent interaction with 14-3-3 proteins regulate plastid glutamine synthetase in Medicago truncatula. Planta 223: 558-567. Lu G, Sehnke PC, Ferl RJ 1994 Phosphorylation and calcium binding properties of an Arabidopsis GF14 brain protein homolog. Plant Cell 6: 501-510. Luker KE, Smith MC, Luker GD, Gammon ST, Piwnica-Worms H, Piwnica-Worms D 2004 Kinetics of regulated protein-protein interactions revealed with firefly luciferase complementation imaging in cells and living animals. Proc. Natl. Acad. Sci. U.S.A. 101: 12288-12293. MacKintosh C 1998 Regulation of cytosolic enzymes in primary metabolism by reversible protein phosphorylation. Curr. Opin. Plant Biol. 1: 224-229. MacKintosh C, Meek SE 2001 Regulation of plant NR activity by reversible phosphorylation, 14-3-3 proteins and proteolysis. Cell Mol. Life Sci. 58: 205-214. Malerba M, Crosti P, Cerana R, Bianchetti R 2004 Fusicoccin affects cytochrome c leakage and cytosolic 14-3-3 accumulation independent of H-ATPase activation. Physiol. Plant. 120: 386-394. Man HM, Kaiser WM 2001 Increased glutamine synthetase activity and changes in amino acid pools in leaves treated with 5-aminoimidazole-4-carboxiamide ribonucleoside (AICAR). Physiol. Plant. 111: 291-296. Maraschin Sde F, Lamers GE, de Pater BS, Spaink HP, Wang M 2003 14-3-3 isoforms and pattern formation during barley microspore embryogenesis. J. Exp. Bot. 54: 1033-1043. Marra M, Fullone MR, Fogliano V, Pen J, Mattei M, Masi S, Aducci P 1994 The 30-kilodalton protein present in purified fusicoccin receptor preparations is a 14-3-3-like protein. Plant Physiol. 106: 1497-1501. May T, Soll J 2000 14-3-3 proteins form a guidance complex with chloroplast precursor proteins in plants. Plant Cell 12: 53-64. Miflin BJ, Habash DZ 2002 The role of glutamine synthetase and glutamate dehydrogenase in nitrogen assimilation and possibilities for improvement in the nitrogen utilization of crops. J. Exp. Bot. 53: 979-987. Miller AJ, Fan X, Shen Q, Smith SJ 2008 Amino acids and nitrate as signals for the regulation of nitrogen acquisition. J. Exp. Bot. 59: 111-119. Moorhead G, Douglas P, Cotelle V, Harthill J, Morrice N, Meek S, Deiting U, Stitt M, Scarabel M, Aitken A, MacKintosh C 1999 Phosphorylation-dependent interactions between enzymes of plant metabolism and 14-3-3 proteins. Plant J. 18: 1-12. Moorhead G, Douglas P, Morrice N, Scarabel M, Aitken A, MacKintosh C 1996 Phosphorylated nitrate reductase from spinach leaves is inhibited by 14-3-3 proteins and activated by fusicoccin. Curr. Biol. 6: 1104-1113. Morandini P, Valera M, Albumi C, Bonza MC, Giacometti S, Ravera G, Murgia I, Soave C, De Michelis MI 2002 A novel interaction partner for the C-terminus of Arabidopsis thaliana plasma membrane H+-ATPase (AHA1 isoform): site and mechanism of action on H+-ATPase activity differ from those of 14-3-3 proteins. Plant J. 31: 487-497. Moriuchi H, Okamoto C, Nishihama R, Yamashita I, Machida Y, Tanaka N 2004 Nuclear localization and interaction of RolB with plant 14-3-3 proteins correlates with induction of adventitious roots by the oncogene rolB. Plant J. 38: 260-275. Morot-Gaudry-Talarmain Y, Rockel P, Moureaux T, Quillere I I, Leydecker MT, Kaiser WM, Morot-Gaudry JF 2002 Nitrite accumulation and nitric oxide emission in relation to cellular signaling in nitrite reductase antisense tobacco. Planta 215: 708-715. Nakamura K, Shiraishi N, Hosoo S, Sueyoshi K, Sugimoto T, Nanmori T, Nakagawa H, Oji Y 2002 A protein kinase activated by darkness phosphorylates nitrate reductase in Komatsuna (Brassica campestris) leaves. Physiol. Plant. 115: 496-503. Olsson A, Svennelid F, Ek B, Sommarin M, Larsson C 1998 A phosphothreonine residue at the C-terminal end of the plasma membrane H+-ATPase is protected by fusicoccin-induced 14-3-3 binding. Plant Physiol. 118: 551-555. Palmgren MG 2001 Plant plasmamembrane H+-ATPases: powerhouses for nutrient uptake. Annu. Rev. Plant Physiol. Plant Mol. Biol. 52: 817-845. Pan S, Sehnke PC, Ferl RJ, Gurley WB 1999 Specific interactions with TBP and TFIIB in vitro suggest that 14-3-3 proteins may participate in the regulation of transcription when part of a DNA binding complex. Plant Cell 11: 1591-1602. Perdomo G, Navarro FJ, Medina B, Machin F, Tejera P, Siverio JM 2002 Tobacco Nia2 cDNA functionally complements a Hansenula polymorpha yeast mutant lacking nitrate reductase. A new expression system for the study of plant proteins involved in nitrate assimilation. Plant Mol. Biol. 50: 405-413. Pertl H, Himly M, Gehwolf R, Kriechbaumer R, Strasser D, Michalke W, Richter K, Ferreira F, Obermeyer G 2001 Molecular and physiological characterisation of a 14-3-3 protein from lily pollen grains regulating the activity of the plasma membrane H+ ATPase during pollen grain germination and tube growth. Planta 213: 132-141. Pigaglio E, Durand N, Meyer C 1999 A conserved acidic motif in the N-terminal domain of nitrate reductase is necessary for the inactivation of the enzyme in the dark by phosphorylation and 14-3-3 binding. Plant Physiol. 119: 219-230. Piotrowski M, Oecking C 1998 Five new 14-3-3 isoforms from Nicotiana tabacum L.: implications for the phylogeny of plant 14-3-3 proteins. Planta 204: 127-130. Pozuelo M, MacKintosh C, Galvan A, Fernandez E 2001 Cytosolic glutamine synthetase and not nitrate reductase from the green alga Chlamydomonas reinhardtii is phosphorylated and binds 14-3-3 proteins. Planta 212: 264-269. Provan F, Aksland LM, Meyer C, Lillo C 2000 Deletion of the nitrate reductase N-terminal domain still allows binding of 14-3-3 proteins but affects their inhibitory properties. Plant Physiol. 123: 757-764. Riedel J, Tischner R, Mack G 2001 The chloroplastic glutamine synthetase (GS-2) of tobacco is phosphorylated and associated with 14-3-3 proteins inside the chloroplast. Planta 213: 396-401. Rienties IM, Vink J, Borst JW, Russinova E, de Vries SC 2005 The Arabidopsis SERK1 protein interacts with the AAA-ATPase AtCDC48, the 14-3-3 protein GF14lambda and the PP2C phosphatase KAPP. Planta 221: 394-405. Robb J, Lee B, Nazar RN 2007 Gene suppression in a tolerant tomato-vascular pathogen interaction. Planta 226: 299-309. Roberts MR 2003 14-3-3 proteins find new partners in plant cell signalling. Trends Plant Sci. 8: 218-223. Roberts MR, Bowles DJ 1999 Fusicoccin, 14-3-3 proteins, and defense responses in tomato plants. Plant Physiol. 119: 1243-1250. Roberts MR, Salinas J, Collinge DB 2002 14-3-3 proteins and the response to abiotic and biotic stress. Plant Mol. Biol. 50: 1031-1039. Rohila JS, Chen M, Chen S, Chen J, Cerny R, Dardick C, Canlas P, Xu X, Gribskov M, Kanrar S, Zhu JK, Ronald P, Fromm ME 2006 Protein-protein interactions of tandem affinity purification-tagged protein kinases in rice. Plant J. 46: 1-13. Rosenquist M, Alsterfjord M, Larsson C, Sommarin M 2001 Data mining the Arabidopsis genome reveals fifteen 14-3-3 genes. Expression is demonstrated for two out of five novel genes. Plant Physiol. 127: 142-149. Rubio MP, Geraghty KM, Wong BH, Wood NT, Campbell DG, Morrice N, Mackintosh C 2004 14-3-3-affinity purification of over 200 human phosphoproteins reveals new links to regulation of cellular metabolism, proliferation and trafficking. Biochem. J. 379: 395-408. Sabina RL, Paul AL, Ferl RJ, Laber B, Lindell SD 2007 Adenine nucleotide pool perturbation is a metabolic trigger for AMP deaminase inhibitor-based herbicide toxicity. Plant Physiol. 143: 1752-1760. Schiltz S, Gallardo K, Huart M, Negroni L, Sommerer N, Burstin J 2004 Proteome reference maps of vegetative tissues in pea. an investigation of nitrogen mobilization from leaves during seed filling. Plant Physiol. 135: 2241-2260. Schoonheim PJ, Veiga H, Pereira Dda C, Friso G, van Wijk KJ, de Boer AH 2007 A comprehensive analysis of the 14-3-3 interactome in barley leaves using a complementary proteomics and two-hybrid approach. Plant Physiol. 143: 670-683. Schultz TF, Medina J, Hill A, Quatrano RS 1998 14-3-3 proteins are part of an abscisic acid-VIVIPAROUS1 (VP1) response complex in the Em promoter and interact with VP1 and EmBP1. Plant Cell 10: 837-847. Sehnke PC, DeLille JM, Ferl RJ 2002 Consummating signal transduction: the role of 14-3-3 proteins in the completion of signal-induced transitions in protein activity. Plant Cell 14 Suppl.: 339S-354S. Sehnke PC, Ferl RJ 1996 Plant metabolism: enzyme regulation by 14-3-3 proteins. Curr. Biol. 6: 1403-1405. Sehnke PC, Henry R, Cline K, Ferl RJ 2000 Interaction of a plant 14-3-3 protein with the signal peptide of a thylakoid-targeted chloroplast precursor protein and the presence of 14-3-3 isoforms in the chloroplast stroma. Plant Physiol. 122: 235-242. Sehnke PC, Laughner B, Cardasis H, Powell D, Ferl RJ 2006 Exposed loop domains of complexed 14-3-3 proteins contribute to structural diversity and functional specificity. Plant Physiol. 140: 647-660. Sehnke PC, Rosenquist M, Alsterfjord M, DeLille J, Sommarin M, Larsson C, Ferl RJ 2002 Evolution and isoform specificity of plant 14-3-3 proteins. Plant Mol. Biol. 50: 1011-1018. Shen W, Clark AC, Huber SC 2003 The C-terminal tail of Arabidopsis 14-3-3omega functions as an autoinhibitor and may contain a tenth alpha-helix. Plant J. 34: 473-484. Shen W, Huber SC 2006 Polycations globally enhance binding of 14-3-3{omega} to target proteins in spinach leaves. Plant Cell Physiol. 47: 764-771. Sinnige MP, Roobeek I, Bunney TD, Visser AJ, Mol JN, de Boer AH 2005 Single amino acid variation in barley 14-3-3 proteins leads to functional isoform specificity in the regulation of nitrate reductase. Plant J. 44: 1001-1009. Sinnige MP, ten Hoopen P, van den Wijngaard PWJ, Roobeek I, Schoonheim PJ, Mol JNM, de Boer AH 2005 The barley two-pore K+-channel HvKCO1 interacts with 14-3-3 proteins in an isoform specific manner. Plant Sci. 169: 612-619. Sorrell DA, Marchbank AM, Chrimes DA, Dickinson JR, Rogers HJ, Francis D, Grierson CS, Halford NG 2003 The Arabidopsis 14-3-3 protein, GF14omega, binds to the Schizosaccharomyces pombe Cdc25 phosphatase and rescues checkpoint defects in the rad24- mutant. Planta 218: 50-57. Sottocornola B, Visconti S, Orsi S, Gazzarrini S, Giacometti S, Olivari C, Camoni L, Aducci P, Marra M, Abenavoli A, Thiel G, Moroni A 2006 The potassium channel KAT1 is activated by plant and animal 14-3-3 proteins. J. Biol. Chem. 281: 35735-35741. Sugden C, Donaghy PG, Halford NG, Grahame Hardie D 1999 Two SNF1-related protein kinases from spinach leaf phosphorylate and inactivate 3-hydroxy-3-methylglutaryl-coenzyme A reductase, nitrate reductase, and sucrose phosphate synthase in vitro. Plant Physiol. 120: 257-274. Swiedrych A, Prescha A, Matysiak-Kata I, Biernat J, Szopa J 2002 Repression of the 14-3-3 gene affects the amino acid and mineral composition of potato tubers. J. Agric. Food Chem. 50: 2137-2141. Szopa J 2002 Transgenic 14-3-3 isoforms in plants: the metabolite profiling of repressed 14-3-3 protein synthesis in transgenic potato plants. Biochem. Soc. Trans. 30: 405-410. Takahashi Y, Fukazawa J, Matushita A, Ishida S 2003 Involvement of RSG and 14-3-3 proteins in the transcriptional regulation of a GA biosynthetic gene. J. Plant Growth Regul. 22: 195-204. Takahashi Y, Kinoshita T, Shimazaki K 2007 Protein phosphorylation and binding of a 14-3-3 protein in Vicia guard cells in response to ABA. Plant Cell Physiol. 48: 1182-1191. Testerink C, Dekker HL, Lim ZY, Johns MK, Holmes AB, Koster CG, Ktistakis NT, Munnik T 2004 Isolation and identification of phosphatidic acid targets from plants. Plant J. 39: 527-536. Testerink C, van der Meulen RM, Oppedijk BJ, de Boer AH, Heimovaara-Dijkstra S, Kijne JW, Wang M 1999 Differences in spatial expression between 14-3-3 isoforms in germinating barley embryos. Plant Physiol. 121: 81-88. Testerink C, van Zeijl MJ, Drumm K, Palmgren MG, Collinge DB, Kijne JW, Wang M 2002 Post-translational modification of barley 14-3-3A is isoform-specific and involves removal of the hypervariable C-terminus. Plant Mol. Biol. 50: 535-542. Thelander M, Fredriksson D, Schouten J, Hoge JH, Ronne H 2002 Cloning by pathway activation in yeast: identification of an Arabidopsis thaliana F-box protein that can turn on glucose repression. Plant Mol. Biol. 49: 69-79. Tsai CB, Kaiser WM, Kaldenhoff R 2003 Molecular cloning and characterization of nitrate reductase from Ricinus communis L. heterologously expressed in Pichia pastoris. Planta 217: 962-970. Tucker DE, Allen DJ, Ort DR 2004 Control of nitrate reductase by circadian and diurnal rhythms in tomato. Planta 219: 277-285. van den Wijngaard PW, Sinnige MP, Roobeek I, Reumer A, Schoonheim PJ, Mol JN, Wang M, De Boer AH 2005 Abscisic acid and 14-3-3 proteins control K channel activity in barley embryonic root. Plant J. 41: 43-55. van der Hoeven PC, Siderius M, Korthout HA, Drabkin AV, de Boer AH 1996 A calcium and free fatty acid-modulated protein kinase as putative effector of the fusicoccin 14-3-3 receptor. Plant Physiol. 111: 857-865. van Zeijl MJ, Testerink C, Kijne JW, Wang M 2000 Subcellular differences in post-translational modification of barley 14-3-3 proteins. FEBS Lett. 473: 292-296. Voigt J, Frank R 2003 14-3-3 proteins are constituents of the insoluble glycoprotein framework of the Chlamydomonas cell wall. Plant Cell 15: 1399-1413. Voigt J, Liebich I, Kiess M, Frank R 2001 Subcellular distribution of 14-3-3 proteins in the unicellular green alga Chlamydomonas reinhardtii. Eur. J. Biochem. 268: 6449-6457. Walter M, Chaban C, Schutze K, Batistic O, Weckermann K, Nake C, Blazevic D, Grefen C, Schumacher K, Oecking C, Harter K, Kudla J 2004 Visualization of protein interactions in living plant cells using bimolecular fluorescence complementation. Plant J. 40: 428-438. Wang YH, Garvin DF, Kochian LV 2002 Rapid induction of regulatory and transporter genes in response to phosphorus, potassium, and iron deficiencies in tomato roots. evidence for cross talk and root/rhizosphere-mediated signals. Plant Physiol. 130: 1361-1370. Weiner H, Kaiser WM 1999 14-3-3 proteins control proteolysis of nitrate reductase in spinach leaves. FEBS Lett. 455: 75-78. Weiner H, Kaiser WM 2001 Antibodies to assess phosphorylation of spinach leaf nitrate reductase on serine 543 and its binding to 14-3-3 proteins. J. Exp. Bot. 52: 1165-1172. Weiner H, Kaiser WM 2000 Binding to 14-3-3 proteins is not sufficient to inhibit nitrate reductase in spinach leaves. FEBS Lett. 480: 217-220. Wienkoop S, Saalbach G 2003 Proteome analysis. Novel proteins identified at the peribacteroid membrane from Lotus japonicus root nodules. Plant Physiol. 131: 1080-1090. Wu K, Rooney MF, Ferl RJ 1997 The Arabidopsis 14-3-3 multigene family. Plant Physiol. 114: 1421-1431. Xu WF, Shi WM 2006 Expression profiling of the 14-3-3 gene family in response to salt stress and potassium and iron deficiencies in young tomato (Solanum lycopersicum) roots: analysis by real-time RT-PCR. Ann. Bot. (Lond.) 98: 965-974. Yan J, He C, Wang J, Mao Z, Holaday SA, Allen RD, Zhang H 2004 Overexpression of the Arabidopsis 14-3-3 protein GF14 lambda in cotton leads to a "stay-green" phenotype and improves stress tolerance under moderate drought conditions. Plant Cell Physiol. 45: 1007-1014. Yang X, Lee WH, Sobott F, Papagrigoriou E, Robinson CV, Grossmann JG, Sundstrom M, Doyle DA, Elkins JM 2006 Structural basis for protein-protein interactions in the 14-3-3 protein family. Proc. Natl. Acad. Sci. U.S.A. 103: 17237-17242. Zhang H, Wang J, Hwang I, Goodman HM 1995 Isolation and expression of an Arabidopsis 14-3-3-like protein gene. Biochim. Biophys. Acta 1266: 113-116. Zhang H, Wang J, Nickel U, Allen RD, Goodman HM 1997 Cloning and expression of an Arabidopsis gene encoding a putative peroxisomal ascorbate peroxidase. Plant Mol. Biol. 34: 967-971. Zhang X, Wang H, Takemiya A, Song CP, Kinoshita T, Shimazaki K 2004 Inhibition of blue light-dependent H+ pumping by abscisic acid through hydrogen peroxide-induced dephosphorylation of the plasma membrane H+-ATPase in guard cell protoplasts. Plant Physiol. 136: 4150-4158. Zuk M, Skala J, Biernat J, Szopa J 2003 Repression of six 14-3-3 protein isoforms resulting in the activation of nitrate and carbon fixation key enzymes from transgenic potato plants. Plant Sci. 165: 731-741. Zuk M, Weber R, Szopa J 2005 14-3-3 protein down-regulates key enzyme activities of nitrate and carbohydrate metabolism in potato plants. J. Agric. Food Chem. 53: 3454-3460.
Number of references = 159
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