Characterization of a cDNA from Arabidopsis thaliana encoding a potential thiol protease whose expression is induced independently by wilting and abscisic acid (original) (raw)
Bartels D, Engelhardt K, Roncarati R, Schneider K, Rotter M, Salamini F: An ABA and GA modulated gene expressed in the barley embryo encodes an aldose reductase related protein. EMBO J 10: 1037–1043 (1991). PubMed Google Scholar
Bartels D, Thompson RD: The characterisation of cDNA clones coding for wheat storage proteins. Nucl Acids Res 11: 2961–2977 (1983). PubMed Google Scholar
Bartholomew DM, Bartley GE, Scolnik PA: Abscisic acid control of rbc S and cab transcription in tomato leaves. Plant Physiol 96: 291–296 (1991). Google Scholar
Braam J, Davis RW: Rain-, wind- and touch-induced expression of calmodulin and calmodulin-related genes in Arabidopsis. Cell 60: 357–364 (1990). ArticlePubMed Google Scholar
Bray EA: Drought-stress-induced polypeptide accumulation in tomato leaves. Plant Cell Envir 13: 531–538 (1990). Google Scholar
Bray EA: Regulation of gene expression by endogenous ABA during drought stress. In: Davies WJ, Jones HG (eds) Abscisic Acid: Physiology and Biochemistry, pp. 81–98. Bios Scientific Publishers, Oxford (1991). Google Scholar
Brown TA (ed): Molecular Biology LabFax. Bios Scientific Publishers, Oxford (1991). Google Scholar
Chen H-H, Li PH, Brenner ML: Involvement of abscisic acid in potato cold acclimation. Plant Physiol 71: 362–365 (1983). Google Scholar
Cohen A, Bray EA: Characterisation of three mRNAs that accumulate in wilted tomato leaves in response to elevated levels of endogenous abscisic acid. Planta 182: 27–33 (1990). Article Google Scholar
Daie J, Campbell WF: Response of tomato plants to stressful temperature. Increase in abscisic acid concentrations. Plant Physiol 67: 26–29 (1981). Google Scholar
Drenth J, Jansonius JN, Koeboek R, Swen HM, Wolthers BG: Structure of papain. Nature 218: 929–932 (1968). PubMed Google Scholar
Finkelstein RR, Somerville CR: Three classes of abscisic acid (ABA)-insensitive mutations of Arabidopsis define genes that control overlapping subsets of ABA responses. Plant Physiol 94: 1172–1179 (1990). Google Scholar
Guerrero FD, Mullet JE: Increased abscisic acid biosynthesis during plant dehydration requires transcription. Plant Physiol 80: 588–591 (1986). Google Scholar
Guerrero FD, Jones JT, Mullet JE: Turgor-reponsive gene transcription and RNA levels increase rapidly when pea shoots are wilted. Sequence and expression of three inducible genes. Plant Mol Biol 15: 11–26 (1990). PubMed Google Scholar
Hajela RK, Horvath DP, Gilmour SJ, Thomashow MF: Molecular cloning and expression of cor (_co_ld-regulated) genes in Arabidopsis thaliana. Plant Physiol 93: 1246–1252 (1990). Google Scholar
Hartung W, Davies WJ: Drought-induced changes in physiology and ABA. In: Davies WJ, Jones HG (eds) Abscisic Acid: Physiology and Biochemistry, pp. 63–80. Bios Scientific Publishers, Oxford (1991). Google Scholar
Koizumi M, Yamaguchi-Shinozaki K, Tsuji H, Shinozaki K: Structure and expression of two genes that encode distinct drought-inducible cysteine proteinases in Arabidopsis thaliana. Gene 129: 175–182 (1993). ArticlePubMed Google Scholar
Koornneef M, Jorna ML, Brinkhorst-van der Swan DLC, Karssen CM: The isolation of abscisic acid (ABA) deficient mutants by selection of induced revertants in nongerminating gibberellin sensitive lines of Arabidopsis thaliana (L.) Heynh. Theor Appl Genet 61: 385–393 (1982). Google Scholar
Koornneef M, Reuling G, Karssen CM: The isolation and characterisation of abscisic acid-insensitive mutants of Arabidopsis thaliana. Physiol Plant 61: 377–383 (1984). Google Scholar
Lee-Downing W, Mauxion F, Fauvarque M-O, Reviron M-P, de Vienne D, Vartanian N, Giraudat J: A Brassica napus transcript encoding a protein related to the Kunitz protease inhibitor family accumulates upon water stress in leaves, but not seeds. Plant J 2: 685–693 (1992). ArticlePubMed Google Scholar
Linthorst HJM, Vanderdoes C, Brederode FT, Bol JF: Circadian expression and induction by wounding of tobacco genes for cysteine proteinase. Plant Mol Biol 21: 685–694 (1993). PubMed Google Scholar
Linthorst HJM, Vanderdoes C, Vanken JAL, Bol JF: Nucleotide sequence of a cDNA clone encoding tomato (Lycopersicon esculentum) cysteine proteinase. Plant Physiol 101: 705–706 (1993). ArticlePubMed Google Scholar
Logemann J, Schell J, Willmitzer L: Improved method for the isolation of RNA from plant tissue. Anal Biochem 163: 16–20 (1987). PubMed Google Scholar
Loveys BR: The intracellular location of ABA in stressed and non-stressed leaf tissues. Physiol Plant 40: 6–19 (1977). Google Scholar
Kurkela S, Franck M: Cloning and characterisation of cold- and ABA-inducible Arabidopsis gene. Plant Mol Biol 15: 137–144 (1990). PubMed Google Scholar
Marcotte WR, Russell SH, Quatrano RS: Abscisic acid-responsive sequences from the Em gene of wheat. Plant Cell 1: 969–976 (1989). ArticlePubMed Google Scholar
McCue KF, Hansen AD: Drought and salt tolerance: towards an understanding. TIBTECH 8: 358–362 (1990). Google Scholar
Meidner H: Class Experiments in Plant Physiology. George Allen & Unwin, London (1984). Google Scholar
Neill SJ, Horgan R: Abscisic acid production and water relations in wilty tomato mutants subjected to water deficiency. J Exp Bot 36: 1222–1231 (1985). Google Scholar
Nordin K, Heino P, Palva ET: Separate signal pathways regulate the expression of a low-temperature-induced gene in Arabidopsis thaliana (L.) Heynh. Plant Mol Biol 16: 1061–1071 (1991). Article Google Scholar
Nordin K, Vahala T, Palva ET: Differential expression of two related low-temperature-induced genes in Arabidopsis thaliana (L.) Heynh. Plant Mol Biol 21: 641–653 (1993). Google Scholar
Quarrie SA, Lister PG: Effects of inhibitors of protein synthesis on abscisic acid accumulation in wheat. Z Pflanzenphysiol 114: 309–314 (1984). Google Scholar
Quarrie SA, Whitford PN, Appleford NEJ, Wang TL, Cook SK, Henson IE, Loveys BR: A monoclonal antibody to (S)-abscisic acid: its characterisation and use in a radioimmunoassy for measuring abscisic acid in crude extracts of cereal and lupin leaves. Planta 173: 330–339 (1988). Google Scholar
Sambrook J, Fritsch EF, Maniatis T: Molecular Cloning: A laboratory Manual, 2nd ed. Cold Spring Harbor Laboratory, Cold Spring Harbor, NY (1989). Google Scholar
Skriver K, Mundy J: Gene expression in response to abscisic acid and osmotic stress. Plant Cell 2: 503–512 (1990). ArticlePubMed Google Scholar
Skriver K, Olsen FK, Rogers JC, Mundy J: _Cis_-acting DNA elements responsive to gibberellin and its antagonist abscisic acid. Proc Natl Acad Sci USA 88: 7266–7270 (1991). PubMed Google Scholar
Vernon DM, Bohnert HJ: A novel methyl transferase induced by osmotic stress in the facultative halophyte Mesembryanthemum crystallinum. EMBO J: 2077–2085 (1992).
Vilardell J, Mundy J, Stilling B, Leroux B, Pla M, Freyssinet G, Pages M: Regulation of the maize rab 17 gene promoter in transgenic heterologous systems. Plant Mol Biol 17: 985–993 (1991). PubMed Google Scholar
Waldman M, Rikin A, Dovrat A, Richmond AE: Hormonal regulation of morphogenesis and cold resistance. II. Effect of cold-acclimation and of exogenous abscisic acid on gibberellic acid and abscisic acid activities in alfalfa (Medicago sativa L.) seedlings. J Exp Bot 26: 853–859 (1975). Google Scholar
Watanabe H, Abe K, Emori Y, Arai S: Molecular cloning and gibberellin-induced expression of multiple cysteine proteases of rice seeds. J Biol Chem 266: 16897–16902 (1991). PubMed Google Scholar
Weretilnyk EA, Hansen AD: Molecular cloning of a plant betaine-aldehyde dehydrogenase, an enzyme implicated in adaptation to salinity and drought. Proc Natl Acad Sci USA 87: 2745–2749 (1990). PubMed Google Scholar
Williams J, Bulman MP, Neill SJ: Wilt-induced ABA biosynthesis and gene expression in Arabidopsis thaliana. J Exp Bot 44S: 33–34 (1993). Google Scholar
Williams J, Bulman MP, Neill SJ: Wilt-induced ABA biosynthesis, gene expression and down-regulation of Rubisco SSU mRNA levels in Arabidopsis thaliana. Physiol Plant, in press.
Yamaguchi-Shinozaki K, Koizumi M, Urao S, Shinozaki K: Molecular cloning and characterization of 9 cDNAs for genes that are responsive to desiccation in Arabidopsis thaliana: sequence analysis of one cDNA clone that encodes a putative transmembrane channel protein. Plant Cell Physiol 33: 217–225 (1992). Google Scholar
Yamaguchi-Shinozaki K, Shinozaki K: Characterisation of the expression of a desiccation-response RD29 gene of Arabidopsis thaliana and analysis of its promoter in transgenic plants. Mol Gen Genet 238: 331–340 (1993). Google Scholar