Polyamines induce adaptive responses in water deficit stressed cucumber roots
Tóm tắt
Từ khóa
Tài liệu tham khảo
Arasimowicz-Jelonek M, Floryszak-Wieczorek J, Kubiś J (2009) Signal interaction between polyamines and nitric oxide intermediates cucumber adaptive responses to drought. J Plant Growth Regul 28:177–186
Ashraf M, Foolad MR (2007) Roles of glycine betaine and proline in improving plant abiotic stress resistance. Env Exp Bot 59:206–216
Bandurska H (2000) Does proline accumulated in leaves of water deficit stressed barley plants confine cell membrane injury? I. Free proline accumulation and membrane injury index in drought and osmotically stressed plants. Acta Physiol Plant 22:409–415
Bandurska H (2001) Does proline accumulated in leaves of water deficit stressed barley plants confine cell membrane injury? II. Proline accumulation during hardening and its involvement in reducing membrane injury in leaves subjected to severe osmotic stress. Acta Physiol Plant 23:483–490
Bandurska H, Stroiński A (2003) ABA and proline accumulation in leaves and roots of wild (Hordeum spontaneum) and cultivated (Hordeum vulgare ‘Maresi’) barley genotypes under water deficit conditions. Acta Physiol Plant 25:55–61
Bates LS, Waldren RP, Teare JD (1973) Rapid determination of proline for water stress studies. Plant Soil 39:205–207
Besford RT, Richardson JL, Campos AF, Tiburcio AF (1993) Effect of polyamines in stabilization of molecular complexes of thylakoid membranes of osmotically stressed oat leaves. Planta 189:201–206
Biondi S, Scaramagli S, Capitani F, Altamura MM, Torrigiani P (2001) Methyl jasmonate upregulates biosynthetic gene expression, oxidation and conjugation of polyamines, and inhibits shoot formation in tobacco thin layers. J Exp Bot 52:231–242
Borrell A, Carbonell R, Farras R, Puig-Parellada P, Tiburcio AF (1997) Polyamines inhibit lipid peroxidation in senescing oat leaves. Physiol Plant 99:385–390
Bors N, Langebartels C, Michel C, Sanderman H (1989) Polyamines as radical scavengers and protectants against ozone damage. Phytochem 28:1589–1595
Bouchereau A, Aziz A, Larher F, Martin-Tanguy J (1999) Polyamines and environmental challenges: recent development. Plant Sci 140:103–125
Bradford MM (1976) A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem 72:248–254
Brűggemann LI, Pottosin II, Schőnknecht G (1998) Cytoplasmic polyamines block the fast-activating vacuolar cation channels. Plant J 16:101–105
Chattopadhayay MK, Tiwari BS, Chattopadhayay G, Bose A, Sengupta DN, Ghosh B (2002) Protective role of exogenous polyamines on salinity-stressed rice (Oriza sativa) plants. Physiol Plant 116:192–199
Creelman RA, Mullet JE (1997) Biosynthesis and action of jasmonates in plants. Annu Rev Plant Physiol Plant Mol Biol 48:355–381
De Ronde JA, Spreeth MH, Cress WA (2000) Effect of antisense L-Δ1 –pyrroline-5-carboxylate reductase transgenic soybeen plants subjected to osmotic and drought stress. Plant Growth Regul 32:13–26
Egert M, Tevini M (2002) Influence of drought on some physiological parameters symptomatic for oxidative stress in leaves of chives (Alium schoenoprasum). Env Exp Bot 48:43–49
Flint HZ, Boyce BR, Brattie DJ (1967) Index of injury—a useful expression of freezing injury of plants tissues as determined by electric conductivity method. Can J Plant Sci 47:229–239
Flores HE (1991) Changes in polyamine metabolism in response to abiotic stress. In: Slocum RD, Flores HE (eds) The biochemistry and physiology of polyamines in plants. CRC Press, Boca Raton, pp 214–255
Flores HE, Galston AW (1984a) Osmotic stress-induced polyamine accumulation in cereal leaves. I. Physiological parameters of the response. Plant Physiol 75:102–109
Flores HE, Galston AW (1984b) Osmotic stress-induced polyamine accumulation in cereal leaves. II. Relation to amino acid pools. Plant Physiol 75:110–113
Gao HJ, Yang HQ, Wang JX (2009) Arginine metabolism in roots and leaves of apple (Malus domestica Borkh.): the tissue specific formation of both nitric oxide and polyamines. Sci Horti 119:147–152
Handa S, Handa AK, Hasegawa PM, Bressan RA (1986) Proline accumulation and adaptation of cultured plant cells to water stress. Plant Physiol 80:938–945
Hare PD, Cress WA (1997) Metabolic implications of stress-induced proline accumulation in plants. Plant Growth Regul 21:79–102
Kacperska A, Kubacka-Zębalska M (1989) Formation of stress ethylene depends both on ACC synthesis and on the activity of free radical-generating system. Physiol Plant 77:231–237
Kakkar RK, Sawhney VK (2002) Polyamine research in plants—a changing perspective. Physiol Plant 116:281–292
Kavi Kishor PB, Hong Z, Miao GH, Hu CAA, Verma DPS (1995) Overexpression of Δ1–pyrroline-5-carboxylate synthetase increases proline production and confers osmotolerance in transgenic plants. Plant Physiol 108:1387–1394
Knipp G, Honermeir B (2006) Effect of water stress on proline accumulation of genetically modified potatoes (Solanum tuberosum L.) generating fructans. J Plant Physiol 163:392–397
Kubiś J (2003) Polyamines and “scavenging system”: influence of exogenous spermidine on catalase and guaiacol peroxidase activities, and free polyamines level in barley leaves under water deficit. Acta Physiol Plant 25:337–343
Kubiś J (2006) Exogenous spermidine alters in different way membrane permeability and lipid peroxidation in water stressed barley leaves. Acta Physiol Plant 28:27–33
Kubiś J (2008) Exogenous spermidine alters in different ways activities of some scavenging system enzymes, H2O2 and superoxide radical levels in water stressed cucumber leaves. J Plant Physiol 165:397–406
Lafitte HR, Yongsheng G, Yan S, Li Z-K (2007) Whole plant responses, key processes, and adaptation to drought stress: the case of rice. J Exp Bot 58:169–175
Lee TM (1997) Polyamine regulation of growth and chilling tolerance of rice (Oryza sativa L.) roots cultured in vitro. Plant Sci 122:111–117
Legocka J, Kluk A (2005) Effect of salt and osmotic stress on changes in polyamine content and arginine decarboxylase activity in Lupinus luteus seedlings. J Plant Physiol 162:662–668
Lester GE (2000) Polyamines and their cellular anti-senescence properties in honey dew muskmelon fruit. Plant Sci 160:105–112
Liu JH, Kitashiba H, Wang J, Ban Y, Moriguchi T (2007) Polyamines and their ability to provide environmental stress tolerance. Plant Biotechnol 24:117–126
Lopez-Carrion AI, Castellano R, Rosales MA, Ruiz JM, Romero L (2008) Role of nitric oxide under saline stress: implications on proline metabolism. Biol Plant 52:587–591
Najaphy A, Niari khamssi N, Mostafaie A, Mirzaee H (2010) Effect of progressive water deficit stress on proline accumulation and protein profiles of leaves in chickpea. Afric J Biotech 9:7033–7036
Öztürk L, Demir Y (2003) Effects of putrescine and ethephon on some oxidative stress enzyme activities and proline content in salt stressed spinach leaves. Plant Growth Regul 40:89–95
Pompella A, Maellaro E, Casini AF, Comporti M (1987) Histochemical detection of lipid peroxidation in the liver of bromobenzene-poisoned mice. Am J Pathol 129:295–301
Raggi V (1994) Changes in free amino acid and osmotic adjustment in leaves of water-stressed been. Physiol Plant 91:427–434
Roberts DR, Dumdroff EB, Thompson JE (1986) Exogenous polyamines alter membrane fluidity in been leaves: a basic potential misinterpretation of their physiological role. Planta 167:395–401
Roosens NH, Bitar F, Loenders K, Angenon G, Jacobs M (2002) Overexpression of ornithine-δ-aminotransferase increases pro biosynthesis and osmotolerance in transgenic plants. Mol Breed 9:73–80
Rosahal S (1996) Lipoxygenases in plants—their role in development and stress responses. Z Naturforsch 51c:123–138
Ruan HH, Shen WB, Xu LL (2004) Nitric oxide involved in the abscisic acid induced proline accumulation in wheat seedling leaves under salt stress. Acta Biol Sin 46:1307–1315
Shen W, Nada K, Tachibana S (2000) Involvement of polyamines in the chilling tolerance of cucumber cultivars. Plant Physiol 124:431–439
Shinozaki K, Yamaguchi-Shinozaki K (2007) Gene networks involved in drought stress response and tolerance. J Exp Bot 58:221–227
Slocum RD, Kaur-Sawhney R, Galston AW (1984) The physiology and biochemistry of polyamines in higher plants. Arch Biochem Biophys 235:283–303
Tassoni A, Antognoni F, Battistini ML, Sanvido O, Bagni N (1998) Characterization of spermidine binding to solubilized plasma membrane proteins from zucchini hypocotyls. Plant Physiol 117:971–977
Tassoni A, Napier RM, Franceschetti M, Venis MA, Bagni N (2002) Spermidine-binding proteins. Purification and expression analysis in maize. Plant Physiol 128:1303–1312
Tun NN, Santa-Catarina C, Begum T, Silveira V, Handro W, Floh IS, Scherer FE (2006) Polyamines induce rapid biosynthesis of nitric oxide (NO) in Arabidopsis thaliana seedlings. Plant Cell Physiol 47:346–354
Turner LB, Stewart GR (1986) The effect of water stress upon polyamine levels in barley (Hordeum vulgare L.) leaves. J Exp Bot 175:170–177
Turner LB, Stewart GR (1988) Factors affecting polyamine accumulation in barley (Hordeum vulgare L.) leaf sections during osmotic stress. J Exp Bot 200:311–316
Valliodan B, Nguyen HT (2006) Understanding regulatory networks and engineering for enhanced drought tolerance in plants. Cur Opin Plant Biol 9:1–7
Walters D, Cowley T, Mitchell A (2002) Methyl jasmonate alters polyamine metabolism and induces systemic protection against powdery mildew infection in barley seedlings. J Exp Bot 53:747–756
Weatherley PE (1950) Studies in water relations of cotton plants. I. The field measurement of water deficits in leaves. New Phytol 49:81–97
Wells CE, Eissenstat DM (2003) Beyond the roots of young seedlings: the influence of age and order on fine root physiology. J Plant Growth Regul 21:324–334
Yamada M, Morishita H, Urano K, Shiozaki N, Yamaguhi-Shinozaki K, Shinozaki K, Yoshiba Y (2005) Effects of free proline accumulation in petunias under drought stress. J Exp Bot 56:1975–1981
Yamasaki H, Cohen MF (2006) NO signal at crossroads: polyamine induced nitric oxide synthesis in plants. Trends Plant Sci 11:522–524
Yang J, Zhang J, Liu K, Wang Z, Liu Z (2007) Involvement of polyamines in the drought resistance of rice. J Exp Bot 58:1545–1555