Einar Mäntylä scite author profile

To study the role of abscisic acid (ABA) in development of freezing tolerance of Arabidopsis fhaliana, we exposed wild-type plants, the ABA-insensitive mutant abil, and the ABA-deficient mutant aba-1 to low temperature (LT), exogenous ABA, and drought. Exposure of A. fhaliana to drought stress resulted in a similar increase in freezing tolerance as achieved by ABA treatment or the initial stages of acclimation, suggesting overlapping responses to these environmental cues. ABA appears to be involved in both LT-and drought-induced freezing tolerance, since both ABA mutants were impaired in their responses to these stimuli. To correlate enhanced freezing tolerance with the presence of stressspecific proteins, we characterized the accumulation of RABl8 and LU78 in two ecotypes, Landsberg erecta and Coimbra, and in the ABA mutants during stress response. 11-and drought-induced accumulation of RABl8 coincided with the increase in freezing tolerante and was blocked in the cold-acclimation-deficient ABA mutants. In contrast, LT178 accumulated in all genotypes in response to LT and drought and was always present when the plants were freezing tolerant. This suggests that development of freezing tolerante in A. fhaliana requires ABA-controlled processes in addition to ABA-independent factors.

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Alterations in Water Status, Endogenous Abscisic Acid Content, and Expression of rab18 Gene during the Development of Freezing Tolerance in Arabidopsis thaliana

Lång

et al. 1994

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Drought tolerance in tobacco

Holmström

Mäntylä

Welin

et al. 1996

Nature

290

144

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Improved drought tolerance without undesired side effects in transgenic plants producing trehalose

et al. 2007

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Most organisms naturally accumulating trehalose upon stress produce the sugar in a two-step process by the action of the enzymes trehalose-6-phosphate synthase (TPS) and trehalose-6-phosphate phosphatase (TPP). Transgenic plants overexpressing TPS have shown enhanced drought tolerance in spite of minute accumulation of trehalose, amounts believed to be too small to provide a protective function. However, overproduction of TPS in plants has also been found combined with pleiotropic growth aberrations. This paper describes three successful strategies to circumvent such growth defects without loosing the improved stress tolerance. First, we introduced into tobacco a double construct carrying the genes TPS1 and TPS2 (encoding TPP) from Saccharomyces cerevisiae. Both genes are regulated by an Arabidopsis RuBisCO promoter from gene AtRbcS1A giving constitutive production of both enzymes. The second strategy involved stress-induced expression by fusing the coding region of ScTPS1 downstream of the drought-inducible Arabidopsis AtRAB18 promoter. In transgenic tobacco plants harbouring genetic constructs with either ScTPS1 alone, or with ScTPS1 and ScTPS2 combined, trehalose biosynthesis was turned on only when the plants experienced stress. The third strategy involved the use of AtRbcS1A promoter together with a transit peptide in front of the coding sequence of ScTPS1, which directed the enzyme to the chloroplasts. This paper confirms that the enhanced drought tolerance depends on unknown ameliorated water retention as the initial water status is the same in control and transgenic plants and demonstrates the influence of expression of heterologous trehalose biosynthesis genes on Arabidopsis root development.

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Nucleotide Sequence and Biological Properties of a Pathogenic Proviral Molecular Clone of Neurovirulent Visna Virus

et al. 1993

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Einar Mäntylä

Role of Abscisic Acid in Drought-Induced Freezing Tolerance, Cold Acclimation, and Accumulation of LT178 and RAB18 Proteins in Arabidopsis thaliana

Alterations in Water Status, Endogenous Abscisic Acid Content, and Expression of rab18 Gene during the Development of Freezing Tolerance in Arabidopsis thaliana

Drought tolerance in tobacco

Improved drought tolerance without undesired side effects in transgenic plants producing trehalose

Nucleotide Sequence and Biological Properties of a Pathogenic Proviral Molecular Clone of Neurovirulent Visna Virus

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