Differential mRNA transcription during salinity stress in barley

Ramagopal, Subbanaidu

doi:10.1073/pnas.84.1.94

Cited by 65 publications

(33 citation statements)

References 18 publications

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“…Several other groups are involved in similar work (8,9,19,22) using a slightly different approach in so far as they study gene expression in either salt adapted lines of glycophytes or the differences in gene expression between salt tolerant and sensitive genetic variants. One important character by which salt sensitive plants differ from halophytes as well as from the selected cell culture lines and salt tolerant cultivars is that glycophytes respond to salt stress by arrest of growth.…”

Section: Resultsmentioning

confidence: 99%

Time Course of mRNA Induction Elicited by Salt Stress in the Common Ice Plant (Mesembryanthemum crystallinum)

Michalowski

Olson²,

Piepenbrock³

et al. 1989

Plant Physiol.

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In the facultative halophyte Mesembryanthemum crystallinum (common ice plant), irrigation with solutions containing NaCI induces an altemate mode of carbon dioxide fixation, Crassulacean acid metabolism (CAM). The salt stress protocol which we have established facilitates the study of CAM induction and the correlation of changes in metabolism and gene expression. We have studied the time course of mRNA induction for phosphoenolpyruvate carboxylase (PEPCase) (gene: ppc) and several other enzymes of carbon metabolism during stress. While CAM is not fully established for at least 10 days after the start of stress, mRNA amounts for PEPCase and for other CAM enzymes, such as Pyruvate orthophosphate dikinase, increase between day 2 and 3 after stress induction. Increases continue for at least 5 days. Concomitant with the increase of CAM transcripts, fluctuations in the mRNA amounts for genes rbcS and cab were observed. Transcript levels for these proteins decreased severalfold during a 3 to 4 day period.Plants are subjected to a number of environmental stimuli, including stresses imposed either by lack of water or by increases in electrolyte concentration. Both drought and salt stress are probably perceived similarly. The effects of both stresses have been studied mainly at physiological levels and only in part biochemically. Genetic traits which contribute to salt tolerance are not yet sufficiently understood. As salt tolerance appears to be a multigenic trait only the simultaneous change of several or many characters would produce desired phenotypes. Up to now, however, it has been impossible to discern responses that are at the basis of the tolerance from the plethora of accompanying adaptations in metabolism. In our attempts to learn more about the basic regulatory mechanisms determining the phenotype 'salt tolerant,' we are studying characteristics which distinguish halophytic (i.e. salt tolerant) plants from glycophytic (salt sensitive) plants.

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Section: Resultsmentioning

confidence: 99%

Time Course of mRNA Induction Elicited by Salt Stress in the Common Ice Plant (Mesembryanthemum crystallinum)

Michalowski

Olson²,

Piepenbrock³

et al. 1989

Plant Physiol.

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“…Hurkman et al (1994) and Hurkman and Tanaka (1996) were the 1st to report GLP induction in barley roots during salt stress. Earlier, Ramagopal (1987) in barley and Naqvi et al (2009) in rice observed the induction of apparently similar proteins during salt stress by two-dimensional electrophoresis, although they did not characterize these proteins by sequencing. It has also been reported that salt stress can enhance wheat germin promoter activity in transgenic tobacco Bernier, 1997, 1999).…”

Section: Effect Of Dehydration and Salt Stress On Osrglp2 Promoter Acmentioning

confidence: 99%

Methodology Characterization of a rice germin-like protein gene promoter

Mahmood¹,

Yasmin²,

Haque³

et al. 2013

Genet. Mol. Res.

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“…The association between osmotin accumulation and stable NaCI tolerance indicates that cells with a stable genetic change affecting the accumulation of osmotin are selected during prolonged exposure to high levels of NaCI. This stable alteration in gene expression probably affects salt tolerance.NaCl stress evokes changes in the levels of several plant gene products (8,12,14,21,(24)(25)(26)(27)(28). Since none of these gene products have been shown to be unequivocally involved in physiological adaptation to NaCl stress, additional information on the regulation of their expression is needed (11).…”

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confidence: 99%

Stable NaCl Tolerance of Tobacco Cells Is Associated with Enhanced Accumulation of Osmotin

LaRosa¹,

Singh²,

Hasegawa³

et al. 1989

Plant Physiol.

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Osmotin is a major protein which accumulates in tobacco cells (Nicotiana tabacum L. var Wisconsin 38) adapted to low water potentials. Quantitation of osmotin levels by immunoblots indicated that cells adapted to 428 millimolar NaCI contained 4 to 30 times the level of osmotin found in unadapted cells, depending on the stage of growth. Unadapted cells accumulated low levels of osmotin with apparent isoelectric points, (pi) of 7.8 and >8.2. Upon transfer of NaCI-adapted cells to medium without NaCI and subsequent growth for many cell generations, the amount of osmotin declined gradually to a level intermediate between that found in adapted and unadapted cells. NaCI-adapted cells grown in the absence of NaCI accumulated both pi forms; however, the form accumulated by cells adapted to NaCI (pi > 8.2) was most abundant. Adapted cells grown in the absence of NaCI exhibited absolute growth rates and NaCI tolerance levels which were intermediate to those of NaCI-adapted and unadapted cells. The association between osmotin accumulation and stable NaCI tolerance indicates that cells with a stable genetic change affecting the accumulation of osmotin are selected during prolonged exposure to high levels of NaCI. This stable alteration in gene expression probably affects salt tolerance.NaCl stress evokes changes in the levels of several plant gene products (8,12,14,21,(24)(25)(26)(27)(28). Since none of these gene products have been shown to be unequivocally involved in physiological adaptation to NaCl stress, additional information on the regulation of their expression is needed (11). Adaptation of tobacco to high levels of NaCl induces the accumulation of several proteins, particularly one with an apparent mol wt of 26 kD termed osmotin (6). Osmotin is a cationic protein occurring in tobacco cells in water soluble (osmotin-I) and insoluble (osmotin-II) forms. Osmotin accumulates in vacuolar inclusion bodies of cells which have adapted to NaCl (23). It is localized also in the cytoplasm at much lower levels (23) The biological function of osmotin is not yet known. However, analysis of the amino acid composition and sequence of osmotin indicates substantial homology to the sweet protein thaumatin, the bifunctional maize a-amylase/proteinase inhibitor, and a pathogenesis related protein induced by tobacco mosaic virus infections (22,23). These latter three proteins are hypothesized to be involved in defense reactions of plants to pathogens (22).In this report, we show that NaCl-adapted cells grown in the absence of NaCl are able to grow and adapt to salt more rapidly than cells never exposed to salt. These cells continue to overaccumulate predominantly the higher pI form of osmotin. These results further support the hypothesis that enhanced tolerance of NaCl-adapted cells is at least in part related to accumulation of osmotin. These data also support the hypothesis that selection for salt-tolerant cells has occurred during prolonged growth in medium containing high NaCl concentrations. MATERIALS AND METHODS Culture ...

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Differential mRNA transcription during salinity stress in barley

Cited by 65 publications

References 18 publications

Time Course of mRNA Induction Elicited by Salt Stress in the Common Ice Plant (Mesembryanthemum crystallinum)

Time Course of mRNA Induction Elicited by Salt Stress in the Common Ice Plant (Mesembryanthemum crystallinum)

Methodology Characterization of a rice germin-like protein gene promoter

Stable NaCl Tolerance of Tobacco Cells Is Associated with Enhanced Accumulation of Osmotin

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