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Salt-tolerance in plants. II. In vitro translation of m-RNAs from salt-tolerant and salt-sensitive plants on wheat germ ribosomes. Responses to ions and compatible organic solutes (1984)

GIBSON, T. S. ; SPEIRS, J. ; BRADY, C. J.

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 7 (1984), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract Messenger RNA from salt-sensitive and salt-tolerant plants Triticum aestivum. Beta vulgaris, Pisum sativum, Chenopodium album and Atriplex nummularia was translated in vitro in a wheatgerm translation system. The optimal monovalent and divalent ion concentrations for translation were independent of the salt tolerance of the plants from which the m-RNAs were derived. Translation was optimal in 100 120 mol m−3 potassium acetate and 1.5–2.0 mol m−3 Mg2+. Substitution of Na+ for K+, or of Cl− for acetate, was inhibitory. The pattern of polypeptides synthesized from cytoplasmic m-RNAs of salt-sensitive and salt-tolerant plants remained constant in all the conditions examined. The effects of adding the ‘compatible' organic solutes glycine-betaine and mannitol were examined in the wheat-germ system primed with RNA from the leaves of Triticum aestivum or Beta vulgaris. The rate of translation, the optimum ionic concentrations and the distribution of polypeptide products were maintained in organic solute concentrations of up to 500 mol m−3. Proline above 300 mol m−3 and surcose above 100 mol m−3 did inhibit translation. The results indicate that translation in plants is unlikely in cytoplasmic K+ concentrations exceeding 180 mol m−3, but would proceed in the presence of up to 500 mol m−3 mannitol or glyinebetaine, or of up to 300 mol m−3 proline.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/1365-3040.ep11591845

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Salt-tolerance in plants. I. Ions, compatible organic solutes and the stability of plant ribosomes (1984)

BRADY, C. J. ; GIBSON, T. S. ; BARLOW, E. W. R. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 7 (1984), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Abstract Polysomes and ribosomes recovered from a number of plant species were tested for stability when incubated at 25°C in salt solutions in the absence of ATP and initiation factors. Stability was assessed by sucrose density gradient analysis. The stability was inversely proportional to salt concentrations above 125 mol m−3 KCl. Polysomes were less stable in the presence of Na+ than K+ salts, and were much less stable in Cl− than in acetate salts. Polysomes from Triticum aestivum. Hordeum vulgare, Capsicum annuum, Helianthus annuus. Pisum sativum, Atriplex nummularia, Beta vulgaris, Cladophora sp., Enteromorpha sp. and Corallina cuvieri were similarly sensitive to KCl. Polysomes from Ulva lactuca were more sensitive than the other species. Cytoplasmic and plastid polysomes from T. aestivum were similarly unstable in 500 mol m−3 KCl. Unprogrammed ribosomal subunit couples from T. aestivum, B. vulgaris and U. lactuca showed Mg2+-dependent conformational instability and dissociation in KCl. Slight differences in ribosomal stability were observed between species, but these were unrelated to the salt tolerances of the plants. The ‘compatible’ organic solutes, glycinebetaine and proline, failed to reduce ion-induced instability. Ribosome yield and polysome profiles were similar in leaves of B. vulgaris containing significantly different levels of both Na+ and Cl− after growth in media containing 50 or 200 mol m−3 NaCl. The results are consistent with the hypothesis that plants maintain a cytoplasmic solute environment that is compatible with ribosomal stability.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/1365-3040.ep11591840

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