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Plant Desiccation and Protein Synthesis ¹

V. Stability of Poly (A)^– and Poly (A)⁺ RNA during Desiccation and Their Synthesis upon Rehydration in the Desiccation-Tolerant Moss Tortula ruralis and the Intolerant Moss Cratoneuron filicinum

Plant Physiology Research Group, Department of Biology, University of Calgary, Calgary, Alberta T2N 1N4 Canada

Upon desiccation of gametophytes of the desiccation-tolerant moss Tortula ruralis preexisting pools of poly(A)^– RNA (rRNA) remain inact, regardless of the speed at which desiccation is achieved. Preexisting poly(A)⁺ RNA pools (mRNA) are unaffected by slow desiccation but are substantially reduced during rapid desiccation. Poly(A)^– RNA involved in protein synthesis is also unaffected by desiccation, whereas the levels of polysomal poly(A)⁺ RNA in rapid- and slow-dried moss closely reflect the state of the protein synthetic complex in these dried samples.

Poly(A)^– RNA pools, both total and polysomal, are also stable during the rehydration of both rapid- and slow-dried moss. The total poly(A)⁺ RNA pool decreases upon rehydration, but this reduction is simply an expression of the normal turnover of poly(A)⁺ RNA in this moss. Analysis of polysomal fractions during rehydration reveals the continued use of conserved poly(A)⁺ RNA for protein synthesis. The rate of synthesis of poly(A)⁺ RNA upon rehydration appears to depend upon the speed at which prior desiccation is administered. Rapidly dried moss synthesizes poly(A)⁺ RNA at a faster rate, 60 to 120 minutes after the addition of water, than does rehydrated slowly dried moss. Recruitment of this RNA into the protein synthetic complex also follows this pattern. Comparative studies involving the aquatic moss Cratoneuron filicinum are used to gain an insight into the relevance of these findings with respect to the cellular mechanisms associated with desiccation tolerance.

¹ Supported by Natural Sciences and Engineering Research Council of Canada Grant A6352.

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