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1997 | 19 | 4 |

Tytuł artykułu

Investigating the molecular basis of desiccation tolerance using the resurrection plant Craterostigma plantagineum as an experimental system

Warianty tytułu

Języki publikacji

EN

Abstrakty

The array of genes isolated and characterised from Craterostigma to date allow many insights to be made into the protection mechanisms underlying the desiccation tolerance phenomenon and drought-induced changes in gene expression. However, more work is necessary to define which gene products positively contribute to stress tolerance and which may be considered as secondary stress metabolites or as gene regulators. It is apparent that the gene regulatory mechanisms involved are complex, but future work with more refined biochemical and genetic approaches, together with the analysis of defined mutants will greatly help to dissect the important area of desiccation perception, perhaps faciliate manipulation of desiccation tolerance in a genetic engineering context, and undoubtedly bring much progress in the coming years.

Wydawca

-

Rocznik

Tom

19

Numer

4

Opis fizyczny

p.399-403

Twórcy

autor
  • Max-Planck-Institut fur Zuchtungsforschung, Carl-von-Linne-Weg 10, D-50829 Koln, Germany
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Bibliografia

  • Baker J, C. Steele & L. Dure III 1988. Sequence and characterisation of 6 lea proteins and their genes from cotton. Plant Mol Biol 11:277–291.
  • Bartels D, K. Schneider, G. Terstappen, D. Piatkowski & F. Salamini 1990. Molecular cloning of abscisic acid-modulated genes which are induced during desiccation of the resurrection plant Craterostigma plantagineum. Planta 181:27–34.
  • Bartels D, C. Hanke, K. Schneider, D. Michel & F. Salamini 1992. A desiccation-related Elip-like gene from the resurrection plant Craterostigma plantagineum is regulated by light and ABA. EMBO J. 11(8): 2771–2778.
  • Bernacchia G, G. Schwall, F. Lottspeich, F. Salamini & D. Bartels 1995. The transketolase gene family of the resurrection plant Craterostigma plantagineum: differential expression during the rehydration phase. EMBO J 14:610–618.
  • Bernacchio G, F. Salamini & D. Bartels 1996. Molecular characterization of the rehydration process in the resurrection plant Craterostigma plantagineum. Plant Physiol. 111: 1043–1050.
  • Bianchi G, A. Gamba, C. Murelli, F. Salamini & D. Bartels 1991. Novel carbohydrate metabolism in the resurrection plant Craterostigma plantagineum Plant J 1:355–359.
  • Bockel C, F. Salamini & D. Bartels 1998. Isolation and characterization of genes expressed during early events of the dehydratin process in the resurrection plant Craterostigma plantagineum Journal of Plant Physiol. in press.
  • Chandler J, S. Abrams & D. Bartels 1997. The effect of ABA analogues on callus viability and gene expression in Craterostigma plantagineum. Physiol Plant 99:465–469.
  • Chandler J & D. Bartels 1997. Structure and function of the vp1 gene homologue from the resurrection plant Craterostigma plantagineum Hochst. Mol Gen Genet 256:539–546.
  • Chandler J. & D. Bartels 1997. Plant desiccation in plant response to environmental stresses from phytohormones to genome reorganization (ed. H.R. Lerner) M. Dekker Inc. New York (in press).
  • Elster R. 1994. Physiologische und molekulare Charakterisierung des Saccharosestoffwechsels der trockentoleranten Wiederauferstehungspflanze Craterostigma plantagineum Hochst. Ph.D. thesis, univ. Köln.
  • Furini A, C. Koncz, F. Salamini & D. Bartels 1997. High level transcription of a member of a repeated gene family confers dehydration tolerance to callus tissue of Craterostigma plantagineum. EMBO J 16:3599–3608.
  • Gaff D. 1971. Desiccation-tolerant flowering plants in Southern Africa. Science 174:1033–1034.
  • Howarth OW, N. Pozzi, G. Vlahov & D. Bartels 1996. NMR structural analysis of a tri-O-isopropylidene derivative of D-glycero-D-ido-2-octulose, the major sugar found in the resurrection plant Craterostigma plantagineum. Carbohydrate Research 289:137–142.
  • Ingram J, J. Chandler, L. Gallagher, F. Salamini & D. Bartels 1997. Analysis of cDNA clones encoding sucrose-phosphate synthase in relations to sugar interconversions associated with dehydration in the resurrection plant Craterostigma plantagineum Hochst. Plant Physiology 115: 113–121.
  • Kleines M, R. Elster, J. Ingram, G. Bernacchia, G. Schwall, F. Salamini & D. Bartels 1995. Regulation of the carbohydrate metabolism in the resurrection plant Craterostigma plantagineum. In STRESSNET. Proceedings of the second STRESSNET conference. Salsomaggiore, Italy, 21–23 Sept. 1995.
  • Michel D, A. Furini, F. Salamini & D. Bartels 1994. Structure and regulation of an ABA and desiccation-responsive gene from the resurrection plant Craterostigma plantagineum. Plant Mol. Biol. 24: 549–560.
  • Nelson D, F. Salamini & D. Bartels 1994. Abscisic acid promotes novel DNA-binding activity to a desiccation related promoter of Craterostigma plantagineum. The Plant Journal 5(4): 451–458.
  • Piatkowski D, K. Schneider, F. Salamini & D. Bartels 1990. Characterization of five ABA-responsive cDNA clones isolated from the desiccation-tolerant plant Craterostigma plantagineum and their relationship to other water-stress genes. Plant Physiology 94: 1682–1688.
  • Schneider K, B. Wells, E. Schmelzer, F. Salamini & D. Bartels 1993. Desiccation leads to the rapid accumulation of both cytosol and chloroplast proteins in the resurrection plant Craterostigma plantagineum Hochst. Planta 189: 120–131.
  • Velasco R, F. Salamini & D. Bartels 1998. Gene structure and expression analysis of the drought- and ABA responsive CDeT11-24 gene family from the resurrection plant Craterostigma plantagineum Planta (in press).

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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