Genomic approaches to plant stress tolerance

Genomic approaches to plant stress tolerance

Past efforts to improve plant tolerance to drought, high salinity and low-temperature through breeding and genetic engineering have had limited success owing to the genetic complexity of stress responses. Progress is now anticipated through comparative genomics studies of an evolutionarily diverse s...

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Veröffentlicht in:Current Opinion in Plant Biology 2000-04, Vol.3 (2), p.117-124
Hauptverfasser: Cushman, John C, Bohnert, Hans J
Format: Artikel
Sprache:eng
Schlagworte:
biochemical techniques
Dessication
Disasters
DNA
Drought
Expressed sequence tag (EST)
expressed sequence tags
forward genetics
gene expression
genes
genetic complementation
Genetic Engineering - methods
genetic techniques and protocols
genome
Halophytes
literature reviews
Low-temperature
Microarrays
molecular genetics
mutagenesis
mutants
Osmolar Concentration
Plant Physiological Phenomena
plant physiology
plants
Plants - genetics
Reverse genetics
Salinity
Signal transduction
stress
Stress tolerance
tolerance
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Beschreibung
Zusammenfassung:Past efforts to improve plant tolerance to drought, high salinity and low-temperature through breeding and genetic engineering have had limited success owing to the genetic complexity of stress responses. Progress is now anticipated through comparative genomics studies of an evolutionarily diverse set of model organisms, and through the use of techniques such as high-throughput analysis of expressed sequence tags, large-scale parallel analysis of gene expression, targeted or random mutagenesis, and gain-of-function or mutant complementation. The discovery of novel genes, determination of their expression patterns in response to abiotic stress, and an improved understanding of their roles in stress adaptation (obtained by the use of functional genomics) will provide the basis of effective engineering strategies leading to greater stress tolerance.
ISSN:1369-5266
1879-0356
DOI:10.1016/S1369-5266(99)00052-7