Geminivirus-Mediated Gene Silencing from Cotton leaf crumple virus Is Enhanced by Low Temperature in Cotton

A silencing vector for cotton (Gossypium hirsutum) was developed from the geminivirus Cotton leaf crumple virus (CLCrV). The CLCrV coat protein gene was replaced by up to 500 bp of DNA homologous to one of two endogenous genes, the magnesium chelatase subunit I gene (Chll) or the phytoene desaturase...

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Bibliographic Details
Published in:Plant physiology (Bethesda) 2008-09, Vol.148 (1), p.41-50
Main Authors: Tuttle, John R., Idris, A. M., Brown, Judith K., Haigler, Candace H., Robertson, Dominique
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Breakthrough Technologies
Capsid Proteins - physiology
Cold Temperature
Cotton
DNA
DNA, Viral - analysis
Flowers - chemistry
Fundamental and applied biological sciences. Psychology
Geminiviridae
Geminiviridae - physiology
Gene Silencing
Genetic Markers
Genetic vectors
Genetic Vectors - analysis
Genetic Vectors - physiology
Gossypium - chemistry
Gossypium - virology
High temperature
Host-Pathogen Interactions
Insect Vectors - physiology
Low temperature
Plant Diseases - virology
Plant Leaves - chemistry
Plant physiology and development
Plant Roots - chemistry
Plants
Viral DNA
Viruses
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Summary:A silencing vector for cotton (Gossypium hirsutum) was developed from the geminivirus Cotton leaf crumple virus (CLCrV). The CLCrV coat protein gene was replaced by up to 500 bp of DNA homologous to one of two endogenous genes, the magnesium chelatase subunit I gene (Chll) or the phytoene desaturase gene (PDS). Cotyledons of cotton cultivar 'Deltapine 5415' bombarded with the modified viral vectors manifested chlorosis due to silencing of either Chll or PDS in approximately 70% of inoculated plants after 2 to 3 weeks. Use of the green fluorescence protein gene showed that replication of viral DNA was restricted to vascular tissue and that the viral vector could transmit to leaves, roots, and the ovule integument from which fibers originate. Temperature had profound effects on vector DNA accumulation and the spread of endogenous gene silencing. Consistent with reports that silencing against viruses increases at higher temperatures, plants grown at a 30°C/26°C day/night cycle had a greater than 10-fold reduction in viral DNA accumulation compared to plants grown at 22°C/18°C. However, endogenous gene silencing decreased at 30°C/26°C. There was an approximately 7 d delay in the onset of gene silencing at 22°C/18°C, but silencing was extensive and persisted throughout the life of the plant. The extent of silencing in new growth could be increased or decreased by changing temperature regimes at various times following the onset of silencing. Our experiments establish the use of the CLCrV silencing vector to study gene function in cotton and show that temperature can have a major impact on the extent of geminivirus-induced gene silencing.
ISSN:0032-0889
1532-2548
1532-2548
DOI:10.1104/pp.108.123869