Method Article

Agrobacterium-Mediated Virus-Induced Gene Silencing Assay In Cotton

DOI:

10.3791/2938

August 20th, 2011

In This Article

Summary

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We present the detailed protocol for Agrobacterium-mediated virus-induced gene silencing (VIGS) assay in cotton. The tobacco rattle virus (TRV)-derived VIGS vectors were deployed to induce RNA silencing of cotton GrCLA1, Cloroplastos alterados 1 gene. The albino phenotype caused by silencing GrCLA1 was observed at the seedling stage within 2 weeks after inoculation.

Abstract

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Cotton (Gossypium hirsutum) is one of the most important crops worldwide. Considerable efforts have been made on molecular breeding of new varieties. The large-scale gene functional analysis in cotton has been lagged behind most of the modern plant species, likely due to its large size of genome, gene duplication and polyploidy, long growth cycle and recalcitrance to genetic transformation1. To facilitate high throughput functional genetic/genomic study in cotton, we attempt to develop rapid and efficient transient assays to assess cotton gene functions.

Virus-Induced Gene Silencing (VIGS) is a powerful technique that was developed based on the host Post-Transcriptional Gene Silencing (PTGS) to repress viral proliferation2,3. Agrobacterium-mediated VIGS has been successfully applied in a wide range of dicots species such as Solanaceae, Arabidopsis and legume species, and monocots species including barley, wheat and maize, for various functional genomic studies3,4. As this rapid and efficient approach avoids plant transformation and overcomes functional redundancy, it is particularly attractive and suitable for functional genomic study in crop species like cotton not amenable for transformation.

In this study, we report the detailed protocol of Agrobacterium-mediated VIGS system in cotton. Among the several viral VIGS vectors, the tobacco rattle virus (TRV) invades a wide range of hosts and is able to spread vigorously throughout the entire plant yet produce mild symptoms on the hosts5. To monitor the silencing efficiency, GrCLA1, a homolog gene of Arabidopsis Cloroplastos alterados 1 gene (AtCLA1) in cotton, has been cloned and inserted into the VIGS binary vector pYL156. CLA1 gene is involved in chloroplast development6, and previous studies have shown that loss-of-function of AtCLA1 resulted in an albino phenotype on true leaves7, providing an excellent visual marker for silencing efficiency. At approximately two weeks post Agrobacterium infiltration, the albino phenotype started to appear on the true leaves, with 100% silencing efficiency in all replicated experiments. The silencing of endogenous gene expression was also confirmed by RT-PCR analysis. Significantly, silencing could potently occur in all the cultivars we tested, including various commercially grown varieties in Texas. This rapid and efficient Agrobacterium-mediated VIGS assay provides a very powerful tool for rapid large-scale analysis of gene functions at genome-wide level in cotton.

Protocol

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1. Grow cotton seedlings

  1. Sow the seeds of the upland cotton (Gossypium hirsutum) variety Fibermax 832, Phytogen 425RF, Phytogen 480WR and Deltapine 90 in pots (7 cm in diameter) containing Metro Mix 700 (SunGR, Beavile, WA).
  2. Keep the pots in a tray covered with a plastic dome at 23°C, 120 μE m-2 S-1 light, with a 12 hour light/12 hour dark photoperiod in a growth room.
  3. Remove the dome when two cotyledons have emerged.
  4. Approximately two weeks later, use the plants with two fully expanded cotyledons for VIGS assay. At this stage, the true leaves haven't yet emerged (Figure 1).

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Discussion

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VIGS has been proven to be a powerful tool in functional genomics analysis by transiently knocking down the expression of endogenous genes. In this study, we developed an Agrobacterium-mediated VIGS by utilizing a TRV-based binary vector. The cotton CLA1 (GrCLA1) gene was developed as a visual marker to monitor the silencing efficiency. We have consistently obtained 100% of gene silencing efficiency, demonstrated by the albino phenotype appearing on the true leaves in all varieties tested, starting f.......

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Disclosures

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No conflicts of interest declared.

Acknowledgements

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We are grateful to Drs. S.P. Dinesh-Kumar and Yule Liu for TRV-VIGS vectors, and Drs. Chuck Kenerley, Terry Wheeler, Jim Starr and Bayer CropScience for providing cotton seeds. This work was funded by NSF to L.S. and NIH to P.H.

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
Roller drumGlas-Col099A TC108Agro-bacterium culture
IncubatorSheldon Manufacturing, Inc.01046209Agro-bacterium culture
UV/Vis spectrophotometerBeckman Coulter Inc.Model: DU530Measuring OD
Gene PulserBio-RadModel: 1652076; Serial: 154BR3880Electroporation
Pulser ControllerBio-RadModel: 1652098; Serial: 232BR4833Electroporation
Micropulser Electroporation cuvetteBio-Rad165-2081Electroporation
1 ml SyringeBD Biosciences30962Inoculation of agro-bacterium
Metro Mix 700SUNGRSKU# 553001Growing seedling
Terra Cotta potT.O.PlasticsGPS 3001B2Growing seedling
MES monohydrateUSB Corp., Affymetrix18886Infiltration buffer
AcetosyringoneSigma-AldrichD134406Infiltration buffer

References

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  1. Chen, Z. J., Scheffler, B. E., Dennis, E., Triplett, B. A., Zhang, T., Guo, W. Toward sequencing cotton (Gossypium) genomes. Plant Physiol. 145, 1303-1310 (2007).
  2. Dinesh-Kumar, S. P., Anandalakshmi, R., Marathe, R., Schiff, M., Liu, Y. Virus-induced gene silencing. Methods Mol Biol. 236, 287-294 (2003).

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Tags

Virus Induced Gene SilencingAgrobacterium Mediated VIGSTobacco Rattle VirusCotton Gene SilencingChloroplast Development GeneAlbino Phenotype AssayReverse Transcription PCRAgrobacterium InoculationCotton Seedling GrowthPlasmid Vector Construction

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