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| Status |
Public on Oct 01, 2009 |
| Title |
A microarray-based method for the parallel analysis of genotypes and expression profiles in Eucalyptus grandis |
| Organism |
Eucalyptus grandis |
| Experiment type |
Expression profiling by array
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| Summary |
Fast-growing Eucalyptus grandis trees are one of the most efficient producers of wood in South Africa. It is essential to maximize the effectiveness of these plantations by increasing their productivity, the quality and value of their products. We used microarray-based DNA-amplified fragment length polymorphism (AFLP) analysis in combination with expression profiling to develop fingerprints and profile gene expression of wood-forming tissue of seven individual E. grandis trees. A 1532-probe cDNA microarray was constructed by arraying 768 cDNA-AFLP fragments and 810 cDNA library clones from seven individual E. grandis trees onto silanised slides. The results revealed that 32% of the spotted fragments showed distinct expression patterns (with a fold change of at least 1.4 or -1.4 and a p value of 0.01) and could be grouped into clusters representing co-expressed genes. Evaluation of the binary distribution of cDNA-AFLP fragments on the array showed that the individual genotypes could be discriminated. A simple, yet general method was developed for genotyping and expression profiling of wood-forming tissue of E. grandis trees differing in their splitting characteristics and in their lignin contents. Evaluation of gene expression profiles and the binary distribution of cDNA-AFLP fragments on the chip suggest that the prototype chip developed could be useful for transcript profiling and for the identification of Eucalyptus trees with preferred wood quality traits in commercial breeding programmes.
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| Overall design |
Transcriptional profiling and genotyping of seven E. grandis trees , namely (741-H (high lignin), 108-L (low lignin), 243-L (low lignin), 1/23/4-HS (high splitting), 1/71/6-HS (high splitting), 1/91/7-LS (low splitting) and 1/92/7-LS (low splitting), were performed with an in-house spotted cDNA microarray. All trees were characterized for their splitting qualities and lignin content and only the trees best corresponding to the selected traits were used for further analysis (Verryn and Turner 2000). RNA was isolated and cDNA synthesis was performed. A reference design microarray experiment was conducted and tree 1/23/4-HS served as a reference. Samples were fluorescently labelled with Cy5 or Cy3 dye and co-hybridized overnight. Two biological and one technical replicate (using independent labelling reactions) was performed, each replication consisting of a reverse labelling experiment.
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| Contributor(s) |
Barros E, Lezar S |
| Citation missing |
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| Submission date |
Feb 04, 2009 |
| Last update date |
Mar 20, 2012 |
| Contact name |
Eugenia Barros |
| E-mail(s) |
slezar@csir.co.za
|
| Phone |
0027-12-8413221
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| Fax |
0027-12-8413651
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| Organization name |
CSIR
|
| Department |
Building 20
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| Lab |
Biosciences
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| Street address |
Meiring Naude Rd
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| City |
Pretoria |
| State/province |
Gauteng |
| ZIP/Postal code |
0001 |
| Country |
South Africa |
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| Platforms (1) |
| GPL8164 |
CSIR Eucalyptus grandis 20060210 15K v1.0 |
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| Samples (21)
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| Relations |
| BioProject |
PRJNA112091 |
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