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| Status |
Public on Jan 22, 2007 |
| Title |
The mechanisms involved in the interplay between dormancy and secondary growth in Arabidopsis |
| Organism |
Arabidopsis thaliana |
| Experiment type |
Expression profiling by array
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| Summary |
Plants that exhibit secondary growth, such as trees, are a prominent feature of terrestrial ecosystems. Furthermore, secondary growth itself, particularly wood, has huge economic value. Despite the importance of secondary growth from both basic and applied science perspectives, little is known about the molecular mechanisms that underpin this facet of plant development. The proposed microarray experiments are designed to expand our knowledge of the regulation of secondary growth by combining the power of Arabidopsis genetics with complete transcriptome analysis. It is now well established that Arabidopsis can be grown under conditions that induce secondary growth in the hypocotyl, albeit small, wood. We have grown 8500 Arabidopsis plants of different genotypes under these conditions and will extract RNA from the developing vascular cambia of these plants to subject them to complete transcriptome analysis.The mutants that we have chosen for these analyses are all related to each other on the basis of the fact that they impact dormancy in either seeds or shoots (abi1, aba1, max4, axr1, AtMYB61 knockout, AtMYB50 knockout). The mutants themselves are the core group of mutants that are the focus of a three laboratory consortium, funded under the BBSRC Exploiting Genomics Initiative, to investigate the molecular basis of meristem dormancy in Arabidopsis. The other partners in the consortium are Dr. Ottoline Leyser (York) and Dr. Michael Holdsworth (IACR). While the Leyser and Holdsworth groups have investigated the impact of these mutations on transcriptome activity in shoot meristems and seeds respectively, our work focuses on the vascular cambium. Thus, this work will not only provide insights into the regulation of cambial function, but, when compared with the existing datasets from the Leyser and Holdworth labs, the work should also provide insights into the relationship between dormancy-impacted phenomena in different meristematic regions. Beyond this, the specific work on the cambium-specific regulation of genes in the MYB61KO will provide even greater insights into the functioning of this important resource allocation regulator, as it will build on a significant complete transcriptome dataset that is already available through GARNet. In total, the proposed analyses will generate important new data that builds on existing datasets, to provide an even more comprehensive understanding of gene function, and genetic networks, in an important biological and applied context. Please note that the sample numbers that we have provided below are meant to be the 'base' number for each biological condition (mutant, etc.), and that there will be independent TRIPLICATE biological replicates produced for each condition. (ie. A-1 to A-12).
Keywords: strain_or_line_design; ecotype_analysis; mutant; insertion_mutant; gene_knock_out; tissue_organ_specificity;
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| Overall design |
Number of plants pooled:200-400 per RNA sample
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| Contributor(s) |
Dubos C |
| Citation missing |
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| Submission date |
Oct 27, 2006 |
| Last update date |
Aug 28, 2018 |
| Contact name |
Nottingham Arabidopsis Stock Centre (NASC) |
| E-mail(s) |
affy@arabidopsis.info
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| Phone |
+44 (0)115 951 3237
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| Fax |
+44 (0)115 951 3297
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| URL |
http://arabidopsis.info/
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| Organization name |
Nottingham Arabidopsis Stock Centre (NASC)
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| Department |
School of Biosciences, University of Nottingham
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| Street address |
Sutton Bonington Campus
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| City |
Loughborough |
| ZIP/Postal code |
LE12 5RD |
| Country |
United Kingdom |
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| Platforms (1) |
| GPL198 |
[ATH1-121501] Affymetrix Arabidopsis ATH1 Genome Array |
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| Samples (36)
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| Relations |
| Affiliated with |
GSE69995 |
| BioProject |
PRJNA97693 |
| Supplementary file |
Size |
Download |
File type/resource |
| GSE6151_RAW.tar |
83.8 Mb |
(http)(custom) |
TAR (of CEL) |
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