The number of annotated transcripts that were detected in only one species was comparatively large.

The number of annotated transcripts that were detected in only one species was comparatively large. An illustrative example of the differences observed between weedy and grain amaranth transcrip tomes is given by the analysis of herbicide target genes that were annotated with the UniRef 100 and Amar anthaceae ESTs databases. It indicated that 29 of these were found in both species, whereas 13 and 8 sequences were found only in A. hypochondriacus and A. tubercu latus, respectively. The rather stringent parameters employed for the transcriptome comparison could have led to the tran scriptome differences herein observed, although the use of lower E value thresholds might have not contributed much to increase level of tran script homology, as suggested by a previous genome sequencing study in Eucalyptus grandis. However, another more plausible possible explanation is that the is considered to be an efficient method for gene expres sion analysis. The digital expression profiling analysis performed for A. hypochondriacus identified a total of 1,971 differentially expressed genes in response to at least one of the four stress treatments tested. Fifty different gene expres sion profiles were generated to determine the influence of any given stress treatment on the expression levels of a particular gene. The results are shown in Figure 4  CDK inhibitor . An evident feature of this analysis was the high percentage of un annotated genes or genes with unknown function that were induced by stress. These represent a poten tially rich source of genetic material that could be sys tematically analyzed for the discovery of genes involved in novel mechanisms of stress resistance. All the stress inducible genes with known function that were identified in 41 of the 50 gene expression categories were also tabulated. These included several TFs known to be regulators of stress responses in other plant species, e. g. AREB like protein, Dof type zinc finger domain containing protein, BTB POZ domain containing protein, GRF zinc finger contain ing protein, RAP 2. 4 like protein, JAZ1 repres sor, ATEBP ERF72 RAP2. 3, RAV, MYB like transcription factor, TINY like protein 2, Cys2 His2 zinc finger transcription factor, the little known GAGA motif binding transcrip tional activator, SCOF 1 zinc finger proteins, found to be induced by cold or salt stress in Arabidopsis and other plants, apparently to enhance ABRE dependent gene expression, a putative NAC transcription fac tor, and histone fold TFIID TAF NF Y. Others have been identified in several xerophytes halo phytes as possible factors that contribute to their ability to colonize extreme habitats, e. g.

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