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Comparative genomics provides new insights into protein degradation in plants Contact: Xiaohan Yang, 865-241-6895 DOE/Office of Science/Biological.

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Presentation on theme: "Comparative genomics provides new insights into protein degradation in plants Contact: Xiaohan Yang, 865-241-6895 DOE/Office of Science/Biological."— Presentation transcript:

1 Comparative genomics provides new insights into protein degradation in plants Contact: Xiaohan Yang, yangx@ornl.gov, 865-241-6895 DOE/Office of Science/Biological & Environmental Research  F-box genes are involved in the post-translational regulation of proteins.  This family of genes influences a range of important biological processes, but little information exists as to the organization and evolution of F-box genes across plant species.  A comparative genomics approach was performed taking advantage of available gene sequence data for Arabidopsis, rice, poplar, grape, and the recently sequenced papaya genome.  Research revealed that the F-box gene family is expanded in herbaceous annuals relative to long-lived trees, suggesting that short-lived species require a more diverse set of protein degradation mechanisms to successfully complete life-cycle development.  Future research will examine this important gene family for their involvement in regulating traits potentially involved in carbon sequestration and bioenergy crop development. 320660156680139 Arabidopsis Rice Papaya Grape Populus Herbaceous annuals Woody perennials Number of F-box genes in the genome

2 Comparative genomics provides new insights into protein degradation in plants Contact: Xiaohan Yang, yangx@ornl.gov, 865-241-6895 DOE/Office of Science/Biological & Environmental Research Yang X, Kalluri UC, Jawdy S, Gunter LE, Yin T, Tschaplinski TJ, Weston DJ, Ranjan P, and Tuskan GA. 2008. F-box Gene Family is Expanded in Herbaceous Annual Plants Relative to Woody Perennial Plants. Plant Physiology; 10.1104/pp.108.121921 F-box proteins are generally responsible for substrate recognition in the Skp1-Cullin-F-box complexes that are involved in protein degradation via the ubiquitin-26S proteosome pathway. In plants, F-box genes influence a variety of biological processes such as leaf senescence, branching, self- incompatibility and responses to biotic and abiotic stresses. The number of F-box genes in Populus (320) is less than half that found in Arabidopsis (660) or Oryza ( 680), even though the total number of genes in Populus is equivalent to that in Oryza and 1.5 times that in Arabidopsis. We performed comparative genomics analysis between the woody perennial plant Populus and the herbaceous annual plants Arabidopsis and Oryza in order to explicate the functional implications of this large gene family. Our analyses reveal interspecific differences in genomic distribution, orthologous relationship, intron evolution, protein domain structure, and gene expression. The set of F-box genes shared by these species appear to be involved in core biological processes essential for plant growth and development; lineage-specific differences primarily occurred because of an expansion of the F-box genes via tandem duplications in Arabidopsis and Oryza. The number of F-box genes in the newly sequenced woody species Vitis (156) and Carica (139) is similar to that in Populus, supporting the hypothesis that F-box gene family is expanded in herbaceous annual plants relative to woody perennial plants. The present study provides insights into the relationship between the structure and composition of the F-box gene family in herbaceous and woody species and their associated developmental and physiological features.


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