Angisperm ancestral genome reconstruction: Difference between revisions

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===Mapping the seven hypothesized ancestral chromosomes of the pre-hexaploid onto the genome of Vitis vinifera===
===Mapping the seven hypothesized ancestral chromosomes of the pre-hexaploid onto the genome of Vitis vinifera===
[[File:Screen Shot 2012-05-13 at 6.22.08 PM.png|thumb|center|800px|Figure complements of Chunfang Zheng.  Major colors correspond to the ancestral pre-hexaploid chromosomes.  Color intensity represents the degree of [[fractionation]]. Regions without color either did not have a syntenic signal, or have a conflicting syntenic signal and was thus dropped from the reconstruction.]]
[[File:Screen Shot 2012-05-13 at 6.22.08 PM.png|thumb|center|400px|Figure complements of Chunfang Zheng.  Major colors correspond to the ancestral pre-hexaploid chromosomes.  Color intensity represents the degree of [[fractionation]]. Regions without color either did not have a syntenic signal, or have a conflicting syntenic signal and was thus dropped from the reconstruction.]]
[[File:Screen Shot 2012-05-13 at 6.25.23 PM.png|thumb|center|800px|Ancestral pre-hexaploid chromosome mapped to grape genome.  Counts refer to number of genes in grape regions.  Percentages reflect the relative number of genes in the more highly fractionated genomic region when compared to the least fractionated region.  Numbers (1,2,3) refer to the least, medium, and most fractionated genomic region, respectively.)]]
[[File:Screen Shot 2012-05-13 at 6.25.23 PM.png|thumb|center|400px|Ancestral pre-hexaploid chromosome mapped to grape genome.  Counts refer to number of genes in grape regions.  Percentages reflect the relative number of genes in the more highly fractionated genomic region when compared to the least fractionated region.  Numbers (1,2,3) refer to the least, medium, and most fractionated genomic region, respectively.)]]

Revision as of 01:30, 14 May 2012

Collaboration of:

  • Chunfang Zheng
  • David Sankoff
  • Haibao Tang
  • Eric Lyons

Overview

Zheng and Sankoff have developed and continue to refine a mathematical framework for reconstructing ancestral genome states of various angiosperm lineages using syntenic blocks identified by SynMap, an interactive tool for the pairwise comparison of whole genomes development by Tang and Lyons. This problem is complicated by whole genome duplications, a common occurrence in angiosperm lineages, followed by fractionation of duplicated gene content.

Of particular interest are the ancestral genomes of:

  1. Eudicots which have undergone a paleohexaploidy
    1. OMG! Orthologs in Multiple Genomes – Competing Graph-Theoretical Formulations]
    2. Ancient angiosperm hexaploidy meets ancestral eudicot gene order
  2. Monocots
    1. Not possible to solve with the current taxonomic sampling of monocot genomes (currently, only grass genomes are available and of sufficient quality)
    2. Anticipated high-quality genomes that may help:
      1. Banana: http://www.musagenomics.org/
      2. Duckweed: http://lemna.rutgers.edu/
  3. Angiosperms
    1. Of current research interest by this team

Results

Warning: The results published here do not constitute a peer-reviewed publication. These results are a combination of work-in-progress, research notes, and various hypotheses. As such, please do not republish them, reference them, or use them as a basis for truth. However, please feel free to contact any of the researchers involved with this project if you have any questions or would like to discuss any ideas. Most of them are friendly.

Mapping the seven hypothesized ancestral chromosomes of the pre-hexaploid onto the genome of Vitis vinifera

Figure complements of Chunfang Zheng. Major colors correspond to the ancestral pre-hexaploid chromosomes. Color intensity represents the degree of fractionation. Regions without color either did not have a syntenic signal, or have a conflicting syntenic signal and was thus dropped from the reconstruction.
Ancestral pre-hexaploid chromosome mapped to grape genome. Counts refer to number of genes in grape regions. Percentages reflect the relative number of genes in the more highly fractionated genomic region when compared to the least fractionated region. Numbers (1,2,3) refer to the least, medium, and most fractionated genomic region, respectively.)
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