UGTs through the genus Brassica: Difference between revisions

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The ''Brassica'' genome has undergone two tetraploidy and two hexaploidy events, one more than ''Arabidopsis'', since the eudicot paleohexaploidy event which gave rise to ''Vitis'', ''Prunus'', ''Arabidopsis'', and ''Brassica''.  
The ''Brassica'' genome has undergone two tetraploidy and two hexaploidy events, one more than ''Arabidopsis'', since the eudicot paleohexaploidy event which gave rise to ''Vitis'', ''Prunus'', ''Arabidopsis'', and ''Brassica''.  
====Triangle of U====
====Triangle of U====
The Triangle of U describes the genetic relationship between six species of ''Brassica'': ''Brassica rapa'', ''Brassica nigra'', ''Brassica oleracea'', ''Brassica juncea'', ''Brassica carinata'', and ''Brassica napus''. ''B. juncea'', ''B. carinata'' and ''B. napus'' are allotetraploids, hybrids with four times the chromosome set of haploids.  
The "Triangle of U" describes the genetic relationship between six species of ''Brassica'': ''Brassica rapa'', ''Brassica nigra'', ''Brassica oleracea'', ''Brassica juncea'', ''Brassica carinata'', and ''Brassica napus''. ''B. juncea'', ''B. carinata'' and ''B. napus'' are allotetraploids, hybrids with four times the chromosome set of haploids.  


===UGT Gene Family===
===UGT Gene Family===

Revision as of 23:43, 29 January 2016

Introduction

The genus Brassica

The Brassica genome has undergone more polyploidy than Arabidopsis thaliana.

Duplication Events

The Brassica genome has undergone two tetraploidy and two hexaploidy events, one more than Arabidopsis, since the eudicot paleohexaploidy event which gave rise to Vitis, Prunus, Arabidopsis, and Brassica.

Triangle of U

The "Triangle of U" describes the genetic relationship between six species of Brassica: Brassica rapa, Brassica nigra, Brassica oleracea, Brassica juncea, Brassica carinata, and Brassica napus. B. juncea, B. carinata and B. napus are allotetraploids, hybrids with four times the chromosome set of haploids.

UGT Gene Family

UGT functions

Uridine diphosphate (UDP) glycosyltransferases (UGTs) mediate transfer of glycosyl residues from activated nucleotide sugars to acceptor molecules (Higher plant glycosyltransferases).

UGT chemistry

Methods

Building a Phylogeny of Genes in the UGTs in Arabidopsis thaliana

Finding related UGT genes in Arabidopsis lyrata

Finding related UGT genes in Brassica rapa

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