Project description:The expression pattern of transcripts involved in secondary development was determined in four genotypes of E. tereticornis using 8x60K Gene chip. The genome-wide expression data was used to develop a gene co-expression network for xylogenesis. Agilent one-color experiment, Organism: Eucalyptus,Custom Agilent Eucalyptus 8x60k Microarray Gene expression (AMADID: 59849 ) designed by Genotypic Technology Pvt.Ltd.

Project description:The expression pattern of transcripts involved in secondary development was determined in four genotypes of E. tereticornis using 8x60K Gene chip. The genome-wide expression data was used to develop a gene co-expression network for xylogenesis.

Project description:Eucalyptus tereticornis, fast growing Eucalyptus species

Project description:Eucalyptus urophylla x Eucalyptus tereticornis overview

Project description:Eucalyptus urophylla x Eucalyptus tereticornis Raw sequence reads

Project description:Eucalyptus urophylla x Eucalyptus tereticornis Raw sequence reads

Project description:SNP identification in Eucalyptus tereticornis ET217 x Eucalyptus camaldulensisEC17

Project description:Eucalyptus tereticornis and Eucalyptus grandis Targeted loci

Project description:Eucalyptus camaldulensis Eucalyptus tereticornis Eucalyptus grandis-Targeted Locus (Loci)

Project description:rs04-03_myb - myb - Xylogenesis is a fundamental developmental process that is specific of vascular plants. It allows the formation of xylem, also called wood in trees, a complex tridimensional tissue composed of different cell types. This process occurs through the control of fundamental cell mechanisms like cell division and differentiation, secondary cell wall synthesis, lignin deposition and programmed cell death. Xylogenesis is controlled spatially and temporally by specific genetic programs that involve hundreds of genes. For instance, lignin biosynthetic genes, CAD and CCR, are specifically expressed during xylogenesis through MYB transcription factor binding sites, a process that seems to be common to all vascular plants. We have cloned two xylem specific MYB transcription factors, EgMYB1 et EgMYB2, in Eucalyptus. Interestingly, they are able to bind MYB consensus sequences of CAD and CCR promoters in vitro and to modulate CAD and CCR expression in vivo. When overexpressed in Arabidopsis or tobacco, they affect xylem structure by changing cell wall structure and quality. To follow expression changes of Arabidopsis genes in transgenic plants overexpressing Eg MYB1 and EgMYB2 should help us to find out which genes might be target of those transcription factors. This should help us to decipher the actual role of those two MYBs in xylogenesis, two new members of a large family of transcription factors in plants. - Xylogenesis is a fundamental developmental process that is specific of vascular plants. It allows the formation of xylem, also called wood in trees, a complex tridimensional tissue composed of different cell types. This process occurs through the control of fundamental cell mechanisms like cell division and differentiation, secondary cell wall synthesis, lignin deposition and programmed cell death. Xylogenesis is controlled spatially and temporally by specific genetic programs that involve hundreds of genes. For instance, lignin biosynthetic genes, CAD and CCR, are specifically expressed during xylogenesis through MYB transcription factor binding sites, a process that seems to be common to all vascular plants. We have cloned two xylem specific MYB transcription factors, EgMYB1 et EgMYB2, in Eucalyptus. Interestingly, they are able to bind MYB consensus sequences of CAD and CCR promoters in vitro and to modulate CAD and CCR expression in vivo. When overexpressed in Arabidopsis or tobacco, they affect xylem structure by changing cell wall structure and quality. To follow expression changes of Arabidopsis genes in transgenic plants overexpressing Eg MYB1 and EgMYB2 should help us to find out which genes might be target of those transcription factors. This should help us to decipher the actual role of those two MYBs in xylogenesis, two new members of a large family of transcription factors in plants. Keywords: gene knock in (transgenic)