Loading...
Welcome to the Regulation and dynamics of wood formation HAL collection
The main goal of the “Eucalyptus functional genomics” group is to understand the transcriptional and post-transcriptional regulation of wood formation during development and in response to environmental cues. Such an understanding of the regulatory networks underpinning wood formation is crucial for improving sustainability, productivity and wood quality of tree plantations in order to meet the increasing demand of wood while preserving natural forests and biodiversity.
Deposited files
36
Deposited records
35
Open access rate
70 %
Sujets
Lignocellulosic biomass
Temperature elevation
Croissance secondaire
2G ethanol
Aux/IAA9
Cold acclimation
Biofuels
Co-regulation networks
ACID O-METHYLTRANSFERASE
Auxin regulation
Bioethanol
Maize
Abiotic stress
CBF
Auxine
Correlation network
Co-expression
Degradability
Auxin
Amorphous cellulose
ARABINOXYLANS
Ralstonia solanacearum
Biogas
Secondary cell walls
Xylem
Breeding Strategies
Abiotic Stress
Bioenergy
Hairy roots
Clustering
Secondary growth
CELLULOSE
BIOFUEL
Bio-ethanol
BIOETHANOL
Aerenchyma
Cinnamoyl-CoA reductase
Biologie des systemes
Beta relaxation
Gene expression
CBF/DREB1 transcription factors
Cell wall
Cambial region
Aphanomyces
Brown-midrib mutant
Evolution
CELL WALL
Cold-induced signaling
Formation du bois
MYB transcription factors
Wood
CRISPR/Cas9
CDNA arrays
Transcription factors
Caffeoyl-coa 3-o-methyltransferase
Anaerobic digestion
ARF5
Tomato
CCR gene
Cambium
Agrobacterium rhizogenes
Cold stress
QTL
Cobra-like protein
Association study
Breeding Programmes
Arabidopsis
Aux/IAA
CESA3
Arabidopsis Thaliana
BIOTECHNOLOGIE
Eucalyptus
Fibers
Acid o-methyltransferase
Phenylpropanoid metabolism
NAC
Wood formation
CDNA array
Secondary cell wall
CATTLE FEEDING
Transcription factor
Biomass
Arabidopsis thaliana
Variability
Cambium differentiation
Silage
Chitooligosaccharide
Climate Change
Lignin
Cold
MYB
Transcript profiling
Arabidopsis thaliana cell wall CESA3 Ralstonia solanacearum temperature elevation
AMELIORATION DES PLANTES
Candidate gene
Eucalyptus grandis
DAP-seq
Core Genes
Populus
Chromosomal localization