The Transcription Factor BcLTF1 Regulates Virulence and Light Responses in the Necrotrophic Plant Pathogen Botrytis cinerea
전사 인자 BcLTF1은 괴사성 식물 병원체 Botrytis cinerea에서 독성과 빛 반응을 조절합니다
Research Article
[키워드] absence
accumulation
addition
Affect
alternative oxidase
alternative respiration enzymes
antioxidants
AOX
apothecia
applied
approach
arising
Aspergillus nidulan
Aspergillus nidulans
Author
BcLTF1
bctlf1
Botrytis cinerea
caused
characterized
circadian rhythm
conditions
conidia
continuous light
Deletion
dependent on
detoxification
detrimental effect
detrimental effects
dicotyledonous plant
differentiation
dispersal
ecological
ecological niche
equilibrium
Evidence
exogenously
exposure to
expression
expression level
expression levels
expression of gene
Factor
fertilization
filamentous fungi
fruiting bodies
function
fungal
fungal pathogen
fungi
fungus
GATA transcription factor
Gene
gene encoding
Genes
gray mold disease
gray mold diseases
growth rate
growth rates
homoeostasis
homologue
Host
host infection
hypersensitivity
illumination
impair
Increased
increased expression
induce
Infection
LIGHT
macroconidia
macromolecule
macromolecules
majority
metabolism
Microarray analyses
microarray analysis
microconidia
mitochondrial
mitochondrial dysfunction
modulated
mutant
mutants
necrotrophic pathogen
necrotrophic pathogen Botrytis cinerea
Neurospora crassa
NsdD
Organisms
Orientation
over-expression
overexpression
oxidative stress
oxygen
Pathogens
photomorphogenesis
photoreceptor
phototropism
pigments
plant
plants
predicted
propagule
propagules
PROTECT
random mutagenesis
reactive oxygen species
reactive oxygen specy
Regulation
reproductive
required
respiration enzymes
respond
response
restoration
ROS
scavenging
sclerotia
Secondary metabolism
sexual reproduction
singlet oxygen
spores
Structure
structures
SUB-1
survival
TF 1
transcription factor
transcriptional level
virulence
[DOI] 10.1371/journal.pgen.1004040 PMC 바로가기 [Article Type] Research Article
[DOI] 10.1371/journal.pgen.1004040 PMC 바로가기 [Article Type] Research Article