The pathogenic white-rot fungus Heterobasidion parviporum triggers non-specific defence responses in the bark of Norway spruce.

@article{Arnerup2011ThePW,
  title={The pathogenic white-rot fungus Heterobasidion parviporum triggers non-specific defence responses in the bark of Norway spruce.},
  author={Jenny Arnerup and M{\aa}rten Lind and {\AA}ke Olson and Jan Stenlid and Malin Elfstrand},
  journal={Tree physiology},
  year={2011},
  volume={31 11},
  pages={
          1262-72
        }
}
Norway spruce [Picea abies (L.) Karst.] is one of the economically most important conifer species in Europe. The major pathogen on Norway spruce is Heterobasidion parviporum (Fr.) Niemelä & Korhonen. To achieve a better understanding of Norway spruce's defence mechanisms, transcriptional responses in bark to H. parviporum infection were compared with the response to wounding using cDNA-amplified fragment length polymorphism. The majority of the recovered transcript-derived fragments (TDFs… 
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Transcriptional Responses Associated with Virulence and Defence in the Interaction between Heterobasidion annosum s.s. and Norway Spruce
TLDR
Next-generation sequencing was applied to identify transcriptional responses unique to Heterobasidion-inoculated Norway spruce and investigate the H. annosum transcripts to identify putative virulence factors to provide a better understanding of gymnosperm defence.
Transcriptional responses of Norway spruce (Picea abies) inner sapwood against Heterobasidion parviporum.
TLDR
The data suggest that the defence mechanism is induced due to direct fungal contact irrespective of the tissue type, and is important when considering tree breeding-based resistance strategies to reduce the spread of the pathogen between and within trees.
The primary module in Norway spruce defence signalling against H. annosum s.l. seems to be jasmonate-mediated signalling without antagonism of salicylate-mediated signalling
TLDR
The data suggest that jasmonic acid-mediated signalling plays a central role in the induction of the genes analysed in this study irrespective of their responsiveness to salicylic acid, which may suggest that the Norway spruce defence signalling network is prioritized against H. parviporum.
The reaction zone as a defense response in Norway spruce (Picea abies) when infected by the white-rot fungus Heterobasidion parviporum : differentially expressed genes and chemical changes
TLDR
Sapwood in 60 and 23 year old spruce trees in two separated experiments were treated with wounding or inoculated with H. parviporum or methyl jasmonate mimicking infection from the heartwood and inducing a reaction zone.
Molecular responses to Heterobasidion annosum s.l. in Picea abies
TLDR
It is found that jasmonic acid is the major hormone controlling defense signaling pathways in P. abies and validated a candidate gene, PaLAR3, as a resistance marker for H. annosum s.l. in Norway spruce.
Dual RNA-seq analysis provides new insights into interactions between Norway spruce and necrotrophic pathogen Heterobasidion annosum s.l.
TLDR
The authors' data indicate a possible role of abscisic acid (ABA) signaling in the spruce defense against Heterobasidion infection, and provide additional insight into defense strategies employed by Norway spruce trees against Hetersonoid infection.
Association genetics identifies a specifically regulated Norway spruce laccase gene, PaLAC5, linked to Heterobasidion parviporum-resistance.
TLDR
Eleven Norway spruce QTLs (Quantitative trait loci) that correlate with variation in resistance to H. parviporum in a population of 466 trees by association genetics are identified and expression analyses showed that PaLAC5 responds specifically and strongly in close proximity to the Heterobasidion parViporum inoculation.
Comparative analyses of Defense gene expression in Norway spruce sapwood
TLDR
The results indicate that Norway spruce defense shows an up-regulation of the secondary metabolism and the hormonal response at the position of the H. parviporum attack, and the authors suggested that formation of the reaction zone goes along with an enhanced investment in secondary metabolism instead of biomass production, with the reacted zone acting as a carbon sink.
Chlorophyll fluorescence imaging for monitoring effects of Heterobasidion parviporum small secreted protein induced cell death and in planta defense gene expression.
Monoterpene responses to interacting effects of drought stress and infection by the fungus Heterobasidion parviporum in two clones of Norway spruce (Picea abies)
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