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W2018276385 abstract "Ectomycorrhizal fungi, living in soil forests, are required microorganisms to sustain tree growth and productivity. The establishment of mutualistic interaction with roots to form ectomycorrhiza (ECM) is not well known at the molecular level. In particular, how fungal and plant cell walls are rearranged to establish a fully functional ectomycorrhiza is poorly understood. Nevertheless, it is likely that Carbohydrate Active enZymes (CAZyme) produced by the fungus participate in this process. Genome-wide transcriptome profiling during ECM development was used to examine how the CAZome of Laccaria bicolor is regulated during symbiosis establishment. CAZymes active on fungal cell wall were upregulated during ECM development in particular after 4weeks of contact when the hyphae are surrounding the root cells and start to colonize the apoplast. We demonstrated that one expansin-like protein, whose expression is specific to symbiotic tissues, localizes within fungal cell wall. Whereas L. bicolor genome contained a constricted repertoire of CAZymes active on cellulose and hemicellulose, these CAZymes were expressed during the first steps of root cells colonization. L. bicolor retained the ability to use homogalacturonan, a pectin-derived substrate, as carbon source. CAZymes likely involved in pectin hydrolysis were mainly expressed at the stage of a fully mature ECM. All together, our data suggest an active remodelling of fungal cell wall with a possible involvement of expansin during ECM development. By contrast, a soft remodelling of the plant cell wall likely occurs through the loosening of the cellulose microfibrils by AA9 or GH12 CAZymes and middle lamella smooth remodelling through pectin (homogalacturonan) hydrolysis likely by GH28, GH12 CAZymes." @default.
W2018276385 created "2016-06-24" @default.
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W2018276385 date "2014-11-01" @default.
W2018276385 modified "2023-10-18" @default.
W2018276385 title "Genomic and transcriptomic analysis of Laccaria bicolor CAZome reveals insights into polysaccharides remodelling during symbiosis establishment" @default.
W2018276385 cites W1595453426 @default.
W2018276385 cites W174581687 @default.
W2018276385 cites W1781524029 @default.
W2018276385 cites W1965960290 @default.
W2018276385 cites W1967746634 @default.
W2018276385 cites W1967796434 @default.
W2018276385 cites W1969079198 @default.
W2018276385 cites W1973047225 @default.
W2018276385 cites W1973921903 @default.
W2018276385 cites W1984160203 @default.
W2018276385 cites W1985914558 @default.
W2018276385 cites W1988204388 @default.
W2018276385 cites W1988966516 @default.
W2018276385 cites W1993455386 @default.
W2018276385 cites W1994423695 @default.
W2018276385 cites W1995038206 @default.
W2018276385 cites W1995939358 @default.
W2018276385 cites W2000771332 @default.
W2018276385 cites W2015593224 @default.
W2018276385 cites W2017264134 @default.
W2018276385 cites W2017827135 @default.
W2018276385 cites W2020099304 @default.
W2018276385 cites W2022414939 @default.
W2018276385 cites W2025427491 @default.
W2018276385 cites W2027194515 @default.
W2018276385 cites W2033174994 @default.
W2018276385 cites W2034982077 @default.
W2018276385 cites W2035107176 @default.
W2018276385 cites W2040830834 @default.
W2018276385 cites W2041435070 @default.
W2018276385 cites W2042443647 @default.
W2018276385 cites W2042457360 @default.
W2018276385 cites W2056457078 @default.
W2018276385 cites W2058167342 @default.
W2018276385 cites W2061098265 @default.
W2018276385 cites W2068591928 @default.
W2018276385 cites W2069486380 @default.
W2018276385 cites W2070935512 @default.
W2018276385 cites W2077664791 @default.
W2018276385 cites W2077763891 @default.
W2018276385 cites W2081764577 @default.
W2018276385 cites W2091009944 @default.
W2018276385 cites W2093374062 @default.
W2018276385 cites W2093862878 @default.
W2018276385 cites W2093951005 @default.
W2018276385 cites W2096634516 @default.
W2018276385 cites W2099740349 @default.
W2018276385 cites W2100988373 @default.
W2018276385 cites W2104663609 @default.
W2018276385 cites W2105013010 @default.
W2018276385 cites W2107280636 @default.
W2018276385 cites W2108244474 @default.
W2018276385 cites W2108316682 @default.
W2018276385 cites W2111891771 @default.
W2018276385 cites W2117473250 @default.
W2018276385 cites W2122559203 @default.
W2018276385 cites W2124967403 @default.
W2018276385 cites W2128310755 @default.
W2018276385 cites W2128433365 @default.
W2018276385 cites W2132926880 @default.
W2018276385 cites W2136029396 @default.
W2018276385 cites W2139827400 @default.
W2018276385 cites W2140331848 @default.
W2018276385 cites W2141052558 @default.
W2018276385 cites W2142395202 @default.
W2018276385 cites W2144362080 @default.
W2018276385 cites W2148698435 @default.
W2018276385 cites W2153572016 @default.
W2018276385 cites W2155361831 @default.
W2018276385 cites W2159803945 @default.
W2018276385 cites W2160919982 @default.
W2018276385 cites W2161479301 @default.
W2018276385 cites W2163642241 @default.
W2018276385 cites W2164399478 @default.
W2018276385 cites W2165876708 @default.
W2018276385 cites W2168747572 @default.
W2018276385 cites W2171087302 @default.
W2018276385 doi "https://doi.org/10.1016/j.fgb.2014.08.007" @default.
W2018276385 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25173823" @default.
W2018276385 hasPublicationYear "2014" @default.
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