首页|期刊导航|菌物学报|14株食药用菌CAZy胞外降解酶分析

14株食药用菌CAZy胞外降解酶分析OA

Analyses of CAZy extracellular degradative enzymes in 14 strains of edible and medicinal fungi

中文摘要英文摘要

以14株食药用菌的注释蛋白为研究对象,分析获得其系统发育关系、蛋白CAZy注释及其胞外分泌特性,结合基因功能与降解底物的关系,推断 CAZy 胞外分泌酶的降解属性与木质素、纤维素、半纤维素、果胶、几丁质、淀粉等基质的对应关系.系统发育分析结果显示分属于子囊菌的块菌、羊肚菌聚在一个分支,其余担子菌门的菌株聚在另一个分支,结果符合真菌分类框架,支持其早期演化地位;胞外 CAZy 降解酶预测结果显示,数量前 3 位的菌株是拟光滑木耳、毛木耳、糙皮侧耳,末 3 位是松口蘑、波氏块菌、黑孢块菌;木质纤维素降解酶的数量由高到低排序为拟光滑木耳、毛木耳、草菇、糙皮侧耳、紫芝、白肉灵芝、双孢蘑菇、金针菇 ym5、六妹羊肚菌、金针菇wm14、尖顶羊肚菌、松口蘑、波氏块菌、黑孢块菌.本研究旨在为这些食药用菌的基料配方开发、生态适应性研究等后续分析提供初步参考.

Phylogenetic relationships and the characteristics of CAZy extracellular degradative enzymes of edible and medicinal fungi,were analyzed based on annotated proteins from 14 strains of edible and medicinal fungi.By combining gene functions with substrate degradation capabilities,the degradation attributes of CAZy extracellular secretory enzymes in relation to substrates such as lignin,cellulose,hemicellulose,pectin,chitin,and starch were inferred.The phylogenetic analysis results showed that truffles and morels belonging to the Ascomycota,clustered into one branch,while the remaining strains belonging to the Basidiomycota clustered into another,being consistent with the fungal classification framework and supporting their early evolutionary status.Analysis of extracellular CAZy degradation enzymes showed that the top three strains with the highest quantity of such enzymes were Auricularia subglabra,A.cornea,and Pleurotus ostreatus,whereas the bottom three were Tricholoma matsutake,Tuber borchii,and T.melanosporum.The arrangement of strains based on the quantity of lignocellulose-degrading enzymes from high to low was:Auricularia subglabra,A.cornea,Volvariella volvacea,Pleurotus ostreatu,Ganoderma sinense,G.leucocontextum,Agaricus bisporus,Flammulina filiformis ym5,Morchella sextelata,Flammulina filiformis wm14,Morchella conica,Tricholoma matsutake,Tuber borchii,and T.melanosporum.This study aims at providing preliminary reference for subsequent development of cultivation substrate formulations and ecological adaptability studies for these edible and medicinal fungi.

贾定洪;王迪;刘询;何晓兰

四川省食用菌研究所,四川 成都 610066四川省食用菌研究所,四川 成都 610066四川省食用菌研究所,四川 成都 610066四川省食用菌研究所,四川 成都 610066

食药用菌蛋白胞外酶CAZy

edible and medicinal fungiproteinextracellular enzymeCAZy

《菌物学报》 2026 (4)

145-159,15

国家重点研发计划(2022YFD1200603)四川省农业科学院中试熟化与示范转化项目(2025ZSSFTP32)四川省农业科学院自主创新项目(2022ZZCX098)国家食用菌产业技术体系(CARS-20-2) This work was supported by the National Key Research and Development Program of China(2022YFD1200603),the Scientific and Technological Achievement Transformation Project of the Sichuan Academy of Agricultural Sciences(2025ZSSFTP32),the Independent Innovation Project of Sichuan Academy of Agricultural Sciences(2022ZZCX098),and the China Agriculture Research System(CARS-20-2).

10.13346/j.mycosystema.250252

评论