|Table of Contents|

Comparison Analysis of Cultural Character and Main Active Components of Four Sanghuang porus

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2023年17
Page:
94-101
Research Field:
Publishing date:

Info

Title:
Comparison Analysis of Cultural Character and Main Active Components of Four Sanghuang porus
Author(s):
HE MengxiuQIN HeshengZHOU SijuZHANG ZhilinXIE ZhenjiangCHENG Fangli
(Guilin College,Guangxi Academy of Agricultural Sciences/Guilin Center of Agricultural Science,Guilin,Guangxi 541008)
Keywords:
Sanghuang poruscultivation characteristicstriterpenespolysaccharidesflavonoids
PACS:
S 646
DOI:
10.11937/bfyy.20224382
Abstract:
Four species of Phellinus,Sanghuangporus vaninii JS1,Sanghuangporus vaninii LS2,Inonotus vaninii YS3 and Phellinus igniarius S6 were optimized through the optimization of Sanghuangporus parent species,original species and fruiting bodies cultivation.The Sanghuangporus lindenus mycelial growth and fruiting bodies active components were analysed for these four species.The content of total triterpenes,flavonoids and polysaccharides extracts in fruiting bodies were compared by ultraviolet colorimetric colorimetry,in order to provide reference for the study of functiomal active substances and the quality control of fruiting bodies.The results showed that there were significant difference in mycelial germination rates at different stages were observed.The growing of four Sanghuangporus species on PDA-enriched medium with sucrose as carbon source were the fastest.The growth was relatively slower on the corn meal and bran medium,and on the mulberry branch filtrate medium was the slowest.The growth phenotype of Inonotus vaninii YS3 mycelium was the best in terms of growth on the mulberry branch filtrate medium.The growth of Sanghuangporus philoxeroides were the fastest after the third day of culture,JS1,YS3 and S6 mycelial grew the fastly in bran medium,and the growth rates were 4.78 mm·d-1,4.60 mm·d-1and 3.08 mm·d-1,respectively.There was no significant difference in the growth rate of LS2 in the four media,among which the fastest was 4.17 mm·d-1 in the corn meal medium.The content of polysaccharides in the fruit body of LS2 was the highest,the total flavonoids and triterpenes in YS3 fruiting bodies were the highest,and the contents of flavonoids,triterpenes and polysaccharides in S6 fruiting bodies were all lowest. Inonotus vaninii YS3 and Sanghuangporus vaninii LS2 could be used as excellent production strains considering the growth rate of mycelial,agronomic characters and active component content of fruiting bodies.

References:

[1] 杨虎,沈浩.中国传统桑树资源利用变迁及其当代生态价值探微[J].蚕业科学,2021,47(4):374-379.[2] 方荣俊,曹旭,程嘉翎,等.桑黄的属性考证[J].蚕业科学,2022,4(2):141-151.[3] 吴声华,戴玉成.药用真菌桑黄的种类解析[J].菌物学报,2020,39(5):6-19.[4] WU S H,CHANG C C,WEI C L,et al. Sanghuangporus toxicodendri sp.nov.(Hymenochaetales,Basidiomycota) from China[J].MycoKeys,2019(57):101-111.[5] ZHOU L W,VLASK J,DECOCK C,et al.Global diversity and taxonomy of the Inonotus linteus complex(Hymenochaetales,Basidi0-mycota):Sanghuangporus gen.nov.,Tropicoporus excentrodendri and T.guanacastensis gen.et spp.nov.,and 17 new combinations[J].Fungal Divers,2016,77(1):335-347.[6] 吴声华,黄冠中,陈愉萍,等.桑黄的分类及开发前景[J].菌物研究,2016(4):187-200.[7] 宋吉玲,郭莎莎,孙曹国,等.不同生长年份桑黄中活性成分动态分析[J].食品研究与开发,2022,43(5):150-155.[8] WU F,ZHOU L W,VLAS J,et al.Global diversity and systematics of hymeno chaetaceae with poroid hymenophore[J].Fungal Diversity,2022,113:1-192.[9] 戴玉成.药用担子菌:鲍氏层孔菌(桑黄)的新认识[J].中草药,2003(34):94-95.[10]刘春静,张晓阳,戴玉成,等.鲍氏层孔菌培养条件的研究[J].菌物学报,2005(24):306.[11]雷萍,张文隽,吴亚召,等.鲍姆桑黄五个品种栽培特性及功能成分的比较分析[J].菌物学报,2022,41(2):274-280.[12]杨焱,陈晓华,戴玉成,等.我国桑黄产业发展现状、问题及展望:桑黄产业发展千岛湖宣言[J].菌物学报,2023,42(4):855-873.[13]张俊,颜新培,李一平,等.不同来源和采收时期桑黄子实体的主要活性成分含量比较[J].蚕业科学,2021,47(6):568-574.[14]丁云云,刘锋,施超,等.桑黄化学成分及体外抗肿瘤活性研究[J].中国中药杂志,2016,41(16):3042-3048.[15]包海鹰,杨烁,李庆杰,等.“桑黄”的本草补充考证[J].菌物研究,2017,15(4):264-270.[16]刘帅,莫俊恺,潘丹阳,等.桑黄多糖的药理作用及提取的方法研究进展[J].生物技术通报,2018,34(12):63-67.[17]史帧婷,包海鹰.桑黄类真菌有效成分及功效研究进展[J].中国实验方剂学杂志,2016,22(22):197-202.[18]王然,徐章逸,李佳玥,等.桑树桑黄抗氧化菌株筛选及植物激素对胞内黄酮的影响[J].食用菌学报,2020,27(3):61-67.[19]江湖大川,揭晓,吴丹麦,等.桑黄活性成分的药理作用研究进展[J].浙江中西医结合杂志,2018,28(3):251-254.[20]黄孝闻,俞忠明,董宇,等.桑黄在古代中医典籍中的应用记载及其现代药用研究进展[J].中华中医药学刊,2014,32(9):2249-2252.[21]中华人民共和国卫生部.《保健食品检验与评价技术规范》[M].北京:中华人民共和国卫生部,2003.[22]国家药典委员会.中华人民共和国药典:一部[M].北京:中国医药科技出版社,2015.[23]中华人民共和国农业部.食用菌中粗多糖含量的测定:NY/T 1676-2008[S].北京:中国标准出版社,2008.[24]孙培龙,徐双阳,杨开,等.珍稀药用真菌桑黄的国内外研究进展[J].微生物学通报,2006,33(2):119-123.[25]王豪,钱坤,司静,等.桑黄类真菌多糖研究进展[J].菌物学报,2021,40(4):895-911.[26]王恺,丁志超,裴娟娟,等.碱提桑黄菌丝体多糖的抗氧化活性[J].食品工业科技,2020,41(1):289-294.[27]王伟科,陆娜,闫静,等.生长年限对段木栽培鲍姆桑黄子实体营养、活性成分及抗氧化活性的影响[J].菌物学报,2021,40(3):668-680.[28]王香君,蒲军,殷浩,等.桑枝栽培食用菌及食用菌富集桑枝活性成分研究现状[J].中国食用菌,2022,41(4):81-86.[29]万茜淋,吴新民,杨雪,等.桑黄孔菌属的化学成分及药理作用研究进展[J].菌物研究,2022,20(1):65-71.[30]谢春芹,杨鹤同,吴琴燕,等.桑黄黄酮、多糖高产优良菌株的筛选试验[J].江苏农业科学,2019,47(14):209-212.[31]ZHANG Z F,LYU G,CHENG J W,et al.Characterization and biological activities of polysacchari des from artificially cultivated Phellinus baumii[J].International Journal of Biological Macromolecules,2019,129:861-868.[32]张俊峰,张忠,汪雯翰,等.桑黄菌丝体和子实体中次级代谢产物及其活性的比较[J].菌物学报,2020,39(2):398-408.[33]张长铠,王谷成,颜锡,等.食用菌制种技术[M].济南:山东大学出版社,1986.[34]李秀娥,郑巧佳,张蕊,等.培养基种类与桑黄菌丝生长及黄酮含量的关系研究[J].食药用菌,2022,30(1):57-61.[35]陈宜超,吴京城,王健.几种桑黄菌丝生长比较试验[J].南方园艺,2022,33(3):17-24.

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Last Update: 2023-11-16