«Previous Article|Table of Contents|Next Article»

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2023年24

Page:

118-125

Research Field:

Publishing date:

Info

Title:

Germplasm Identification of Different Pleurotus eryngii Cultivars and Breeding of Protoplast Monokaryons Hybridization

Author(s):

ZHOU Jinkan1; YANG Yao1; FENG Fan1; WEI Tongke2; ZHENG Suyue1; WANG Chunxia1

(1.College of Landscape and Ecological Engineering，Hebei University of Engineering，Handan，Hebei 056038；2.Agriculture Environment Protection Monitor Station of Handan City，Handan，Hebei 056038)

Keywords:

Pleurotus eryngii; antagonistic test; esterase isoenzyme; ISSR molecular identification; protoplast monokaryons hybridization

PACS:

S 646

DOI:

10.11937/bfyy.20232164

Abstract:

Seven cultivated strains of Pleurotus eryngii were used as experimental materials to identify and classify different strains by antagonistic test，esterase isoenzyme and ISSR molecular marker technology，using protoplast monokaryons hybridization technology，different species and different mating types of strains were selected for mon-mon hybridization.The hybrids with clamp connection were selected，and the mycelium growth rate and agronomic traits of hybrid strains and parental strains were compared,in order to provide excellent germplasm resources for the actual production and cultivation of Pleurotus eryngii.The results showed that the seven strains were divided into three groups，the first group was 12，16，1208，1219 and 1287 strains.The second group was 1283 strain.The third group was 1284 strain.Twenty-four hybrids were obtained by protoplast monokaryons hybridization.Compared with the parents，five hybrids with significantly better mycelium growth rate，agronomic traits were selected，namely ZJ5，ZJ8，ZJ11，ZJ17 and ZJ22,respectively.

References:

［1］CHRISTODOULOU P,VLASSOPOULOU M,ZERVOU M,et al.In vitro fermentation of Pleurotus eryngii mushrooms by human fecal microbiota:Metataxonomic analysis and metabolomic profiling of fermentation products［J］.Journal of Fungi,2023,9(1):128.［2］AMERIKANOU C,TAGKOULI D,TSIAKA T,et al.Pleurotus eryngii chips-chemical characterization and nutritional value of an innovative healthy snack［J］.Foods,2023,12(2):353.［3］马征祥.杏鲍菇脆片工艺优化及产品开发研究［D］.泰安:山东农业大学,2016.［4］张亚丽,赵书光,李玉,等.杏鲍菇液体菌种生产及绿色高产栽培关键技术［J］.南方农业,2020,14(10):26-28.［5］FERDOUSI J,AL RIYADH Z,HOSSAZN M I,et al.Mushroom production benefits，status，challenges and opportunities in Bangladesh:A review［J］.Annual Research & Review in Biology,2020(1):1-13.［6］鲍大鹏,谢宝贵.我国食用菌遗传学中一些值得关注的研究方向［J］.菌物学报,2020,39(6):971-976.［7］孔祥会,姚方杰,王鹏.食用菌种质资源评价方法及在品种选育上的应用实践［J］.中国食用菌,2019,38(12):8-10.［8］陆娜,王伟科,宋吉玲,等.桑枝杏鲍菇生物学特性及遗传差异［J］.江苏农业科学,2015,43(3):231-233.［9］崔筱,刘芹,孔维丽,等.基于拮抗及ITS序列分析的河南香菇主产区种质资源鉴定及遗传多样性分析［J］.中国瓜菜,2022,35(7):31-38.［10］刘国丽,李红,吕立涛,等.二十个黑木耳菌株的酯酶同工酶分析［J］.北方园艺,2018(5):149-153.［11］王洪秀,孙鹏,安颖,等.18个茶树菇菌株的亲缘关系分析及农艺性状评价［J］.中国农学通报,2022,38(1):23-31.［12］史灵燕,刘保卫,顾新颖,等.生化和ISSR分子标记在黑木耳品种鉴定中的应用［J］.北方园艺,2019(9):136-141.［13］LIU J,WANG Z R,LI C,et al.Evaluating genetic diversity and constructing core collections of Chinese Lentinula edodes cultivars using ISSR and SRAP markers［J］.Journal of Basic Microbiology,2015,55(6):749-760.［14］MALLICK P,SIKDAR S R.Genome instability in fruit body derived lines generated from fruiting pfle somatic hybrid lines and development of hybrid strain specific scar marker in edible mushroom［J］.Journal of Horticultural Research,2015,23(2):111-120.［15］李红,张敏,肖千明,等.基于ISSR-PCR分子标记的滑菇遗传多样性分析［J］.江苏农业科学,2017,45(6):39-41.［16］马丽娟.斑玉蕈原生质体单核体杂交育种的研究［D］.长春:长春工业大学,2022.［17］姜珊,明鹏辉,杨瑞恒,等.香菇原生质体单核化过程中细胞核相对优势等级的研究［J］.菌物学报,2023,42(1):187-195.［18］宋莹,刘俊杰,张敏,等.采用原生质体单核体杂交技术创新香菇种质资源［J］.北方园艺,2017(19):165-169.［19］杨珊.猴头菌单核体杂交及原生质体融合品质育种的研究［D］.上海:上海海洋大学,2018.［20］陈雪.金顶侧耳原生质体交配型偏分离及杂交育种研究［D］.长春:吉林农业大学,2021.［21］KUMAR S,DAS S,KUMAR A,et al.An overview on the cultivation and breeding of mushroom［J］.ACADEMICIA:An International Multidisciplinary Research Journal,2021,11(10):83-89.［22］胡能书,万贤国.同工酶技术及其应用［M］.长沙:湖南科学技术出版社,1985.［23］史灵燕,张云龙,刘保卫,等.基于SRAP分子标记的24个黑木耳栽培菌株遗传分析［J］.食用菌,2019,41(6):20-23,33.［24］王建明,邢路军,杜丽君,等.平菇栽培料中添加胡萝卜樱试验［J］.北方园艺,2011(16):188-189.［25］闫华清,吴芳.中国食用菌出口特征、国际竞争力水平与贸易潜力分析［J］.北方园艺,2022(19):142-150.［26］李墨卿,郑素月,郭金英.三明市食用菌价格波动特征及影响因素分析［J］.北方园艺,2021(21):156-163.［27］LI C T,XU S.Edible mushroom industry in China:Current state and perspectives［J］.Applied Microbiology and Biotechnology,2022,106(11):3949-3955.［28］耿晓进,蒋秋梦,张腾洋,等.秦皇岛地区三种野生食用菌分子鉴定与系统发育分析［J］.北方园艺,2021(8):111-116.［29］张瑞华,王承香,丁美丽,等.工厂化生产杏鲍菇出菇期主要病害及防治措施［J］.中国食用菌,2020,39(3):72-75.［30］戴天放,徐光耀,卢慧,等.江西食用菌产业发展现状、问题与建议［J］.中国食用菌,2020,39(9):94-99.［31］彭浩,陈文强,邓百万,等.陕南10种黑木耳主要栽培种酯酶同工酶的研究［J］.江苏农业科学,2014,42(9):193-196.［32］王一,王波,卢冰,等.川西高原蘑菇菌株遗传差异的酯酶同工酶分析［J］.西南农业学报,2009,22(1):136-140.［33］马庆芳,张丕奇,陈鹤,等.25株草菇菌株的遗传多样性［J］.中国食用菌,2020,39(1):29-34.［34］黄春燕,单洪涛,万鲁长,等.不同金针菇菌株多相分类研究［J］.北方园艺,2019(5):142-148.［35］杨军.灰树花工厂化栽培专用品种的杂交育种研究［D］.福州:福建农林大学,2016.［36］鲁欣.秀珍菇杂交育种及其同核异质体的差异的鉴定［D］.福州:福建农林大学,2017.

Memo

Memo:

-

Common functions

Last Update: 2024-01-11