Nghiên cứu chọn giống nấm Cordyceps militaris mang gen giới tính đơn cho năng suất, chất lượng quả thể cao và ổn định

Chỉ số đề mục

Lĩnh vực nghiên cứu

Dạng tài liệu

BB

Tác giả

Vũ Xuân Tạo*, Trần Bảo Trâm, Đào Ngọc Ánh, Trương Thị Chiên⁽¹⁾, Đỗ Thị Kim Trang⁽²⁾, Bùi Lan Phương

Nhan đề

Nghiên cứu chọn giống nấm Cordyceps militaris mang gen giới tính đơn cho năng suất, chất lượng quả thể cao và ổn định

Nhan đề tiếng anh

Research on selecting high and stable yield and fruiting body quality strains of Cordyceps militaris mushroom carrying a single mating-type gene

Nguồn trích

Tạp chí Khoa học và Công nghệ Việt Nam - B

Năm xuất bản

2024

Số

9B

Trang

33

ISSN

Từ khóa

Từ khóa tiếng anh

Tóm tắt

Nấm dược liệu Cordyceps militaris được sử dụng phổ biến trong y học truyền thống và thực phẩm ở các nước châu Á. Loài nấm này đang được nuôi trồng quy mô lớn tại nhiều nước như Trung Quốc, Hàn Quốc, Thái Lan, Việt Nam…

Tóm tắt tiếng anh

The medicinal mushroom Cordyceps militaris is commonly used in traditional medicine and utilised as food in Asian countries. This mushroom is being cultivated on a large scale in many countries, including China, Korea, Thailand, Vietnam, etc...

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Tài liệu tham khảo

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[2] B. Shrestha, S.K. Han, J.M. Sung, et al. (2012), Fruiting body formation of Cordyceps militaris f-rom multi-ascospore isolates and their single ascospore progeny strains,Mycobiology
[3] V.T. Tran, T.B.X.L. Do, T.K. Nguyen, et al. (2017), A simple, efficient and universal method for the extraction of genomic DNA f-rom bacteria, yeasts, molds and microalgae suitable for PCR-based applications,Vietnam Journal of Science, Technology and Engineering
[4] N. Kang, H.H. Lee, I. Park, et al. (2017), Development of high cordycepin-producing Cordyceps militaris strains,Mycobiology
[5] X.T. Vu, B.T. Tran, T.M. Nguyen, et al. (2022), Identification of mating-type (MAT) gene, productivity and cordycepin content in medicinal Cordyceps militaris strains cultivated in Vietnam,Vietnam Journal of Science and Technology
[6] G.H. Sung, B. Shrestha, S.K. Han, et al. (2010), Heterothallic type of mating system for Cordyceps cardinalis,Mycobiology
[7] E. Yokoyama, K. Yamagishi, A. Hara (2005), Heterothallism in Cordyceps takaomontana,FEMS Microbiology Letters
[8] P. Zheng, Y. Xia, G. Xiao, et al. (2011), Genome sequence of the insect pathogenic fungus Cordyceps militaris, a valued traditional Chinese medicine,Genome Biology
[9] T.X. Vu, H.D. Thai, B.H.T. Dinh, et al. (2023), Effects of MAT1-2 spore ratios on fruiting body formation and degeneration in the heterothallic fungus Cordyceps militaris,Journal of Fungi
[10] Y. Lu, Y. Xia, F. Luo, et al. (2016), Functional convergence and divergence of mating-type genes fulfilling in Cordyceps militaris,Fungal Genetics and Biology
[11] B. Shrestha, H.K. Kim, G.H. Sung, et al. (2004), Bipolar heterothallism, a principal mating system of Cordyceps militaris in vitro,Biotechnology and Bioprocess Engineering
[12] J. Yin, X. Xin, Y. Weng, et al. (2017), Transcriptome-wide analysis reveals the progress of Cordyceps militaris subculture degeneration,PLOS ONE
[13] H. Lou, J. Lin, L. Guo, et al. (2019), Advances in research on Cordyceps militaris degeneration,Applied Microbiology and Biotechnology
[14] T.L. Pham, H.L. Do, T.H.H. Nguyen, et al. (2016), Study the effect of temperature and light on growth, fruiting body and cordycepin production by Cordyceps militaris NBRC 100741 on silkworm,VNU Journal of Science: Medical and Pharmaceutical Sciences
[15] V.V. Le, T.H. Tran, T.B.T. Nguyen, et al. (2017), The preliminary investigation on cultivation technology of orange caterpillar fungus Cordyceps militaris L. ex Fr. in Vietnam,Vietnam Journal of Agricultural Sciences
[16] T.B. Do, H.N. Vu, T.T. Ma, et al. (2017), Evaluation on cultivation techniques to fruiting body formation of Cordyceps militaris,TNU Journal of Science and Technology
[17] T.X. Vu, T.B. Tran, H.H. Vu, et al. (2024), Ethanolic extract f-rom fruiting bodies of Cordyceps militaris HL8 exhibits cytotoxic activities against cancer cells, skin pathogenic yeasts, and postharvest pathogen Penicillium digitatum,Archives of Microbiology
[18] A.K. Verma, R. Aggarwal (2021), Repurposing potential of FDA approved and investigational drugs for COVID-19 targeting SARS-CoV-2 spike and main protease and validation by machine learning algorithm,Chemical Biology & Drug Design
[19] S.K. Das, M. Masuda, A. Sakurai, et al. (2010), Medicinal uses of the mushroom Cordyceps militaris: Current state and prospects,Fitoterapia
[20] A.R. Phull, M. Ahmed, H.J. Park (2002), Cordyceps militaris as a bio functional food source: Pharmacological potential, anti-inflammatory actions and related molecular mechanisms,Microorganisms