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- Promising cellulolytic fungi isolates for rice straw degradation
- Diana Catalina Pedraza-Zapata , Andrea Melissa Sánchez-Garibello , Balkys Quevedo-Hidalgo , Nubia Moreno-Sarmiento , Ivonne Gutiérrez-Rojas
- J. Microbiol. 2017;55(9):711-719. Published online September 2, 2017
- DOI: https://doi.org/10.1007/s12275-017-6282-1
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- 17 Crossref
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Abstract
- The objective of this study was to evaluate the potential of eight fungal isolates obtained from soils in rice crops for straw degradation in situ. From the initial eight isolates, Pleurotus ostreatus T1.1 and Penicillium sp. HC1 were selected for further characterization based on qualitative cellulolytic enzyme production and capacity to use rice straw as a sole carbon source. Subsequently, cellulolytic, xylanolytic, and lignolytic (Pleurotus ostreatus) activity on carboxymethyl cellulose, oat xylan, and rice straw with different nitrogen sources was evaluated. From the results obtained it was concluded both isolates are capable to produce enzymes necessary for rice straw degradation. However, their production is dependent upon carbon and nitrogen source. Last, it was established that Pleurotus ostreatus T1.1 and Penicillium sp. HC1 capability to colonize and mineralize rice straw, in mono-and co-culture, without affecting nitrogen soil content.
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Citations
Citations to this article as recorded by
- Unravelling of cellulolytic fungal consortium from humus soil for efficient lignocellulosic waste degradation
H.K. Narendra Kumar, N. Chandra Mohana, Jayarama Reddy, M.R. Abhilash, S. Satish
The Microbe.2024; 5: 100183. CrossRef - Sustainability in residue management: a review with special reference to Indian agriculture
Meenakshi Verma, Pooja Singh, Manikprabhu Dhanorkar
Paddy and Water Environment.2024; 22(1): 1. CrossRef - Crop residue heterogeneity: Decomposition by potential indigenous ligno-cellulolytic microbes and enzymatic profiling
Sandeep Sharma, Kailash Chand Kumawat, Paawan Kaur, Sukhjinder Kaur, Nihar Gupta
Current Research in Microbial Sciences.2024; 6: 100227. CrossRef - Recent developments in microbial degradation of crop residues: a comprehensive review
K. S. Sruthy, S. Puranik, V. Kumar, A. Kaushik, K. V. Vikram, M. Manoj, L. Shukla, S. K. Singh, A. Kumar
International Journal of Environmental Science and Technology.2024;[Epub] CrossRef - Fungal Saprotrophic Promotion and Plant Pathogenic Suppression under Ditch-Buried Straw Return with Appropriate Burial Amount and Depth
Jie Zhou, Yanling Li, Jiawen Lou, Yuekai Wang, Zhengrong Kan, Reinhard W. Neugschwandtner, Fengmin Li, Jian Liu, Ke Dong, Yaguang Xue, Haishui Yang, Lingling Shi
Plants.2024; 13(13): 1738. CrossRef - Rice crop residue management by the microbial consortium for rapid decomposition of straw
Kunvar Gyanendra Kumar, Raja Husain, Anurag Mishra, Nitin Vikram, Devendra Kumar Dwivedi, Saurabh Pandey, Ashutosh Singh
3 Biotech.2024;[Epub] CrossRef - Highly variable domain architecture in carbohydrate-active enzymes highlights Streptomyces as promising resource for rice straw bioconversion
Andika Sidar, Gerben P. Voshol, Ahmed El-Masoudi, Erik Vijgenboom, Peter J. Punt
Bioresource Technology Reports.2024; 25: 101775. CrossRef - Isolation and Characterization of Cellulolytic Fungi From Decomposing Rice Straws
Shir Nee Ong, Chin Mei Lee
Malaysian Applied Biology.2023; 52(4): 1. CrossRef - Biodegradation of Gossypol by Aspergillus terreus-YJ01
Yao Jiang, Xinyue Du, Qianqian Xu, Chunhua Yin, Haiyang Zhang, Yang Liu, Xiaolu Liu, Hai Yan
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Frontiers in Sustainable Food Systems.2023;[Epub] CrossRef - Mixed Cultures of Aspergillus niger and Rhizopus oryzae Using Lignocellulosic Substrates to Improve Hydrolytic Enzyme Production
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Qianxi Li, Siyu Wang, Senmiao Chen, Yini Shang, Fangmei Zhou, Jie Yu, Zhishan Ding, Xiaoqing Ye
Journal of Plant Pathology.2022; 105(1): 57. CrossRef - Degradation of lignocelluloses in straw using AC-1, a thermophilic composite microbial system
Hongdou Liu, Liqiang Zhang, Yu Sun, Guangbo Xu, Weidong Wang, Renzhe Piao, Zongjun Cui, Hongyan Zhao
PeerJ.2021; 9: e12364. CrossRef - Wheat straw hydrolysis by using co-cultures of Trichoderma reesei and Monascus purpureus toward enhanced biodegradation of the lignocellulosic biomass in bioethanol biorefinery
Shabih Fatma, Aimen Saleem, Romana Tabassum
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Manjeet Singh, Yadwinder Singh Brar, Harpuneet Singh
Materials Today: Proceedings.2021;[Epub] CrossRef - Control biológico: Camino a la agricultura moderna
Diana Marcela Vinchira-Villarraga, Nubia Moreno-Sarmiento
Revista Colombiana de Biotecnología.2019; 21(1): 2. CrossRef - Characterization of an Anaerobic, Thermophilic, Alkaliphilic, High Lignocellulosic Biomass-Degrading Bacterial Community, ISHI-3, Isolated from Biocompost
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Enzyme and Microbial Technology.2018; 118: 66. CrossRef
- Unravelling of cellulolytic fungal consortium from humus soil for efficient lignocellulosic waste degradation
- Alteration in the ultrastructural morphology of mycelial hyphae and the dynamics of transcriptional activity of lytic enzyme genes during basidiomycete morphogenesis
- Elena Vetchinkina , Maria Kupryashina , Vladimir Gorshkov , Marina Ageeva , Yuri Gogolev , Valentina Nikitina
- J. Microbiol. 2017;55(4):280-288. Published online January 26, 2017
- DOI: https://doi.org/10.1007/s12275-017-6320-z
- 46 View
- 0 Download
- 9 Crossref
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Abstract
- The morphogenesis of macromycetes is a complex multilevel process resulting in a set of molecular-genetic, physiological- biochemical, and morphological-ultrastructural changes in the cells. When the xylotrophic basidiomycetes Lentinus edodes, Grifola frondosa, and Ganoderma lucidum were grown on wood waste as the substrate, the ultrastructural morphology of the mycelial hyphal cell walls differed considerably between mycelium and morphostructures. As the macromycetes passed from vegetative to generative development, the expression of the tyr1, tyr2, chi1, chi2, exg1, exg2, and exg3 genes was acti-vated. These genes encode enzymes such as tyrosinase, chi-tinase, and glucanase, which play essential roles in cell wall growth and morphogenesis.
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Citations
Citations to this article as recorded by- Flow modeling and structural characterization in fungal pellets
J. Sánchez-Vargas, F.J. Valdés-Parada, L. Peraza-Reyes, D. Lasseux, M.A. Trujillo-Roldán
Journal of Theoretical Biology.2024; 590: 111853. CrossRef - Transcriptome analysis provides insight into gamma irradiation delaying quality deterioration of postharvest Lentinula edodes during cold storage
Hong Gao, Shuang Ye, Yani Liu, Xiuzhi Fan, Chaomin Yin, Ying Liu, Jingyu Liu, Yu Qiao, Xueling Chen, Fen Yao, Defang Shi
Food Chemistry: Molecular Sciences.2023; 6: 100172. CrossRef - Improvement of natamycin production by controlling the morphology of Streptomyces gilvosporeus Z8 with microparticle talc in seed preculture
Chaoping Yue, Haitao Xu, Yingying Yu, Xin Yu, Min Yu, Chen Zhang, Qian You, Shaofan Xia, Zixian Ding, Hao Fu, Xin Zeng, Feng Li
Journal of Chemical Technology & Biotechnology.2021; 96(6): 1533. CrossRef - The molecular mechanism of stipe cell wall extension for mushroom stipe elongation growth
Cuicui Liu, Jingjing Bi, Liqin Kang, Jiangsheng Zhou, Xiao Liu, Zhonghua Liu, Sheng Yuan
Fungal Biology Reviews.2021; 35: 14. CrossRef - UDP-glucose pyrophosphorylase gene affects mycelia growth and polysaccharide synthesis of Grifola frondosa
Xin-Yi Zan, Xi-Hong Wu, Feng-Jie Cui, Hong-An Zhu, Wen-Jing Sun, Li-Hua Jiang, Ting-Lei Tao, Xiu Zhao
International Journal of Biological Macromolecules.2020; 161: 1161. CrossRef -
Chitinases Play a Key Role in Stipe Cell Wall Extension in the Mushroom
Coprinopsis cinerea
Jiangsheng Zhou, Liqin Kang, Cuicui Liu, Xin Niu, Xiaojun Wang, Hailong Liu, Wenming Zhang, Zhonghua Liu, Jean-Paul Latgé, Sheng Yuan, Marie A. Elliot
Applied and Environmental Microbiology.2019;[Epub] CrossRef - Comparative Study of Pleurotus ostreatus Mushroom Grown on Modified PAN Nanofiber Mats
Lilia Sabantina, Franziska Kinzel, Thomas Hauser, Astrid Többer, Michaela Klöcker, Christoph Döpke, Robin Böttjer, Daria Wehlage, Anke Rattenholl, Andrea Ehrmann
Nanomaterials.2019; 9(3): 475. CrossRef - Algorithm for Physiological Interpretation of Transcriptome Profiling Data for Non-Model Organisms
R. F. Gubaev, V. Y. Gorshkov, L. M. Gapa, N. E. Gogoleva, E. P. Vetchinkina, Y. V. Gogolev
Molecular Biology.2018; 52(4): 497. CrossRef - Improved mycelia and polysaccharide production of Grifola frondosa by controlling morphology with microparticle Talc
Ting-Lei Tao, Feng-Jie Cui, Xiao-Xiao Chen, Wen-Jing Sun, Da-Ming Huang, Jinsong Zhang, Yan Yang, Di Wu, Wei-Min Liu
Microbial Cell Factories.2018;[Epub] CrossRef
- Flow modeling and structural characterization in fungal pellets
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