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Extremophile Microbial Communities and Enzymes for Bioenergetic Application Based on Multi-Omics Tools
Current Genomics ( IF 1.8 ) Pub Date : 2020-08-08 , DOI: 10.2174/1389202921999200601144137 Gislaine Fongaro 1 , Guilherme Augusto Maia 1 , Paula Rogovski 1 , Rafael Dorighello Cadamuro 1 , Joana Camila Lopes 1 , Renato Simões Moreira 1 , Aline Frumi Camargo 1 , Thamarys Scapini 1 , Fábio Spitza Stefanski 1 , Charline Bonatto 1 , Doris Sobral Marques Souza 1 , Patrícia Hermes Stoco 1 , Rubens Tadeu Delgado Duarte 1 , Ariadne Cristiane Cabral da Cruz 1 , Glauber Wagner 1 , Helen Treichel 1
Current Genomics ( IF 1.8 ) Pub Date : 2020-08-08 , DOI: 10.2174/1389202921999200601144137 Gislaine Fongaro 1 , Guilherme Augusto Maia 1 , Paula Rogovski 1 , Rafael Dorighello Cadamuro 1 , Joana Camila Lopes 1 , Renato Simões Moreira 1 , Aline Frumi Camargo 1 , Thamarys Scapini 1 , Fábio Spitza Stefanski 1 , Charline Bonatto 1 , Doris Sobral Marques Souza 1 , Patrícia Hermes Stoco 1 , Rubens Tadeu Delgado Duarte 1 , Ariadne Cristiane Cabral da Cruz 1 , Glauber Wagner 1 , Helen Treichel 1
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Abstract: Genomic and proteomic advances in extremophile microorganism studies are increasingly demonstrating their ability to produce a variety of enzymes capable of converting biomass into bioenergy. Such microorganisms are found in environments with nutritional restrictions, anaerobic environments, high salinity, varying pH conditions and extreme natural environments such as hydrothermal vents, soda lakes, and Antarctic sediments. As extremophile microorganisms and their enzymes are found in widely disparate locations, they generate new possibilities and opportunities to explore biotechnological prospecting, including biofuels (biogas, hydrogen and ethanol) with an aim toward using multi-omics tools that shed light on biotechnological breakthroughs.
中文翻译:
基于多组学工具的嗜极微生物群落和生物能应用酶
摘要:嗜极微生物研究中的基因组和蛋白质组学进展越来越多地证明了它们生产各种能够将生物质转化为生物能源的酶的能力。此类微生物存在于营养限制、厌氧环境、高盐度、pH值变化的环境以及热液喷口、苏打湖和南极沉积物等极端自然环境中。由于嗜极微生物及其酶在广泛不同的地点被发现,它们为探索生物技术勘探提供了新的可能性和机会,包括生物燃料(沼气、氢气和乙醇),目的是使用多组学工具来揭示生物技术突破。
更新日期:2020-08-08
中文翻译:
基于多组学工具的嗜极微生物群落和生物能应用酶
摘要:嗜极微生物研究中的基因组和蛋白质组学进展越来越多地证明了它们生产各种能够将生物质转化为生物能源的酶的能力。此类微生物存在于营养限制、厌氧环境、高盐度、pH值变化的环境以及热液喷口、苏打湖和南极沉积物等极端自然环境中。由于嗜极微生物及其酶在广泛不同的地点被发现,它们为探索生物技术勘探提供了新的可能性和机会,包括生物燃料(沼气、氢气和乙醇),目的是使用多组学工具来揭示生物技术突破。
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