{"title":"从橄榄腌制水中分离出的布氏念珠菌:甲醇基生物制造的理想平台。","authors":"Marta N Mota, Margarida Palma, Isabel Sá-Correia","doi":"10.1186/s13568-024-01754-9","DOIUrl":null,"url":null,"abstract":"<p><p>Methanol is a promising feedstock for biomanufacturing, but the efficiency of methanol-based bioprocesses is limited by the low rate of methanol utilization pathways and methanol toxicity. Yeast diversity is an attractive biological resource to develop efficient bioprocesses since any effort with strain improvement is more deserving if applied to innate robust strains with relevant catabolic and biosynthetic potential. The present study is in line with such rational and describes the isolation and molecular identification of seven isolates of the methylotrophic species Candida boidinii from waters derived from the traditional curation of olives, in different years, and from contaminated superficial soil near fuel stations. The yeast microbiota from those habitats was also characterized. The four C. boidinii isolates obtained from the curation of olives' water exhibited significantly higher maximum specific growth rates (range 0.15-0.19 h<sup>-1</sup>), compared with the three isolates obtained from the fuel contaminated soils (range 0.05-0.06 h<sup>-1</sup>) when grown on methanol as the sole C-source (1% (v/v), in shake flasks, at 30°C). The isolates exhibit significant robustness towards methanol toxicity that increases as the cultivation temperature decreases from 30°C to 25°C. The better methanol-based growth performance exhibited by C. boidinii isolates from olives´ soaking waters could not be essentially attributed to higher methanol tolerance. These methanol-efficient catabolizing isolates are proposed as a promising platform to develop methanol-based bioprocesses.</p>","PeriodicalId":7537,"journal":{"name":"AMB Express","volume":null,"pages":null},"PeriodicalIF":3.5000,"publicationDate":"2024-08-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11358584/pdf/","citationCount":"0","resultStr":"{\"title\":\"Candida boidinii isolates from olive curation water: a promising platform for methanol-based biomanufacturing.\",\"authors\":\"Marta N Mota, Margarida Palma, Isabel Sá-Correia\",\"doi\":\"10.1186/s13568-024-01754-9\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Methanol is a promising feedstock for biomanufacturing, but the efficiency of methanol-based bioprocesses is limited by the low rate of methanol utilization pathways and methanol toxicity. Yeast diversity is an attractive biological resource to develop efficient bioprocesses since any effort with strain improvement is more deserving if applied to innate robust strains with relevant catabolic and biosynthetic potential. The present study is in line with such rational and describes the isolation and molecular identification of seven isolates of the methylotrophic species Candida boidinii from waters derived from the traditional curation of olives, in different years, and from contaminated superficial soil near fuel stations. The yeast microbiota from those habitats was also characterized. The four C. boidinii isolates obtained from the curation of olives' water exhibited significantly higher maximum specific growth rates (range 0.15-0.19 h<sup>-1</sup>), compared with the three isolates obtained from the fuel contaminated soils (range 0.05-0.06 h<sup>-1</sup>) when grown on methanol as the sole C-source (1% (v/v), in shake flasks, at 30°C). The isolates exhibit significant robustness towards methanol toxicity that increases as the cultivation temperature decreases from 30°C to 25°C. The better methanol-based growth performance exhibited by C. boidinii isolates from olives´ soaking waters could not be essentially attributed to higher methanol tolerance. 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引用次数: 0
摘要
甲醇是一种很有前景的生物制造原料,但由于甲醇利用率低和甲醇毒性,以甲醇为基础的生物工艺的效率受到限制。酵母多样性是开发高效生物工艺的一种极具吸引力的生物资源,因为任何菌株改良工作如果应用于具有相关分解代谢和生物合成潜力的先天强健菌株,都会更有价值。本研究正是基于这一原理,描述了从不同年份的传统橄榄加工水域和加油站附近受污染的表层土壤中分离和分子鉴定出的 7 个滋养甲基念珠菌菌种 Candida boidinii。对这些生境中的酵母微生物群也进行了特征描述。在以甲醇为唯一 C 源(1%(v/v),摇瓶,30°C)的条件下生长时,与从燃料污染土壤中获得的三个分离物(0.05-0.06 h-1)相比,从橄榄腌制水中获得的四个 C. boidinii 分离物的最大特定生长率(0.15-0.19 h-1)明显更高。随着培养温度从 30°C 降至 25°C,分离物对甲醇毒性的耐受性明显增强。从橄榄浸泡水中分离出的 C. boidinii 在甲醇基础上表现出更好的生长性能,但这并不能完全归因于较高的甲醇耐受性。建议将这些甲醇高效分解分离物作为开发基于甲醇的生物工艺的理想平台。
Candida boidinii isolates from olive curation water: a promising platform for methanol-based biomanufacturing.
Methanol is a promising feedstock for biomanufacturing, but the efficiency of methanol-based bioprocesses is limited by the low rate of methanol utilization pathways and methanol toxicity. Yeast diversity is an attractive biological resource to develop efficient bioprocesses since any effort with strain improvement is more deserving if applied to innate robust strains with relevant catabolic and biosynthetic potential. The present study is in line with such rational and describes the isolation and molecular identification of seven isolates of the methylotrophic species Candida boidinii from waters derived from the traditional curation of olives, in different years, and from contaminated superficial soil near fuel stations. The yeast microbiota from those habitats was also characterized. The four C. boidinii isolates obtained from the curation of olives' water exhibited significantly higher maximum specific growth rates (range 0.15-0.19 h-1), compared with the three isolates obtained from the fuel contaminated soils (range 0.05-0.06 h-1) when grown on methanol as the sole C-source (1% (v/v), in shake flasks, at 30°C). The isolates exhibit significant robustness towards methanol toxicity that increases as the cultivation temperature decreases from 30°C to 25°C. The better methanol-based growth performance exhibited by C. boidinii isolates from olives´ soaking waters could not be essentially attributed to higher methanol tolerance. These methanol-efficient catabolizing isolates are proposed as a promising platform to develop methanol-based bioprocesses.
期刊介绍:
AMB Express is a high quality journal that brings together research in the area of Applied and Industrial Microbiology with a particular interest in ''White Biotechnology'' and ''Red Biotechnology''. The emphasis is on processes employing microorganisms, eukaryotic cell cultures or enzymes for the biosynthesis, transformation and degradation of compounds. This includes fine and bulk chemicals, polymeric compounds and enzymes or other proteins. Downstream processes are also considered. Integrated processes combining biochemical and chemical processes are also published.