齐鲁工业大学学报
齊魯工業大學學報
제로공업대학학보
Journal of Shandong Institute of Light Industry (Natural Science Edition)
2013年
2期
39-41
,共3页
聚乙烯醇载体%固定化%降解%苯酚
聚乙烯醇載體%固定化%降解%苯酚
취을희순재체%고정화%강해%분분
PVA%immobilization%degradation%phenol
A111工程菌降解酚类有很高的效率,将其固定在聚乙烯醇微球( PVA)载体上,提高其稳定性及苯酚的降解能力,并对苯酚的降解条件pH、温度进行了探索。 A111工程菌的DGGE分析鉴定的微生物种群也与以往报道的相符。
A111工程菌降解酚類有很高的效率,將其固定在聚乙烯醇微毬( PVA)載體上,提高其穩定性及苯酚的降解能力,併對苯酚的降解條件pH、溫度進行瞭探索。 A111工程菌的DGGE分析鑒定的微生物種群也與以往報道的相符。
A111공정균강해분류유흔고적효솔,장기고정재취을희순미구( PVA)재체상,제고기은정성급분분적강해능력,병대분분적강해조건pH、온도진행료탐색。 A111공정균적DGGE분석감정적미생물충군야여이왕보도적상부。
The engineered bacteria degraded phenols with a high ratio , and the ability of phenol degradation was improved as the bacteria immobilized on the PVA carrier .The conditions of phenol degradation pH and temperature were explored .The DGGE analysis of A111 engineered bacteria conformed to that previously reported .
