生物技术进展
生物技術進展
생물기술진전
2015年
3期
240-245
,共6页
王全富%蔺一飞%苗苗%史永磊%韩涵%吴莹莹%杨洋%侯艳华
王全富%藺一飛%苗苗%史永磊%韓涵%吳瑩瑩%楊洋%侯豔華
왕전부%린일비%묘묘%사영뢰%한함%오형형%양양%후염화
南极%Pseudoalteromonas sp.ANT319%耐盐性%海冰
南極%Pseudoalteromonas sp.ANT319%耐鹽性%海冰
남겁%Pseudoalteromonas sp.ANT319%내염성%해빙
Antarctic%Pseudoalteromonas sp.ANT319%salt tolerance%sea-ice
南极海冰微生物在适应极端环境的长期进化过程中,获得了特殊的生理生化特性和基因表达调控机制。为了更多的了解南极微生物的逆境适应机制,以隶属南极海冰微生物典型菌属Pseudoalteromonas的ANT319为研究对象,探讨了该菌株在3%~12%的盐度梯度下的抗盐生长情况、蛋白质含量变化、细胞膜透性、丙二醛含量变化和不同盐度对菌株细胞内超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和过氧化物酶(POD)3种抗氧化酶活性的影响。结果表明,此菌株的最适生长盐度为9%,随着盐度的升高,细胞内蛋白质含量升高,膜透性逐渐增加,SOD和POD的酶活性呈现先升高后降低的变化趋势,在9%盐度下达到最高,CAT活性和MDA则基本上保持不变。可见,随着盐度的增加,细胞膜逐渐受到破坏,同时生物体对盐迫作出应激反应,产生较多蛋白来清除不良因素下产生的有害活性氧,包括生物体内抗氧化酶在内的蛋白含量及其活性的增加,研究结果初步揭示了海冰细菌的耐盐机制。
南極海冰微生物在適應極耑環境的長期進化過程中,穫得瞭特殊的生理生化特性和基因錶達調控機製。為瞭更多的瞭解南極微生物的逆境適應機製,以隸屬南極海冰微生物典型菌屬Pseudoalteromonas的ANT319為研究對象,探討瞭該菌株在3%~12%的鹽度梯度下的抗鹽生長情況、蛋白質含量變化、細胞膜透性、丙二醛含量變化和不同鹽度對菌株細胞內超氧化物歧化酶(SOD)、過氧化氫酶(CAT)和過氧化物酶(POD)3種抗氧化酶活性的影響。結果錶明,此菌株的最適生長鹽度為9%,隨著鹽度的升高,細胞內蛋白質含量升高,膜透性逐漸增加,SOD和POD的酶活性呈現先升高後降低的變化趨勢,在9%鹽度下達到最高,CAT活性和MDA則基本上保持不變。可見,隨著鹽度的增加,細胞膜逐漸受到破壞,同時生物體對鹽迫作齣應激反應,產生較多蛋白來清除不良因素下產生的有害活性氧,包括生物體內抗氧化酶在內的蛋白含量及其活性的增加,研究結果初步揭示瞭海冰細菌的耐鹽機製。
남겁해빙미생물재괄응겁단배경적장기진화과정중,획득료특수적생리생화특성화기인표체조공궤제。위료경다적료해남겁미생물적역경괄응궤제,이대속남겁해빙미생물전형균속Pseudoalteromonas적ANT319위연구대상,탐토료해균주재3%~12%적염도제도하적항염생장정황、단백질함량변화、세포막투성、병이철함량변화화불동염도대균주세포내초양화물기화매(SOD)、과양화경매(CAT)화과양화물매(POD)3충항양화매활성적영향。결과표명,차균주적최괄생장염도위9%,수착염도적승고,세포내단백질함량승고,막투성축점증가,SOD화POD적매활성정현선승고후강저적변화추세,재9%염도하체도최고,CAT활성화MDA칙기본상보지불변。가견,수착염도적증가,세포막축점수도파배,동시생물체대염박작출응격반응,산생교다단백래청제불량인소하산생적유해활성양,포괄생물체내항양화매재내적단백함량급기활성적증가,연구결과초보게시료해빙세균적내염궤제。
Over long periods of evolution, Antarctic sea-ice microorganisms obtained special physiological and biochemical characterristics and gene expression regulation mechanisms to adapt extreme environment.To learn more about the adaption mechanism of the Antarctic microorganisms, the strain's growth, total protein content, permeability of cell membrane, malondialdehyde and antioxidant enzymes system activity including SOD, POD and CAT had been studied under different salinity conditions of 3%~9%based on the Pseudoalteromonas sp.ANT319, which belongs to the typical genus in Antarctic bacteria.The results showed that the optimum salinity for P.sp.ANT319 was 9%.With salinity increasing, the total protein content and membrane permeability increased while SOD and POD enzymatic activities presented a trend of increasing firstly with the highest at 9%and then decreasing later, meanwhile CAT activity and MDA kept steady.Therefore, as the salinity increased, total proteins content increased as result of cell membranes damaged gradually, meanwhile, the strain produced more proteins to remove harmful reactive oxygen species caused by salt stress and the activities of antioxidant enzymes were also enhanced.These results revealed the salinity tolerance mechanism of sea-ice bacteria preliminarily.