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本文对影响南极细菌S-15-13生长和胞外多糖产量的主要环境因子进行了研究,同时采用16S rDNA序列分析及系统发育分析方法对其进行了分子鉴定。结果表明:菌株S-15-13最佳产糖条件为:培养时间,56h;培养温度,8℃;碳源,1.0%葡萄糖;NaCl浓度,3.0%;pH,6.0-7.0。16S rDNA序列分析和系统发育分析表明,菌株S-15-13属于假交替单胞菌属(Pseudoaltero- monas)。 相似文献
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Screening and molecular classification of low-temperature protease from Antarctic microorganism and its characterization 下载免费PDF全文
<正> 107 strains producing protease were screened from 260 strains of Ant-arctic psychrophilic bacteria,among which proteolytic activity of five strains wasmore than 45 U ml~(-1).The 16S rRNA gene sequences homology and phylogenet-ic analysis of five Antarctic psychrophilic bacteria showed that NJ276、NJ5-9、NJ16-70、NJ345 belonged to the described genus Pseudoalteromonas and NJ341belonged to the genus Colwellia.The growth and the protease characteristic offour Antarctic psychrophilic bacteria had been studied,and the result showedthat the optimal temperature for growth and protease-producing of four strainswas about 10℃.Their growth and protease-producing were still high during in-cubating 2-5 days.The maximum proteolytic activity occurred at pH 9 for fourAntarctic psychrophilic bacteria.The optimal temperature of protease action ofboth strains NJ276 and NJ5-9 was about 50℃,however,the optimal temperatureof protease action of both strains NJ341 and NJ345 was about 40℃,and theirproteolytic activity under 0℃ exhibited nearly 30% of the maximum activity,but their thermal stabilities were weaker.These results indicated that proteasesfrom NJ341 and NJ345 were low-temperature proteases. 相似文献
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107 strains producing protease were screened from 260 strains of Antarctic psychrophilic bacteria, among which proteolytic activity of five strains was more than 45 U ml^-1. The 16S rRNA gcne sequences homology and phylogcnetic analysis of five Antarctic psychrophillc bacteria showed that NJ276, NJS-9, NJ16-70,NJ345 belonged tO the described genus Pseudoalteromonas and NJ341 belonged to the genus Colwellia. The growth and the protease characteristic of four Antarctic psychrophilic bacteria had been studied, and the result showed that the 6ptimal temperature for growth and protease-produeing of four strains was about 10℃. Their growth and protease-produeing were still high during incubatlng 2-5 days. The maximum proteolytic activity occurred at pH 9 for four Antarctic psychrophilic bacteria. The optimal temperature of protease action of both strains NJ276 and NJ5-9 was about 50℃, however, the optimal temperature of protease aetlon of both strains NJ341 and NJ345 was about 40 ℃, and their proteolytic activity under 0℃ exhibited nearly 30% of the maximum activity, but their thermal stabilities were weaker. These results indicated that proteases from NJ341 and NJ345 were low-temperature proteases. 相似文献
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党的十六大要求全党尽快建立干部激励和保障机制。2004年8月份山东省委提出加快三个体系建设,通过民主科学的决策目标、权责明确的执行责任、严格高效的考核监督,激发各级干部的工作热情。山东省地质矿产勘查开发局(简称山东省地矿局,下同)近年来狠抓三个体系建设,取得明显成效,得到了山东省委主要领导同志的充分肯定。8月2日张高丽书记在《山东省地矿局关于三个体系建设的情况报告》上作了重要批示:“此报告和省地矿局发生的变化,说明三个体系建设的重要性,只要领导班子坚强、发展思路清晰,用心把握、抓好工作,明确责任、恪尽职守,想干、会… 相似文献
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The changes of plasmalemma permeability and some primary inorganic ions of Antarctic ice microalgae ( Chlamydomonas sp. ICE-L) in the low-temperature stress were examined. The plasmalemma of 1CE-L could maintain the stability at the freezing condition of -6 ℃. That signifies that it could maintain the proper function of plasmalemma and stability of the intracellular environment during sea ice formation. The function of inorganic ions on low-temperature adaptation of ICE-L was investigated by using the X-ray microanalysis method. Low temperature (0 - -6 ℃ ) induces Ca^2 + concentration increment of cytoplasm, but after 24 h the content decrease quickly to normal value. As a matter of fact, Ca^2 + plays an important role as the second messenger in the low temperature adaptation of ICE-L. In addition, low temperature also influences on the other primary inorganic ions transfer and the cell maintains activity by keeping ratio balance among different ions. Above all, it is necessary for Antarctic ice microalgae to survive and breed by maintaining the stability of K^ + content and the balance of Na^ +/Cl^ -. 相似文献
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环境因子对2种南极绿藻脂肪含量和脂肪酸组成的影响 总被引:3,自引:1,他引:2
通过气相色谱方法对南极冰藻的脂肪酸进行了分析,发现环境因素对2种绿藻总脂含量有一定的影响:(1)温度对Pymmixtomonas sp,总脂含量影响不大,一般为8.3%~8.9%,Chlorophyceae L-4在2℃时的总脂含量最高为10.33%;(2)光强显著地影响这2种绿藻脂肪在细胞内的积累。随着光强由限制生长的39 lx增加到3900 lx,2种绿藻的脂肪酸含量降低:(3)盐度的提高有利于2种绿藻脂肪的积累;(4)营养盐的限制也利于2种绿藻脂肪的积累。在氮源缺乏条件下,Pyramidomonas sp,和Chlorophyceae L-4细胞内脂肪大量积累,含量分别是以NH4Cl为氮源的2.2和3.2倍。环境因素对2种绿藻脂肪酸组成和含量的影响不同,其脂肪含量的改变反映了南极冰藻生长的改变。环境因子能够影响这2种绿藻的脂肪含量,同样也影响到它们的生长。在适合南极冰藻生长的条件下,脂肪酸积累降低;反之,在南极冰藻生长受到限制的条件下,脂肪合成增加。这表明2种绿藻的脂肪含量随生存环境的变化而变化。环境因子同样影响到2种绿藻的脂肪酸组成,尤其是不饱和脂肪酸的组成和含量,但组成和其生长不存在相关性。环境因子(温度、光强、盐度和营养盐)对2种绿藻脂肪酸的测定结果表明,在2种绿藻中,多不饱和脂肪酸的含量高于单不饱和脂肪酸和饱和脂肪酸。因此。这2种绿藻可望为多不饱和脂肪酸的开发利用提供藻种资源。 相似文献
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贝类血细胞活性氧体内防御作用的研究进展 总被引:18,自引:0,他引:18
不论是在海水还是淡水,贝类的生存环境中充满了各种各样的寄生虫和病原体。因此,贝类必须具备一个有效的防御系统来抵抗各种病原微生物的侵袭,使其免受感染。虽然贝类具备坚硬的外壳形成一个物理和化学屏障,但仍然需要一个有效的体内防御网来对付通过伤口或其他途径偶然进入体内的病原微生物。贝类的体内防御系统不同于高等动物,缺乏特异性免疫机制,是以血细胞为防御基础的,这些血细胞能够通过吞噬和包囊来清除体内的外来病原微生物。血细胞释放一些毒性物质来杀灭和消化病原微生物,这些毒性物质中有一类是血细胞在吞噬过程中释放的… 相似文献
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