科学术语的翻译实践及其概念的语境重置——从“bacterium”到“细菌”

19世纪末20世纪初,“bacterium”概念由西方传播至我国,并最终以“细菌”二字成为汉语词。这是一则外来概念在华传播的成功案例。“细菌”的入华“旅行”先后经历了术语“bacterium”的翻译实践、概念“bacterium”的在华接受及译词“细菌”的最终确立。“微虫”“微生物”“微菌”“霉菌”“微生毒”“微生虫”“璧他利亚”等译词的涌现、共存与淘汰体现了概念跨文化传播在语言层面的复杂表征,语境重置则是此番过程的本质。汉语语境“虫”概念和本土传统的病因学体系为“旅行”概念的接受创造条件。“细菌”二字被确立为术语“bacterium”的译词则是社会权力制约下的结果。深入挖掘这则成功案例,厘清概念跨文化传输的特点,或能为提升概念跨文化传播效率提供些许启示。

Microbiology and risk factors for gram-positive Cocci bacteremia in biliary infections

Background:The rapid antibiotics treatment targeted to a specific pathogen can improve clinical outcomes of septicemia.We aimed to evaluate the clinical characteristics and outcomes of biliary septicemia caused by cholangitis or cholecystitis according to causative organisms.Methods:We performed a retrospective cohort study in 151 patients diagnosed with cholangitis or cholecystitis with bacterial septicemia from January 2013 to December 2015.All patients showed clinical evidence of biliary tract infection and had blood isolates that demonstrated septicemia.Results:Gram-negative,gram-positive,and both types of bacteria caused 84.1%(127/151),13.2%(20/151),and 2.6%(4/151)episodes of septicemia,respectively.The most common infecting organisms were Escherichia coli among gram-negative bacteria and Enterococcus species(Enterococcus casseliflavus and Enterococcus faecalis)among gram-positive bacteria.There were no differences in mortality,re-admission rate,and need for emergency decompression procedures between the gram-positive and gram-negative septicemia groups.In univariate analysis,previous gastrectomy history was associated with gram-positive bacteremia.Multivariate analysis also showed that previous gastrectomy history was strongly associated with gram-positive septicemia(Odds ratio=5.47,95%CI:1.19–25.23;P=0.029).Conclusions:Previous gastrectomy history was related to biliary septicemia induced by gram-positive organisms.This information would aid the choice of empirical antibiotics.

Green Fluorescent Protein Recombinant Nisin as a Probe for Detection of Gram-Positive Bacteria

A great amount of foodborne pathogens were Gram-positive(G+) bacteria, a threat to public health. In this study, considering the binding ability of nisin towards G+ bacteria and the stable fluorescent ability of EGFP protein, a fluorescent nisin–EGFP protein probe was constructed by a gene engineering method. Nisin and EGFP were used as the receptor and fluorophore, respectively, to detect G+ bacteria. The nisin and egfp gene were amplified separately according to the sequence published in Gen Bank using unique primers. The two genes were cloned into a pET-28b(+) vector resulting in apET-28b(+)–nisin–egfp vector. The vector was transferred into Escherichia coli(E. coli) BL21(DE3) for expression. The expressed protein was extracted, purified by a Ni–NTA column, and then tested by the SDS-PAGE method to confirm its molecular weight. Listeria monocytogenes(L.monocytogenes), Staphylococcus aureus(S. aureus), and Micrococcus luteus(M. luteus) were used as the representations of G+ bacteria. E. coli O157, representing the gram-negative(G-) bacteria, was used as a negative control. The binding specificity of the recombinant protein was performed on two types of bacteria and then detected through fluorescent microscopy. The results indicated that the nisin–EGFP probe could detect G+ bacteria at 10~8CFU/mL.

Obligate aerobic, gram-positive, weak acid-fast, nonmotile bacilli, Tsukamurella tyrosinosolvens: Minireview of a rare opportunistic pathogen

Tsukamurella species are obligate aerobic,gram-positive,weak acid-fast,nonmotile bacilli.They are found in various environments,such as soil,water,sludge,and petroleum reservoir wastewater,and belong to the order Actinomycetales.In 2016,there was a reclassification of species within the genus Tsukamurella,merging the species Tsukamurella tyrosinosolvens(T.tyrosinosolvens)and Tsukamurella carboxydivorans.Tsukamurella species are clinically considered to be a rare opportunistic pathogen,because most reported cases have been related to bacteremia and intravascular prosthetic devices and immunosuppression.To date,it has been isolated only from human specimens,and has always been associated with clinical disease;human infections are very rare.Reported infections have included pneumonia,brain abscesses,catheter-related bloodstream infections,ocular infections,bacteremia,and sepsis presenting with septic pulmonary emboli in patients who are immunocompromised.To date,there is no commercially available test for identification.On the other hand,sequence-based identification,including matrix-assisted laser desorption ionization time-of-flight mass spectrometry,is an alternative method for identifying clinical isolates that are either slow growers or difficult to identify through biochemical profiling.The golden standards for diagnosis and optimal management still remain to be determined.However,newer molecular biological techniques can provide accurate identification,and contribute to the appropriate selection of definitive therapy for infections caused by this organism.Combinations of several antimicrobial agents have been proposed for treatment,though the length of treatment for infections has yet to be determined,and should be individualized according to clinical response.Immunocompromised patients often experience severe cases due to infection,and life-threatening T.tyrosinosolvens events associated with dissemination and/or failure of source control have occurred.Favorable prognoses can be achieved through earlier identification of the cause of infection,as well as successful management,including appropriate antibiotic therapy together with source control.Further analyses of similar cases are required to establish the most adequate diagnostic methods and treatment regimens for infections.

Bio-inhibitive effect of an algal symbiotic bacterium on corrosion of magnesium in marine environment

It is a longstanding and challenging task to develop sustainable environment-friendly and cost-effective corrosion-protection technologies for Mg alloys, especially under marine conditions in which corrosion can normally be significantly accelerated by bacterial activity. However,this paper reports on the corrosion of highly active Mg interestingly inhibited by an algal-symbiotic bacterium Bacillus altitudinis. The corrosion of Mg in the presence of the bacterium drastically reduced by one order of magnitude after 14 days of immersion. This means that the algal-symbiotic bacterium widely available in natural ocean environments may be employed as a green and sustainable inhibitor in the marine industry. Based on electrochemical measurements, surface analyses and microbe experiments, a combined inhibition mechanism is proposed in the paper to interpret the interesting corrosion behavior of Mg.

Comparison of the serum contents of inflammatory mediators and oxidative stress mediators between patients with gram-positive bacteria and gram-negative bacteria infection

Objective: To compare the serum contents of inflammatory mediators and oxidative stress mediators between patients with gram-positive bacteria and gram-negative bacteria infection. Methods: Patients who were diagnosed with bloodstream bacterial infection in Zigong Third People's Hospital between March 2015 and April 2017 were selected as the research subjects and divided into gram-positive group and gram-negative group according to the results of blood culture and strain identification, and serum levels of inflammatory mediators PCT, IL-1β, IL-6, sTREM-1, TNF-α, NGAL, SAA, HPT and hs-CRP as well as oxidative stress mediators MDA, AOPP, TAC, CAT and SOD were determined. Results: Serum PCT, IL-1β, IL-6, sTREM-1, TNF-α, NGAL, SAA, HPT, hs-CRP, MDA and AOPP levels of gram-negative group were greatly higher than those of gram-positive group while TAC, CAT and SOD levels were greatly lower than those of gram-positive group. Conclusion: The changes of inflammatory mediators and oxidative stress mediators in the serum of patients with gram-negative bacteria infection are more significant than those of patients with gram-positive bacteria infection.

2015-2021年CHINET尿液分离菌分布和耐药性变迁

目的了解2015-2021年CHINET细菌耐药监测网中尿液分离菌的分布和耐药性。方法收集CHINET细菌耐药监测网51家医疗机构2015-2021年所有尿液标本临床分离菌的耐药监测数据资料,采用WHONET 5.6软件进行统计分析。结果2012-2021年尿液标本共分离细菌261893株,其中革兰阳性菌62219株,占23.8%,革兰阴性菌199674株占76.2%。常见的分离菌依次为大肠埃希菌(46.7%)、屎肠球菌(10.4%)、肺炎克雷伯菌(9.8%)、粪肠球菌(8.7%)、奇异变形杆菌(3.5%)、铜绿假单胞菌(3.4%)、无乳链球菌(2.6%)和阴沟肠杆菌(2.1%)。上述细菌主要分离自住院患者,女性多见于男性,成人多见于儿童。大肠埃希菌、肺炎克雷伯菌和奇异变形杆菌中产超广谱β内酰胺酶(ESBL)菌株分别占53.2%、52.8%和37.0%。耐碳青霉烯类的大肠埃希菌、肺炎克雷伯菌、铜绿假单胞菌和鲍曼不动杆菌中检出率分别为1.7%、18.5%、16.4%和40.3%。粪肠球菌对氨苄西林、呋喃妥因、利奈唑胺、万古霉素、替考拉宁和磷霉素的耐药率<10%,屎肠球菌对氨苄西林、左氧氟沙星、红霉素的耐药率>90%,对万古霉素、利奈唑胺和替考拉宁的耐药率<2%。ICU住院患者分离的大肠埃希菌、肺炎克雷伯菌、铜绿假单胞菌和鲍曼不动杆菌对大部分抗菌药物的耐药率明显高于门诊患者和非ICU住院患者。结论尿液标本临床分离菌主要以大肠埃希菌、肠球菌和肺炎克雷伯菌为主,不同人群尿液标本中分离的细菌种类和耐药性不尽相同,应重视细菌耐药监测,减少抗菌药物的不合理使用。

不同感染指标在细菌性血流感染早期诊断和预后评估中的价值

目的探讨中性粒细胞/淋巴细胞比值(NLR)、C反应蛋白(CRP)、降钙素原(PCT)、血清淀粉样蛋白A(SAA)、白细胞介素-6(IL-6)和CD64指数对细菌性血流感染早期诊断和预后评估的价值。方法选取2019年1月—2023年6月上海交通大学医学院附属第九人民医院细菌性血流感染患者380例,以血培养阴性的住院患者100例作为对照组。检测所有研究对象NLR、CRP、PCT、SAA、IL-6和CD64指数。根据病原菌的类型分为革兰阳性(G^(+))菌组(105例)和革兰阴性(G^(-))菌组(275例)。380例患者中有210例并发脓毒症,依据其生存情况分为死亡组(40例)和生存组(170例)。结果G^(+)菌血流感染患者主要来自急诊科、普外科和普外重症监护病房,以金黄色葡萄球菌、屎肠球菌和表皮葡萄球菌为主;G^(-)菌血流感染患者主要来自普外重症监护病房、普外科和血液内科,以大肠埃希菌、肺炎克雷伯菌、鲍曼不动杆菌为主。G^(+)菌组和G^(-)菌组NLR、CRP、PCT、SAA、IL-6和CD64指数均显著高于对照组(P<0.05)。G^(-)菌组PCT、IL-6和CD64指数均高于G^(+)菌组(P<0.05),2个组之间NLR、CRP、SAA差异均无统计学意义(P>0.05)。死亡组NLR、PCT、CRP、SAA、IL-6、CD64指数均显著高于生存组(P<0.05)。结论NLR、CRP、PCT、SAA、IL-6和CD64指数在细菌性血流感染的诊断和预后评估中均有较高的价值。PCT、IL-6和CD64指数有助于区分血流感染的细菌类型。

乳山长牡蛎共附生可培养细菌的多样性和副溶血性弧菌拮抗菌的筛选

采用稀释涂布法分离培养2020年6—9月采自山东省威海市乳山牡蛎养殖区的长牡蛎(Crassostrea gigas)胃和鳃部位共附生可培养细菌,通过形态观察和16S rRNA基因测序进行多样性分析,同时筛选副溶血性弧菌的拮抗菌。结果表明:共分离获得细菌422株,删除重复后共获得不同批次细菌258株,主要包括变形菌门、厚壁菌门、放线菌门和拟杆菌门4个类群,分别占比72.2%、12.6%、11.8%和3.4%,共囊括了6个纲,63个属和119个种,并分离到1个潜在新种。分离的不同种类弧菌可能与牡蛎夏季高死亡率有关,并筛选出一株杀鱼假交替单胞菌ML-231对副溶血性弧菌有较强的抑制作用。本研究首次报道了乳山长牡蛎共附生可培养细菌多样性,发现多种致病性弧菌,并获得1株副溶血性弧菌拮抗菌,对今后乳山长牡蛎的生产管理及弧菌防治具有一定参考价值。

琼枝白化特征及其附生菌群多样性分析

2021-2022年,海南昌江养殖的琼枝(Betaphycus gelatinae)白化现象频发,造成了一定的经济损失,影响了海洋生态环境。为探究白化琼枝的特征和附生菌群落结构的差异,本研究分析了不同状态琼枝的形态差异;测定了色素含量、光合生理、生理生化等指标;分离、鉴定了不同状态琼枝表面的可培养附生细菌,同时采用16S rRNA高通量测序技术分析了健康琼枝(BgR)和白化琼枝(BgW)表面附生细菌的α多样性、β多样性以及菌群群落结构组成。研究显示,白化琼枝藻体的皮层组织结构遭到破坏,色素含量、最大光合效率(QY_max)显著降低,活性氧(ROS)、超氧化物歧化酶(SOD)、丙二醛(MDA)、脯氨酸(Pro)含量显著降低(p<0.05);BgW的可培养附生细菌数量(2.76×10^(7) cfu/g)显著高于BgR(3.3×10^(4) cfu/g),BgR中可培养附生细菌优势菌为鲁杰氏菌属(Ruegeria),BgW中为Yoonia属;高通量测序结果显示,两组样品附生菌群的α多样性指数无显著差异,但BgW的Ace、Chao、Simpson指数均有所升高,相似性分析(ANOSIM)表明,BgR和BgW表面附生菌群之间存在显著差异,比对注释结果共识别出253个OTUs,无色杆菌属(Achromobacter)、琼脂小杆菌属(Agaribacterium)、Hirschia属、Mesoflavibacter属和Aquimarina属是BgR和BgW之间相对丰度差异最显著的细菌类群(p<0.001);BgR的优势菌群为无色杆菌属,BgW的优势菌群为琼脂小杆菌属。本研究首次报道了白化琼枝的特征及表面附生菌群的变化,为进一步探究琼枝白化的原因奠定了基础。

3株肠道原籍菌在美洲鳗鲡养殖中的应用研究

为评价3株鳗鲡肠道原籍菌——拟蕈状芽孢杆菌MYα、变异不动杆菌MYAⅡ和高地芽孢杆菌MY5的益生效果,以基础饲料为对照组,将3株菌以5.0×10^(7) cfu/g添加量添加至基础饲料中,投喂初始体质量(10.00±0.09)g的美洲鳗鲡63 d,探究其对美洲鳗鲡生长性能、免疫功能及肠道菌群的影响。试验结果显示,饲料中添加拟蕈状芽孢杆菌MYα和变异不动杆菌MYAⅡ提高了美洲鳗鲡质量增加率和特定生长率,高地芽孢杆菌MY5组与对照组相比脏体指数和肝体指数显著降低(P<0.05)。饲料中添加变异不动杆菌MYAⅡ和高地芽孢杆菌MY5显著提高了血清溶菌酶活性(P<0.05),同时变异不动杆菌MYAⅡ组血清总超氧化物歧化酶活性显著高于对照组(P<0.05),变异不动杆菌MYAⅡ组和高地芽孢杆菌MY5组肝脏丙二醛含量较对照组略有降低。与对照组相比,拟蕈状芽孢杆菌MYα和变异不动杆菌MYAⅡ组乳杆菌属丰度有所升高,短螺旋菌属丰度下降,同时拟蕈状芽孢杆菌MYα组埃希氏菌属丰度升高;高地芽孢杆菌MY5组支原体丰度显著升高(P<0.05),乳杆菌属丰度下降。综上,变异不动杆菌MYAⅡ的综合益生效果最为明显,能提高美洲鳗鲡生长性能、免疫功能和抗氧化能力,改善肠道菌群结构,具有作为鳗鲡益生菌的开发潜力。

厌氧细菌Acetanaerobacterium elongatum从葡萄糖的产氢特性研究

为了了解影响厌氧发酵产氢细菌Acetanaerobacterium elongatumZ7产氢效率的因素,采用生理学方法对其进行了研究。结果表明:乙醇型发酵菌A.elongatumZ7的最适产氢温度为37℃,最适产氢的起始pH为8.0。该菌发酵葡萄糖和阿拉伯糖产氢的能力较强,氢气产率分别为1.55mol H2/mol葡萄糖和1.50mol H2/mol阿拉伯糖。酵母粉是菌株Z7生长和产氢所必须的生长因子;pH影响菌株的生长和葡萄糖利用率;氢压则影响电子流的分配,从而改变代谢产物乙酸和乙醇的比例;当产氢菌与甲烷菌共培养以维持发酵体系低的氢压时,可使氢的理论产量提高约4倍;培养基中乙酸钠浓度>60mmol/L明显抑制产氢。另外,一个只利用蛋白类物质的细菌能够促进菌株Z7对葡萄糖的利用,进而提供氢产量,为生物制氢的工业化生产提供理论参考。

水稻品种间作对甲烷排放的影响

作物品种多样化种植是提高农业生态系统功能的有效措施,但不同品种混合种植能否影响温室气体排放仍然缺乏研究。本研究以水稻为例,通过原位盆栽试验,研究品种间隔种植(间作)对甲烷排放的影响。以甲烷高排放品种常农粳8号、皖稻153以及甲烷低排放品种苏香粳100、Ⅱ优084为供试材料,设置8个处理,包括4个水稻品种单一种植(单作),即常农粳8号单作(记作CN)、皖稻153单作(WD)、苏香粳100单作(SX)、Ⅱ优084单作(ⅡY),以及2个甲烷高排放品种与2个甲烷低排放品种间作,即常农粳8号+Ⅱ优084间作(CN+ⅡY)、常农粳8号+苏香粳100间作(CN+SX)、皖稻153+Ⅱ优084间作(WD+ⅡY)、皖稻153+苏香粳100间作(WD+SX)。间作品种按1∶1的株数比例间隔种植。结果表明,4个间作处理均能显著增加或维持水稻产量。不同间作处理的甲烷排放通量存在显著差异,与期望值相比,CN+SX处理显著降低甲烷的排放,而CN+ⅡY、WD+ⅡY处理则显著增加甲烷排放。与甲烷高排放品种的单作处理相比,苏香粳100与2个甲烷高排放品种间作时均能显著降低生长季土壤产甲烷古菌mcrA基因平均丰度,但Ⅱ优084仅在与皖稻153间作时有显著作用。除CN+SX外,其余3个间作处理下生长季土壤甲烷氧化菌pmoA基因平均丰度均显著低于所对应的单作处理。本研究认为可以通过水稻品种间作在获得增产的同时降低甲烷排放,但品种间作组合需要仔细筛选。

乳酸菌的抗食物过敏及免疫调节特性的研究进展

乳酸菌作为一种食品安全级微生物,其具有多种益生功能,如调节肠道微生态平衡、抗肿瘤、抗氧化、免疫调节、抗食物过敏等。乳酸菌也因此在医学、工业等方面成为近年来的研究热点。另外,肠道菌群在食物过敏的致敏机制中扮演着重要的角色,这也使利用乳酸菌预防或者治疗食物过敏成为了可能。该文对食物过敏的致敏机制进行描述,根据致敏机制对乳酸菌的抗食物过敏机制进行总结,并对乳酸菌的免疫调节作用机制及其黏附进行了讨论,旨在为乳酸菌抗食物过敏及免疫调节功能食品的开发及乳酸菌资源利用提供一定的理论参考。

144例老年利福平耐药肺结核患者治疗转归及影响因素分析

目的:分析老年利福平耐药肺结核患者治疗转归及影响因素。方法:采用回顾性研究方法,参照入组标准收集2020年9月至2023年9月安徽省胸科医院收治的144例老年利福平耐药肺结核患者相关临床资料,分析患者治疗转归情况及影响因素。结果:144例老年利福平耐药肺结核患者中,治疗结局良好者65例(45.14%),包括治愈51例(35.42%)、完成疗程14例(9.72%);不良结局者79例(54.86%),包括失败7例(4.86%)、失访57例(39.58%)、死亡15例(10.42%),其中因结核病死亡7例。多因素logistic回归分析显示,体质量指数≥18.5(OR=0.131,95%CI:0.040~0.429,P<0.001)和长期督导管理(OR=0.052,95%CI:0.013~0.204,P<0.001)均是良好结局的保护因素,而合并糖尿病(OR=3.266,95%CI:1.074~9.936,P=0.037)和发生胃肠道反应(OR=8.976,95%CI:2.582~31.205,P<0.001)均是发生不良结局的危险因素。结论:安徽省老年利福平耐药肺结核患者治愈率较低,应重点关注合并糖尿病、营养状况欠佳、无长期督导服药管理及发生药物不良反应的老年患者,做到积极控制血糖水平、处理不良反应,加强营养支持和督导管理,进一步提高治愈率。

口腔菌群与胃癌相关性的研究进展

胃癌是世界范围内严重威胁人类健康的一种癌症,其发生机制尚未完全明确,且大部分患者确诊时已是晚期。口腔是人体内仅次于肠道的第二大微生物库,口腔菌群与人体健康之间的联系也越来越受关注。近年来的一些研究发现口腔菌群与胃癌发生密切相关,口腔菌群特征具有作为胃癌无创诊断筛查生物标志物的潜质,而且口腔菌群失调、移位会促进胃癌的发生发展。本文对口腔菌群与胃癌的相关性进行综述,旨在为进一步阐明胃癌的发生发展机制、实现胃癌的早期无创筛查提供依据,并为后续开展相关研究提供参考。

布鲁氏菌BP26蛋白细菌样颗粒疫苗的制备和免疫学评价

为了构建布鲁氏菌外膜蛋白BP26细菌样颗粒候选疫苗BLPs-BP26,并评价其免疫原性,本试验首先分别扩增羊种布鲁氏菌16M株编码BP26蛋白的整个基因序列和乳酸乳球菌MG1363株编码肽聚糖锚钩蛋白(PA)的整个基因序列,通过重叠延伸PCR技术将bp26基因与PA基因连接构建融合基因bp26-PA,将融合基因bp26-PA克隆至pET-28a原核表达载体并诱导表达融合蛋白BP26-PA。将表达正确的BP26-PA融合蛋白与细菌样颗粒(BLPs)结合构建BLPs-BP26,通过SDS-PAGE、Western blot、间接免疫荧光和冷冻超薄切片对BLPs-BP26进行鉴定。将BLPs-BP26免疫小鼠,通过酶联免疫吸附试验(ELISA)检测小鼠特异性IgG抗体水平,实时荧光定量反转录PCR(RT-qPCR)分析免疫小鼠脾脏组织中干扰素γ(IFN-γ)和白介素2(IL-2)的基因转录水平,ELISA方法检测免疫小鼠血清中IFN-γ和IL-2的蛋白表达水平。鉴定结果显示,BP26-PA蛋白成功展示在BLPs表面;免疫小鼠试验结果显示,小鼠血清特异性IgG抗体效价最高可达1∶1 024 000;与PBS组相比,BLPs-BP26组免疫小鼠脾脏组织中IFN-γ和IL-2基因的转录水平均极显著升高(P值分别为P<0.000 1和P<0.01),小鼠血清中IFN-γ的表达水平极显著升高(P<0.000 1)。结果表明,BLPs-BP26能刺激小鼠产生高水平的特异性IgG抗体,并可诱导小鼠产生细胞免疫应答。本试验为开发具有良好免疫原性且无安全隐患的布鲁氏菌新型疫苗提供了新的思路。

高效产氢细菌新种——Ethanologenbacterium sp.X-1的分离鉴定及其产氢效能

为获得高效产氢发酵细菌 ,采用改进的厌氧Hungate培养技术 ,从生物制氢反应器CSTR中分离一株产氢细菌X 1。对该株细菌进行了形态学特征、生理生化指标、16SrDNA和 16S 2 3SrDNA间隔区序列分析等研究。结果表明与最相近的种属Clostridiumcellulosi和Acetanaerobacteriumelongatum等的 16SrRNA基因序列同源性为 94 %以下。16S 2 3SrRNA间隔区基因序列比对分析显示保守区域仅为tRNAAla和tRNAIle序列 ,其它可变部位没有同源性区域 ,鉴定为新属Ethanologenbacteriumsp .。该株细菌为专性厌氧杆菌 ,代谢特征为乙醇发酵 ,葡萄糖发酵产物主要为乙醇、乙酸、H2 和CO2 。在pH4 0和 36℃条件下最大产氢速率是 2 8 3mmolH2 (gdrycell·h)。

共附生菌对绿潮浒苔作用的研究进展及应用

绿潮的迁移与大规模暴发,除了与藻体自身较强抗胁迫能力等生物学特性和海域环境条件有关外,也离不开藻际微生物的参与。微生物群落对藻类的生长、消亡等过程具有重要作用。不同环境条件下,浒苔共附生菌群落结构多样,对藻类的促进作用主要体现在藻体形态建成、生长、营养吸收以及光合作用等过程。在藻华发生过程中,能够帮助藻体高效吸收营养物质,促进藻类增殖,加剧绿潮的形成。因此,本文基于前人的研究成果,总结当前绿潮优势种浒苔共附生菌的研究现状,阐述浒苔共附生菌分离技术的建立过程,指出高通量测序等分子生物学技术对微生物群落结构与多样性分析的重要性,分析共附生菌对浒苔生长、繁殖、形态建成等生理特征和绿潮暴发的影响,探寻共附生菌在今后生产、生活中的应用价值,旨在为预测、防控绿潮暴发以及资源化利用开辟新思路。

高效絮凝菌EbZL-1的筛选鉴定及采收微藻效果评价

从东华大学镜月湖底淤泥样本中筛选到一株高效絮凝菌,采用16S rDNA测序和菌种鉴定试剂盒确定该菌株属于肠杆菌属(Enterobacter),命名为EbZL-1。以高岭土悬液为待絮凝标准液,通过单因素试验和响应面法探究絮凝菌EbZL-1在不同影响因素下的絮凝能力。研究结果表明:以11.69 g/L葡萄糖为碳源,1.04 g/L硝酸铵为氮源,培养基pH=7.8,摇床转速为160 r/min,菌株接种量为45μL(1.2×10^(5)CFU/mL),培养12 h,EbZL-1达到对数生长期;Ca^(2+)作助凝剂,高岭土悬液pH=7.0时,10 min内EbZL-1絮凝率可达96.6%,优于商用絮凝剂聚合氯化铝(120 min,95.0%)。进一步探究菌株絮凝机制,结果表明EbZL-1通过菌体自身紧密吸附待絮凝物实现大颗粒快速沉降。利用EbZL-1沉降小球藻,5 min内其絮凝率高于95%,油镜观察絮凝后小球藻,其胞体未受损。与现有絮凝菌比较,EbZL-1在广泛的pH范围(pH=5~10)内,均可快速沉降微藻,在微藻采收工艺中具有应用前景。EbZL-1絮凝菌不仅有望提升微藻采收效率,且在污水处理等方面也有应用价值,值得进一步开发。