Isolation, Identification and Drug Susceptibility Test of a Strain of Escherichia coli Causing Fox Pneumonia

[Objective] The paper was to determine the pathogen causing fox pneumonia in a breeding factory in Changli County.[Method]Through autopsy, a dominant strain was isolated from the lung of dead foxes, which was then performed Gram staining, 16 S rRNA sequence analysis and biochemical identification.[Result] The strain was negative in Gram staining, and was identified as E. coli through 16 S rRNA sequence analysis and biochemical identification. Drug susceptibility test was conducted using 15 kinds of drug susceptibility papers. The E. coli was sensitive to florfenicol, enrofloxacin, ceftriaxone, norfloxacin;intermediately sensitive to amikacin, gentamicin;and strongly resistant to penicillin, ampicillin,cefradine, sulfamethoxazole, lincomycin, streptomycin and amoxicillin.[Conclusion] It is difficult to treat E. coli causing fox pneumonia with traditional antibiotics clinically.

Expression and purification of recombinant human hemangiopoietin in Escherichia coli

Objective:To express the soluble recombinant hemangiopoietin protein in E.coli BL21(DE3).Methods:Using human fetal live cDNA as a template,a partial cDNA fragment of HAPO coding N-terminal region was subcloned into plasmids pTrc99,pQE60 and pET32c to construct different recombinant prokaryotic expression systems.After selecting,the soluble rhHAPO fusion protein was expressed stably in E.coli BL21(DE3) by vector pET32c-HAPO and further isolated by nickelnitrilotriacetic acid(NTA) affinity chromatography.After cleavage with enterokinase,the rhHAPO protein was applied to Fast Flow SP sepharose column.Results:The rhHAPO protein had a purity of more than 95% and a good bioactivity based on the cell adhesion assay in ECV304 cells.Conclusion:We have established a protein engineering system to produce rhHAPO which may provide the possibility for clinical application.

Purification of the Drosophila melanogaster Proteins Inscuteable and Staufen Expressed in Escherichia coli

The proteins Inscuteable and Staufen are key components during asymmetric cell division of neuroblasts for the development of Drosophila melanogaster. Expression and purification of both proteins has been a difficult task for structure-function studies. Based on codon optimization for protein expression in Escherichia coli, we have been able to produce, in soluble form, the C-terminal domains of Inscuteable and Staufen as chimeras with N-terminal maltose binding protein tag that contains a rigid linker between them for feasible crystallization. In addition, using an optimized synthetic gene, corresponding to the amino acid region 250 - 623 of Inscuteable fused to glutathione-S-transferase, low-scale expression experiments showed production of soluble protein. Finally, eukaryotic expression of Inscuteable in the methylothropic yeast Pichia pastoris failed to produce the Drosophila protein at detectable amounts, reinforcing the fact that E. coli still was the microorganism of choice for high-yield protein expression.

Sweet Potato Leaf Curl Virus: Coat Protein Gene Expression in <i>Escherichia coli</i>and Product Identification by Mass Spectrometry

Sweet potato is one of the first natural GMOs, genetically modified 8000 years ago by Agrobacterium rhizogenes as reported recently by Kyndt et al. A section of 10 kbp long DNA (Transferred- DNA or T-DNA) of the Ri (Root-inducing) plasmid was transferred to the plant genome by A. rhizo-genes and has been maintained in all 291 hexaploid sweet potato cultivars of the world. The maintenance in the sweet potato genome and expression of two T-DNA genes for tryptophan-2-monooxygenease (iaaM) and for indole-3-acetamide hydrolase (iaaH) are likely to be physiologically significant since these enzymes convert tryptophan to indole-3-acetic acid, a major plant growth hormone auxin. Sweet potato (Ipomoea batatas (L.) Lam) is ranked the third most important root crop after potato and cassava, and the seventh in global food crop production with more than 126 million metric tons. Although sweet potato originated in Central or South America, China currently produces over 86% of world production with 109 million metric tons. In the United States, North Carolina is the leading producer with 38.5% of the 2007 sweet potato production, followed by California, Mississippi, and Louisiana with 23%, 19%, and 15.9%, respectively. Leaf curl virus diseases have been reported in sweet potato throughout the world. One of the causal agents is Sweet potato leaf curl virus (SPLCV) belonging to the genus Begomovirus (family Geminiviridae). Although SPLCV does not cause symptoms on Beauregard, one of the most predominant sweet potato cultivars in the US, it can reduce the yield up to 26%. Serological detection of SPLCV is not currently available due to the difficulties in obtaining purified virions that can be used as antigen for antiserum production. In attempts to obtain the coat protein (CP) of SPLCV for antibody production, primers were designed to amplify the CP gene. This gene was cloned into the expression vector pMAL-c2E as a fusion protein with maltose-binding protein, and transformed into Escherichia coli strain XL1-Blue. After gene induction, a fusion protein of 72 kDa was purified by amylose affinity chromatography. The yield of the purified fusion protein was approximately 200 μg/liter of bacterial culture. Digestion with enterokinase cleaved the fusion protein into a 42.5 kDa maltosebinding protein and a 29.4 kDa protein. The latter protein was identified by mass spectrometry analysis as the coat protein of SPLCV based on the fact that the mass spectrometry elucidated the sequences corresponding to 37% of amino acid positions of the SPLCV coat protein.

秦皇岛地区鸡源大肠杆菌分离鉴定及药敏试验

试验旨在了解河北省秦皇岛地区养殖场鸡源大肠杆菌耐药情况,为该地区鸡大肠杆菌病的用药方案提供参考。采集秦皇岛市部分地区鸡场疑似感染大肠杆菌的病死鸡病料,采用细菌分离培养、革兰氏染色法和PCR鉴定对分离株进行鉴定,并进行药敏试验。结果显示:共检测出18株大肠杆菌,分离株对庆大霉素、丁胺卡那敏感;对哌拉西林、头孢哌酮、羧苄西林和头孢曲松呈中度耐药,耐药率为33.33%~50.00%;对青霉素、头孢他啶、苯唑西林、红霉素、头孢拉定和头孢氨苄高度耐药,耐药率为94.44%~100.00%。研究表明,应不定时检测当地鸡源大肠杆菌对常用抗生素药物的敏感性,以便及时快速地调整用药,避免造成耐药性。

一株拮抗菌产生的抗菌物质的分离纯化与初步鉴定

试验旨在分离纯化XDH菌株产生的抗菌物质,并初步鉴定有效抗菌物质的结构。从泰山林地土壤中分离获得一株对大肠杆菌及鸡白痢沙门氏菌等多种动物致病菌具有较强拮抗作用的短短芽孢杆菌XDH,通过硫酸铵盐析和层析技术对该菌株产生的抗菌物质进行了分离纯化,对纯化后的抗菌物质进行了性质研究,并对抗菌物质B组分进行了结构鉴定。结果为:经过CM Sepharose FF离子交换层析、Sephadex G25凝胶层析对抗菌物质进行分离纯化,纯化后的抗菌物质对大肠杆菌的最小抑菌浓度(MIC)、最小杀菌浓度(MBC)分别为2.34μg/mL和4.69μg/mL,对鸡白痢沙门氏菌的MIC、MBC分别为0.63μg/mL和1.25μg/mL。采用AKTA Explore10层析系统对抗菌物质进一步分离纯化,获得A、B、C三个活性组分,其中,活性组分B的质谱解析结果显示,其分子量为1570.9 Da,推断为一新的多肽类抗菌物质。

大肠杆菌发酵低廉生物质产乙醇酸及其分离纯化研究

碳中和背景下全生物基乙醇酸得到了广泛的关注,但其高昂发酵成本、匮乏的下游分离纯化工艺研究,限制了后续的工业生产应用。该研究以重组大肠杆菌为对象,采用统计学方法在摇瓶水平上对发酵培养基成分进行优化,并基于5 L发酵罐进行初步放大验证和下游分离纯化研究。最终利用低廉的玉米芯水解液等成分,摇瓶水平乙醇酸产量达到4.77 g/L,较初始培养基提高2.58倍;5 L罐乙醇酸产量达42 g/L,提高至优化前的1.4倍;通过初步的生物分离纯化,成功获得生物基乙醇酸,晶体纯度达到99.3%,符合市售标准要求。该研究通过发酵培养基优化、5 L发酵罐放大验证以及下游生物分离纯化,初步构建了生物基乙醇酸的低成本生产体系,为生物基乙醇酸的工业化生产应用奠定基础。

重组人IL-2在E.coli中的高效表达诱导因素及其纯化的研究

表达人IL-2的E.coli pETI-2/MM294在色氨酸饥饿的培养基中发酵,加入一定量的3—吲哚乙酸诱导其trp启动子,可以使rlL-2的表达量高达总菌体蛋白量的19％。高水平表达的rlL-2以不溶性的包含体形式存在于E.coli的胞浆中。通过破碎细菌、变性抽提和使rlL-2复性后,再经CM-SephadexC-50、DEAE-SephadexA-50、SephadexG-75等一系列层析步骤纯化,最终得到的rlL-2纯度达90％以上,比活性为7.21×10~5μ/mg,总回收率为10.5％。

林麝出血性肺炎病原菌的分离鉴定和菌影疫苗的制备

为了科学有效防控林麝出血性肺炎,本试验对发生出血性肺炎的死亡林麝进行病理剖检,采取病变肺脏进行细菌分离纯化、生化和16S rRNA测序鉴定及耐药性检测,并制备菌影疫苗开展小鼠免疫保护试验。结果显示,从表现典型出血性肺炎病变的林麝肺脏样本中分离鉴定出3株大肠杆菌,分离株对小鼠均有致病性,药敏试验均为多重耐药菌株;采用0.4 mg/mL氢氧化钠溶液裂解大肠杆菌分离株制备菌影疫苗,以0.5×10^(8)CFU/只剂量2次免疫小鼠后能提供100%的免疫保护。结果表明,从患出血性肺炎的林麝肺脏中分离到致病性大肠杆菌,制备的菌影疫苗对小鼠具有良好的免疫保护效果,为林麝大肠杆菌性出血性肺炎的防控提供了新思路。

江西省部分地区鸽源大肠杆菌分离鉴定及耐药性分析

【目的】为研究鸽源大肠杆菌对常见抗菌药物的耐药情况。【方法】从江西省高安市五家肉鸽养殖场采集125份明显腹泻鸽的肛拭子,将样品处理后采用平板划线法进行细菌分离,多次纯化后进行菌种鉴定和20种常见抗生素的药敏试验,统计数据后进行药物敏感性分析、多重耐药分析和耐药谱分析。【结果】共分离得到102株大肠杆菌,阳性率为84.30%;对20种常见抗菌药物进行药物敏感性检测,其中对四环素(97.06%)耐药率最高,其次是多西环素(95.10%)、氨苄西林(92.16%)、阿莫西林(90.20%)、链霉素(86.27%)、复方新诺明(82.35%)、氯霉素(73.53%)、氟苯尼考(72.55%)、萘啶酸(71.57%)、头孢噻肟(63.73%),其余均在60%以下,而对庆大霉素(44.11%)、头孢唑林(52.94%)、头孢曲松(59.80%)、阿米卡星(48.04%)、氨曲南(52.94%)表现为高敏;分离大肠杆菌呈现不同程度的多重耐药,均在4重以上,以10~15重耐药为主,多重耐药率达到100%;共产生92种耐药谱组合。【结论】该地区鸽大肠杆菌病发病率较高,且其对常见抗菌药物的耐药问题已相当严重。

鹧鸪源大肠杆菌分离鉴定及茶多酚抑菌效果研究

采集腹泻鹧鸪粪便及肝脏进行细菌分离鉴定、药敏试验、耐药基因与毒力基因检测,以及茶多酚对其体外抑菌效果检测。试验共分离得到8株分离菌,经生化试验、16S rRNA基因测序和构建系统进化树证实8株分离菌均为大肠杆菌;8株分离菌对氟苯尼考、多西环素、磺胺苄啶、头孢唑林、诺氟沙星、丁胺卡那、环丙沙星和阿莫西林具有不同程度耐药;挑选对8种抗生素均严重耐药的1株分离菌,命名为GXHZ20230407-6作进一步试验;GXHZ20230407-6携带耐药基因blaTEM、aadA1和sul2,及毒力基因fliC、fimH和iucD;茶多酚对GXHZ20230407-6的最低抑菌浓度(MIC)和最低杀菌浓度(MBC)为4 g·L^(-1);与空白对照组相比,当茶多酚溶液浓度分别为1、2 g·L^(-1)时,GXHZ20230407-6生长和运动均显著降低(P<0.05);当茶多酚质量浓度高于0.25 g·L^(-1)时,GXHZ20230407-6耐药基因(blaTEM、aadA1、sul2)和毒力基因(iucD、fimH)表达显著降低(P<0.05)。

腹泻奶牛源大肠杆菌的分离鉴定及中药的体外抑菌效果

为了研究贵州毕节某奶牛场荷斯坦奶牛发生腹泻的原因,从该奶牛场采集50份新鲜粪便样本,通过平板划线法对大肠杆菌进行分离纯化和PCR鉴定,采用K-B纸片法进行药物敏感试验,并对多种耐药基因进行PCR检测。针对多重耐药菌,选取虎耳草和杜鹃花2种中草药进行体外抑菌效果研究。结果显示:从腹泻奶牛粪便中分离出31株细菌,其菌落形态和生化特性与大肠杆菌相符;16S rRNA基因测序比对发现该牛场分离的菌株与NCBI数据库中大肠杆菌参考菌株的同源性达到99.65%~99.86%,确定该奶牛场的腹泻病原为大肠杆菌;药敏试验发现该牛场来源的大肠杆菌对多种抗生素(强力霉素、红霉素、青霉素G和四环素)耐药,而对磺胺异恶唑、头孢曲松、环丙沙星、庆大霉素、多黏菌素B、磷霉素等10种抗生素敏感;PCR扩增相关耐药基因发现,导致该牛场腹泻的大肠杆菌携带2种β-内酰胺类(blaCTX-M、blaTEM),4种四环素类(TetD、TetB、TetK、TetD、TetA),2种氨基糖苷类(ant(3″)-Ia、rmtB)和3种喹诺酮类(qnrS、qepA、oqxA)耐药基因。体外抑菌研究发现,杜鹃花(3.125 mg/mL)的水提物有显著的抑菌效果。试验结果可为该奶牛场防治大肠杆菌性腹泻提供用药指导,同时为开发替抗中草药产品提供了依据。

鸢尾素在大肠杆菌中的重组表达及纯化

目的在大肠杆菌中重组表达并纯化得到高产量、高纯度的鸢尾素(Irisin)重组蛋白,为后续Irisin的功能研究奠定基础。方法对Irisin基因CDS序列密码子优化后进行基因合成,通过一步克隆连接法构建重组质粒pET-30a-Irisin,将其转化到大肠杆菌表达感受态细胞Rosetta(DE3)中。以终浓度为0.5 mM的IPTG在15℃、100 rpm诱导表达30 h。诱导表达结束后收集菌体,超声波破碎细菌细胞,离心取上清,用Ni-IDA琼脂糖纯化树脂进行纯化。结果成功构建得到重组质粒pET-30a-Irisin,重组表达菌株经低温、低浓度IPTG诱导,经Ni-IDA琼脂糖纯化树脂纯化得到产量为105 mg·L^(-1)的高纯度Irisin重组表达产物。结论密码子和诱导条件优化可促进Irisin重组蛋白在大肠杆菌中的可溶性表达,为研究其对不同肿瘤细胞的影响及机制奠定坚实基础。

热纤梭菌Cthe_2401蛋白功能预测及在大肠杆菌中的克隆表达与纯化

目的利用生信手段预测Cthe_2401蛋白的特性与功能,并在大肠杆菌中进行体外克隆、表达与纯化。方法利用国家生物技术信息中心数据库(NCBI)、蛋白保守结构域数据库(CDD)分析Cthe_2401蛋白的序列和进化特征,采用SWISS-MODEL在线软件进行同源建模并预测该蛋白的结构与功能;利用聚合酶链式反应(PCR)扩增Cthe_2401基因,并与pET28a载体链接构建pET28a-Cthe_2401表达质粒,转化大肠杆菌后利用异丙基硫代半乳糖(IPTG)诱导Cthe_2401蛋白表达;利用50%硫酸铵沉淀、Ni-NTA柱以及SephadexG75葡聚糖凝胶柱纯化Cthe_2401蛋白。结果生物信息学预测表明,Cthe_2401蛋白属于Veg蛋白家族,可能与生物膜的发生和孢子形成有关;Cthe_2401蛋白成功在大肠杆菌克隆与表达,体外纯化获得约10 ku大小的蛋白条带,与预期结果一致。结论成功预测Cthe_2401蛋白的功能,成功获得Cthe_2401蛋白在大肠杆菌中的克隆、表达与纯化。

禽多病因气囊炎病原的分离鉴定及耐药性分析

为了解广东省四会地区某鸡场多病因气囊炎的主要致病菌及其耐药情况。采用形态学鉴定、16S rRNA基因测序等方法对分离株进行鉴定,选取3种常用抗生素进行药物敏感性试验,进行耐药性研究。结果表明:第1株分离株菌落呈典型的“荷包蛋”状,第2株分离株为革兰氏阴性杆菌,第3株分离株为革兰氏阳性球菌,经16S rRNA基因测序比对分析,3种病原的同源性均在99%以上,确定多病因气囊炎的主要致病菌为鸡毒支原体、大肠埃希氏杆菌和金黄色葡萄球菌,分别命名为SH-MG株、SH-E株和SH-S株。药物敏感性结果表明,SH-E株对阿莫西林、氟苯尼考和泰妙菌素产生了耐药性,SH-S株对阿莫西林产生了耐药性,SH-MG株对泰妙菌素敏感。说明禽多病因气囊炎很可能是金黄色葡萄球菌、大肠杆菌和鸡毒支原体共同感染造成的,其中大肠杆菌和金黄色葡萄球菌对一些常用的抗生素表现出耐药性,泰妙菌素是防治鸡毒支原体感染的首选药物。

秦皇岛地区貂源大肠杆菌(E. coli)的分离鉴定及药敏试验分析

为了确定秦皇岛地区貂源大肠杆菌(E. coli)流行情况及耐药性。本试验从秦皇岛地区不同水貂养殖场采集腹泻水貂的肠内容物及粪便57份,通过细菌的分离培养,形态学观察、生化鉴定等方法,分离鉴定出42株E.coli。致病性试验表明,34株为致病性E.coli。药敏试验结果表明,该菌仅对头孢克肟、头孢曲松、氟苯尼考等4种药物高度敏感;该菌具有很强的耐药性,耐药率达到40.4%～100%;该菌存在多重耐药现象,最高耐15种药物,且均耐8种药物以上。本研究为该地区水貂大肠杆菌病防治提供研究基础。

Expression and purification of bioactive high-purity human midkine in Escherichia coli

Midkine is a heparin-binding growth factor, which plays important roles in the regulation of cell growth and differentiation. The non-tagged recombinant human midkine （rhMK） is therefore required to facilitate its functional studies of this important growth factor. In the present work, rhMK was expressed in Escherichia coli （E. coli） BL21 （DE3）. The expression of midkine was efficiently induced by isopropyl-13-D-thiogalactopyranoside （IPTG）. After sonication, midkine was recovered in an insoluble form, and was dissolved in guanidine hydrochloride buffer. Renaturation of the denatured protein was carried out in the defined protein refolding buffer, and the refolded protein was purified using S-Sepharose ion-exchange chromatography. The final preparation of the rhMK was greater than 98% pure as measured by sodium dodecylsulfate-polyacrylamid gel electrophoresis （SDS-PAGE） and reverse phase high performance liquid chromatography （RP-HPLC）. The purified rhMK enhanced the proliferation of NIH3T3 cells.

河南地区兔腹泻源性大肠杆菌分离鉴定及其耐药性分析

为了解河南地区规模化兔场腹泻家兔中大肠杆菌的感染和耐药状况,对从河南地区26家规模化兔场采集的104个腹泻病料进行病原菌的分离培养。通过菌落形态观察,革兰染色镜检,生化反应鉴定,PCR鉴定和序列对比分析等方式确定细菌的种类,同时对从不同病料分离出的大肠杆菌进行药物敏感性试验。结果显示,从104个腹泻病料中分离出了72株大肠杆菌,感染率为69.2%。药敏结果显示,分离到的大肠杆菌菌株对红霉素、庆大霉素、新霉素、四环素、多西环素、多粘菌素B、复方新诺明、卡那霉素、丁胺卡那、环丙沙星、氨苄西林、头孢哌酮、诺氟沙星、痢特灵、氟苯尼考和恩诺沙星等16种抗生素均有不同程度的耐药性,其中对多粘菌素B最为敏感,耐药率仅为2.8%,对复方新诺明完全耐药,对其他14种抗生素耐药性分别为22.2%~94.4%。本研究表明,在所调查兔场,发生腹泻病的家兔中具有较高的大肠杆菌感染率,并且菌株具有普遍的耐药性。研究结果为河南地区家兔大肠杆菌病的防治和临床用药提供了理论参考。

恒河猴源大肠杆菌的分离鉴定及耐药性和致病性

为了查明引起海口市某进境实验动物隔离场3例恒河猴死亡的原因,本试验分别采集3只恒河猴的心脏、肝脏、脾脏、肺脏和淋巴结样本,进行细菌分离,通过细菌形态特征、显微镜镜检、生化鉴定、16S核糖体RNA(16S rRNA)序列分析对分离菌进行病原学鉴定;采用纸片扩散法(K-B法)测定分离菌的耐药表型;采用玻片凝集法测定分离菌的血清型;采用动物回归试验分析分离菌的致病性。结果显示,从3只恒河猴上各分离鉴定出1株大肠杆菌,命名为H01株(分离自脾脏)、H02株(分离自淋巴结)和H03株(分离自肝脏);3株大肠杆菌对12种常用抗菌药物产生不同程度耐药,并且都呈现多重耐药,其中对阿莫西林、庆大霉素、氯霉素、氟苯尼考和复方新诺明表现为耐药,仅对阿莫西林-克拉维酸钾、阿米卡星和多黏菌素B表现敏感;玻片凝集试验显示,H01株的血清型为O8,H02株的血清型为O3,H03株的血清型为O9;动物回归试验显示,3株分离菌都是强毒株。本试验为实验动物恒河猴源大肠杆菌病的防治提供参考依据。

猪源大肠埃希菌血清型O145菌株分离鉴定、耐药性及致病性研究

大肠埃希菌是引起仔猪腹泻甚至死亡的最常见的细菌性病原体。本试验对辽宁某规模化猪场3日龄腹泻仔猪进行了细菌分离鉴定。结果显示:从腹泻仔猪肝脏中分离出革兰氏阴性杆菌,经16SrDNA基因扩增和序列测序比对,与CENBANK登录号为CP031919.1(血清型为0145大肠埃希菌)基因序列同源性为99.44%,表明分离菌株为血清型0145大肠埃希菌;动物试验结果:分离菌36h内引起感染小鼠全部死亡,说明分离菌株为强致病性大肠埃希菌;毒力基因检测结果:分离菌株携带iusD、iss、FimH等毒力基因;药敏试验结果:分离菌株对头孢噻敏感,对阿米卡星中敏,对多黏菌素B、头孢唑啉、阿奇霉素、阿莫西林、大观霉素、环丙沙星、红霉素、多黏菌素E、利福平、复方磺胺甲唑和多西环素等11种药物均呈现耐药;耐药基因检测:分离菌株携带aac(6')-Ⅰb、aac(3')-Ⅱ、TEM、qnrS、ermB等耐药基因。