De Novo Synthesis of Biopaint Using Transformed Bacteria: Analysis of Spectral Intensity Trends and Comparison to Commercial Paint

Background: Commercial paint pigments contain toxic heavy metals that harm humans and pollute the environment. To mitigate these harms, ecologically safe pigments are necessary. Objective: This experiment aims to create a biopaint de-novo using transformed Escherichia coli bacteria and compare it to commercial paint. Methods: Genetically engineered E. coli bacteria producing magenta pigment were grown in petri dishes. The pigment protein was extracted, filtered, and dehydrated into a crystalline powder. This was mixed with acrylic medium to make biopaint. The biopaint and commercial paint were applied on acrylic paper;red, green, blue, and total spectral intensities were measured daily under different testing conditions. Spectral intensity variability was measured and compared using the Coefficient of Variation (CV). Trends in spectral intensity were analyzed using regression analysis. Results: The differences in the CV of biopaint to commercial paint were less than 20% under all testing conditions. Spectral intensities for both biopaint and commercial paint did not show any significant change during the testing period under the conditions of room temperature, heat, and humidity. However, under the cold testing condition, biopaint showed a slight but statistically significant (p-value Conclusion: This experiment proves that E. coli-derived pigments can be used to make biopaint which has a similar durability to commercial paint as measured by the spectral intensities.

Characteristics of β-Lactamase Synthesis in E. coli and K. pneumanie Strains in Nosocomial Infections

Background: Recently micro-organisms that synthesize extended-spectrum β-lactamase (ESBLs) were increased. The peculiarities of ESBL synthesis of Escherichia coli and Klebsiella pneumoniae strains that cause nosocomial urinary tract infections, surgical site infections and pneumonia in surgical clinic were studied. ESBL synthesis were observed 38.9% of E. coli strains obtained from urine, 92.3% of strains obtained from surgical site infections, and 50% of strains obtained from sputum. ESBL synthesis were observed 37.5% of K. pneumoniae strains obtained from urine, 85.7% of strains obtained from surgical site infections, and 60% of strains obtained from sputum. Different levels of ESBL synthesize of E. coli and K. pneumoniae strains isolated from different pattern is discussed. Conclusion. ESBL synthesis is common in E. coli and K. pneumoniae strains, which cause nosocomial infections. The frequency of occurrence of ESBL s synthesis among of these strains depends on clinical forms of nosocomial infections.

计算机辅助设计提高人NMDA受体主亚基M3-M4环在E.coli中的表达

基于对螺旋区随机堆积的RNA二级结构的预测和密码子偏性计算 ,建立了pBV2 2 0载体中外源基因高效表达的判别模型。该模型认为 ,外源基因的表达水平与其 5′端 30～ 39区域 ,以及 3′端 30～ - 39区域的RNA二级结构自由能具有显著的统计学意义 ;其次与 3′端 9bp的局部密码子偏性相关。据此模型 ,使用RNAfold和Goldkey软件优化改构设计了用于克隆表达人NMDA受体主亚基M3 M4环的引物。将PCR扩增的基因克隆入pBV2 2 0载体中 ,在大肠杆菌DH5α宿主中获得了高效表达 (表达水平在 2 0 %以上 )。

The Transport and Persistence of Escherichia coli in Leachate from Poultry Litter Amended Soils

Fecal coliform bacteria such as Escherichia coli (E. coli) are one of the main sources of groundwater pollution. An assessment of the transport and Persistence of E. coli in poultry litter amended Decatur silty Clay soil and Hartsells Sandy soil was conducted using soil columns and simulated groundwater leaching. Enumeration of initial E. coli was determined to range from 2.851 × 103 to 3.044 × 103 CFU per gram of soil. These results have been used in a batch study to determine the persistence rate of E. coli in Decatur silty Clay soil and Hartsells Sandy soil. Results prove that E. coli survival growth rate increases for clay soil later than and at a higher rate than sandy soil. The column study has determined that E. coli was transported at a rate of 3.7 × 106 CFU for Decatur silty loam and 6.3 × 106 CFU for Hartsells sandy per gram of soil. Further, linear regression analysis predictions show higher porosity and soil moisture content affect transport, and Hartsells sandy soil has higher transport of E. coli due to its higher porosity and lower volumetric water content.

Growth Inhibition of Escherichia coli and Staphylococcus epidermidis from Various Types of Honey

Honey has long been considered a wound treatment used to keep cuts and other epidermal injuries clean. This study tested that claim by comparing manuka honey used in medicine today, local unprocessed honey taken straight from a hive, and pasteurized honey found at a store, on strains of E. coli and S. epidermidis. The study evaluated the effects these honeys had on bacterial growth to determine which had the greatest inhibition of bacterial growth. To determine this, plates streaked with strains of E. coli or S. epidermidis bacteria and agar wells filled with one of the honeys were incubated and subsequently the diameter of the zone of inhibition was measured. After 20 trials using each honey and bacteria type, manuka and unprocessed were shown to have a statistically significant advantage over the pasteurized honey at inhibiting the growth of E. coli and S. epidermidis, though it was variable whether manuka had an advantage over the unprocessed honey.

青蒿琥酯联合不同抗生素对四种细菌的抗菌增敏作用及机制研究

目的观察青蒿琥酯协同不同抗菌药物后两种革兰阳性菌（S．aureus SATCC25923、MRSA—WHO2）和两种革兰阴性菌（E-coli ATCC 35218、E-coli临床分离株）的抗菌增敏效果并探讨其可能的作用机制。方法采用棋盘式微孔稀释法和动态生长曲线法观察青蒿琥酯和不同抗菌药物单独及联合使用时对四种细菌的最低抑菌浓度（MIC）及生长的影响；

猪源大肠杆菌(ETEC、STEC、AEEC)毒力基因及其与O抗原型的关系

【目的】揭示从我国部分地区仔猪腹泻或水肿病病猪体内分离到的300个大肠杆菌分离株所属病原型(pathotype)、毒力基因及其与O血清型的关系。【方法】O血清型采用常规的凝集试验进行测定,毒力基因采用PCR方法检测。【结果】通过对这300个分离株的O血清型及其毒素、紧密素和黏附素基因进行鉴定,结果显示除50株未定型、17株自凝外,测定出233个分离株的血清型,这些分离株覆盖了45个血清型,其中以O149、O107、O139、O93和O91为主,共133株,占定型菌株的57.1%;拥有estⅠ、estⅡ、elt、stx2e和eaeA基因的菌株分别为102(34.0%)、190(63.3%)、81(27.0%)、57(19.0%)和54(18.0%)株;分离株中有51株K88基因阳性(其中菌毛表达率为100%),75株F18基因阳性(其中菌毛表达率为50.7%),在K88菌株中,O149血清型与estⅠ或estⅡ+elt密切相关,在F18菌株中,O107血清型与estⅠ或estⅡ、O139血清型与stx2e紧密相关。依其毒力特征可将这些分离株分为以下6种类型:ETEC、STEC、AEEC、ETEC/STEC、AEEC/ETEC和AEEC/ETEC/STEC,分别拥有190、24、36、32、17和1个菌株,占分离株的63.3%、8.0%、12.0%、10.7%、5.7%和0.3%。通过分析这些分离株的O血清型、毒素类型和黏附素型之间的相关性:猪源ETEC以O149、O107、O93和O98等血清型为主,O149:K88菌株主要与estⅡ或estⅡ+elt肠毒素相关,O107:F18菌株主要与estⅡ相关,O93和O98血清型菌株主要与estⅡ肠毒素相关;STEC菌株以O139:F18血清型为主,拥有stx2e;AEEC菌株拥有紧密素,无明显优势血清型;ETEC/STEC菌株以O107:F18和O116:F18血清型为主,主要与estⅠ+stx2e或estⅡ+stx2e密切相关,ETEC/AEEC菌株以O91和O107血清型为主,全部拥有肠毒素estⅠ和紧密素基因。【结论】我国至少存在6种病原型的猪肠道致病性大肠杆菌,其中ETEC为我国部分地区猪大肠杆菌病的主要病原,同时其病原型日益复杂。

表面接枝季铵盐型高分子材料抗菌过程的特性研究

考察了一种表面接枝季铵盐型高分子材料对水溶液中大肠杆菌的抗菌过程特性 ,发现此材料可以在短时间内迅速降低溶液中的大肠杆菌的活菌量 .用菌体耗氧测定法与扫描电镜观察法研究了其抗菌过程 .结果表明 ,其抗菌过程由吸附和杀灭两个步骤构成 ,其中吸附过程由纤维与大肠杆菌表面静电作用所控制 ,是一个快速过程 ,而杀灭过程则伴随着细胞壁在纤维表面的溶解 ,是一个慢过程 .菌体耗氧测定法与扫描电镜观察法所获得的结果具有一致性 ,并可广泛应用于研究抗菌纤维的抗菌作用机理及过程特性 .

草莓汁的超高压杀菌研究

本文研究热敏性果汁——纯草莓汁超高压处理与微生物存活量之间的关系。考察了菌落总数、霉菌、酵母菌数和大肠菌群数的变化。实验结果表明:在温度为29℃下,草莓汁中大肠菌群对压力非常敏感,压力为350MPa,保压3min即可全部杀灭;霉菌和酵母菌较大肠菌群耐压,压力为350MPa,保压10min可全部杀灭;果汁中虽含多种耐压菌,但经500MPa,保压15min处理,菌落总数还可降至30cfu/ml,达到了国家食品卫生标准要求。

新型金属卟啉的合成及其对大肠杆菌生长代谢的抑制作用

以 5 ,10 ,15 ,2 0 四 (对羟基苯基 )卟啉 (2 )为原料 ,合成并表征了一系列水溶性和非水溶性的金属卟啉 .使用LKB 2 2 77热活性监测器测定了大肠杆菌在金属卟啉 4a～ 4f和 7a～ 7f作用下的生热曲线 ,得到了不同金属卟啉在不同浓度下大肠杆菌生长代谢的生热速率常数k ,最大发热功率pmax和最大发热功率的出现时间t.结果发现 ,含有吡啶溴化盐的水溶性金属卟啉 7a～ 7f对大肠杆菌生长代谢的抑制活性要明显大于含有酯基的金属卟啉 4a～ 4f.

含银无机抗菌剂的研制和抗菌性能初探

采用不同工艺制备了载银磷酸钙和载银碳酸钙粉末 ,通过大肠杆菌培养实验 (抑菌环法 )比较了银离子存在形式对抑菌性能的影响 ,证实了银离子释放是灭菌的关键。

重组大肠杆菌高密度发酵中乳糖诱导表达hBLyS

研究了乳糖代替异丙基硫代半乳糖苷(IPTG)诱导大肠杆菌表达重组人B淋巴细胞刺激因子(hBLyS).结果表明,乳糖不仅能够作为诱导剂诱导外源蛋白的合成,而且能作为碳源促进菌体的生长.通过对诱导条件进行优化,乳糖诱导外源蛋白的表达量约占菌体总蛋白的14.3%,达到IPTG的诱导水平(26%)的55%.在5L发酵罐中hBLyS的表达量达到16%,同时生物量OD600=62.

负载型TiO_2/玻璃弹簧的光催化杀菌作用

研究了自主开发的负载型TiO2 /玻璃弹簧光催化剂对大肠杆菌的光催化杀菌作用 .结果表明 ,光催化杀菌效果明显好于单独紫外光的杀菌效果 .光催化杀菌过程存在一个诱导期 .用扫描电镜和透射电镜观察经不同时间杀菌处理的菌液 ,结果显示光催化作用于细菌的细胞壁和细胞膜 ,使其破裂并导致细胞死亡 .探讨了光催化剂的制备条件 (如浸涂浆料浓度、浸涂次数、热处理条件等 )对光催化杀菌效率的影响 .

2009年中国CHINET大肠埃希菌和克雷伯菌属细菌耐药性监测

目的了解2009年中国CHINET所属14所医院临床分离的大肠埃希菌和克雷伯菌属的耐药情况。方法采用纸片扩散法(K-B法)对临床分离株作药敏试验。结果共收集CHINET细菌耐药性监测网14所医院分离的大肠埃希菌7992株,肺炎克雷伯菌4556株和产酸克雷伯菌377株。其中儿童患者(0～14岁)来源的大肠埃希菌和克雷伯菌属分别占21.3%(1700/7992)和18.5%(915/4933)。大肠埃希菌和克雷伯菌属产ESBLs株检出率分别为56.5%(33.3%～78.5%)和41.4%(21.7%～70.8%)。各医院ESBLs检出率存在一定差异。药敏试验结果显示,大肠埃希菌对亚胺培南、美罗培南和厄他培南等3种碳青霉烯类抗生素的耐药率均小于1%,对头孢哌酮-舒巴坦和哌拉西林-他唑巴坦的耐药率低于6%。肺炎克雷伯菌对3种碳青霉烯类抗生素耐药率介于2.9%～5.2%,对头孢哌酮-舒巴坦和哌拉西林-他唑巴坦的耐药率分别为10.8%和15.1%。产ESBLs菌对上述5种药物的耐药率也低于25%。50%以上的产ESBLs株对庆大霉素和环丙沙星耐药。有10所医院分离出对碳青霉烯类抗生素不敏感菌株,其中肺炎克雷伯菌132株,大肠埃希菌20株。83株肺炎克雷伯菌和5株大肠埃希菌为泛耐药株,主要集中于复旦大学附属华山医院(共73株)。结论大肠埃希菌和克雷伯菌属对碳青霉烯类抗生素、头孢哌酮-舒巴坦和哌拉西林-他唑巴坦仍保持高度敏感性。与2007年细菌耐药性监测资料相比,对碳青霉烯类不敏感菌株分离率上升明显,尤以肺炎克雷伯菌为甚。

高度耐盐双价转基因烟草的研究

随着全球性人口的增长和土地退化的加剧,开发利用广阔盐碱地和干旱土地的需要日益迫切。植物生物技术的日臻完善,为培育高效耐盐植物迎来了一丝曙光。在高渗条件下,耐盐的微生物或植物细胞通过增加胞内一些相溶性溶质的浓度来维持渗透压的平衡。这些可溶性溶质包括无机离子、糖类、多元醇、氨基酸和生物碱等。通过基因工程手段,使细胞内积累脯氨酸、甜菜碱、甘露醇、海藻糖,能够不同程度地提高转基因烟草的耐盐性。多元醇含有多个羟基,亲水性能强。

大肠杆菌高效表达重组蛋白策略

大肠杆菌表达系统是基因表达技术中发展最早和目前应用最广的经典表达系统。利用该系统表达重组蛋白具有许多优越性,但其表达效率受诸多因素的影响。综述了国内外利用大肠杆菌表达系统高效表达外源蛋白的策略,主要包括选择合适的启动子、改变信号肽结构、提高 mRNA稳定性、提高翻译效率、表达稀有密码子、降低包涵体形成及蛋白降解,利用融合蛋白与分子伴侣、调控发酵条件实现高密度培养等。

二重PCR检测猪、鸡源致病性大肠杆菌、沙门氏菌磺胺类耐药基因(Sul1、Sul2、Sul3)的研究

利用二重PCR对临床分离的猪、鸡源致病性大肠杆菌103株和沙门氏菌33株的3个磺胺类药主要耐药基因Sul1、Sul2、Sul3进行了检测。结果表明,在19株耐SD的沙门氏菌中有17株检测出Sul1或Sul2基因,检出率为89.47%,与药敏试验的结果相比,符合率为89.47%;在56株耐SD的大肠杆菌中有53株检出耐药基因,与药敏试验的符合率为94.64%。二重PCR方法与常规PCR的结果符合率为98.5%,具有很高的一致性;与药敏试验也有很好的符合率,具有较高的特异性。整个试验过程只需7 h,比常规PCR节约7 h,检测速度有了较大的提高。

犊牛腹泻大肠杆菌的分离鉴定和耐药性检测

为了分析南京地区奶牛场犊牛腹泻的原因,对犊牛腹泻病料进行细菌分离培养,获得了27株细菌。本试验对这些细菌进行了培养特性、染色特性、生化特性、血清型鉴定、药敏试验和TEM、SHV、CTX-M-1、CTX-M-9型超广谱β-内酰胺酶(ESBLs)基因的检测。结果显示27株细菌均为大肠杆菌,只有1株细菌对头孢噻吩、头孢唑啉和头孢呋辛耐药,且此菌株检测出CTX-M-1型超广谱β-内酰胺酶基因。试验结果表明犊牛腹泻是由大肠杆菌引起的,犊牛腹泻大肠杆菌能产生CTX-M-1型超广谱β-内酰胺酶,导致对头孢类抗生素耐药性的发生。

微波杀菌过程中大肠杆菌与金黄色葡萄球菌细胞膜通透性的改变

对细胞膜通透性变化的研究是认识微波杀菌机理的途径之一。用荧光探针检测微波处理后细胞内Ca2+浓度的变化,可以精确地表征细胞膜通透性的改变。选用二乙酸荧光素(FDA)和Fluo-3/AM两种荧光染料,对大肠杆菌(Escherichiacoli)和金黄色葡萄球菌(Staphylococcus aureus)经微波处理后的酯酶活性及细胞膜通透性进行研究,结果表明大肠杆菌与金黄色葡萄球菌的胞内非特异性酯酶(NSE)活性及细胞膜通透性的变化情形有所不同。在50℃、55℃、60℃和65℃微波处理条件下,大肠杆菌细胞膜通透性分别增加了20.7%、28.1%、74.8%、89.8%,而金黄色葡萄球的增加不显著,分别比对照组提高了4.1%、6.0%、21.9%和19.7%。细胞膜通透性的改变与微生物致死率有一定的相关性,也可能是微波杀菌非热效应的表现之一。