DNA条形码技术融入普通昆虫学实验教学

为了提升普通昆虫学实验教学质量,以DNA条形码技术为例,尝试将最新科研成果和技术与普通昆虫学实验教学进行融合。介绍了植物保护专业学生掌握DNA条形码技术的必要性,分析了在普通昆虫学实验教学中开展DNA条形码实验的可行性,在样品保存、DNA提取、PCR扩增、电泳检测、测序和分析等方面优化了以COI基因序列作为DNA条形码开展分子鉴定的具体流程,设计了开展DNA条形码专题实验或者将其与传统分类实验结合的实施和考核方案。DNA条形码技术的融入改变了普通昆虫学实验传统教学模式,也为探索创新性实验教学提供了思路。

Nucleic acid vaccines: A taboo broken and prospect for a hepatitis B virus cure

Although a prophylactic vaccine is available,hepatitis B virus(HBV)remains a major cause of liver-related morbidity and mortality.Current treatment options are improving clinical outcomes in chronic hepatitis B;however,true functional cure is currently the exception rather than the rule.Nucleic acid vaccines are among the emerging immunotherapies that aim to restore weakened immune function in chronically infected hosts.DNA vaccines in particular have shown promising results in vivo by reducing viral replication,breaking immune tolerance in a sustained manner,or even decimating the intranuclear covalently closed circular DNA reservoir,the hallmark of HBV treatment.Although DNA vaccines encoding surface antigens administered by conventional injection elicit HBVspecific T cell responses in humans,initial clinical trials failed to demonstrate additional therapeutic benefit when administered with nucleos(t)ide analogs.In an attempt to improve vaccine immunogenicity,several techniques have been used,including codon/promoter optimization,coadministration of cytokine adjuvants,plasmids engineered to express multiple HBV epitopes,or combinations with other immunomodulators.DNA vaccine delivery by electroporation is among the most efficient strategies to enhance the production of plasmid-derived antigens to stimulate a potent cellular and humoral anti-HBV response.Preliminary results suggest that DNA vaccination via electroporation efficiently invigorates both arms of adaptive immunity and suppresses serum HBV DNA.In contrast,the study of mRNA-based vaccines is limited to a few in vitro experiments in this area.Further studies are needed to clarify the prospects of nucleic acid vaccines for HBV cure.

Humoral and cellular immunogenecity of DNA vaccine based on hepatitis B core gene in rhesus monkeys

INTRODUCTIONHepatitis B virus (HBV) is the most commonetiologic agent for infectious liver diseases. It isestimated that there are more than 250 millionchronic HBV carriersin the world today and thereis a significant association among persistentinfection, liver cirrhosis and hepatocellularcarcinoma[1-3].

THE CLINICAL SIGNIFICANCE OF FLOW CYTOMETRIC DEOXYRIBONUCLEIC ACID MEASUREMENT OF DEPARA-FFINIZED SPECIMEN IN BLADDER TUMOR

A retrospective study of flow cytometric measurements on paraffin-embedded tumor specimens from 188 patients with bladder tumor was conducted. The results were analyzed in combination with the morphological variation of bladder tumors. It was found that the DNA ploid pottern, degree of infiltration and the multiplicity of bladder tumor were closely related with tumor recurrence, among which the DNA ploid pattern was most significant. In aneuploid bladder tumors the recurrent rate and mean annual recurrence frequency were 76.7% and 1.46, and those in the diploid bladder tumors were 18.7% and 0.33 respectively. Aneuploid was the most indicative parameter of the recurrence in bladder tumors. In addition, according to the DNA ploid pattern and DNA index (DI), the aneuploid tumors in our group were divided into 4 types, namely, tetraploid tumors, npn-euploid with DI(?)1.5, non-euploid tumors with DI>1.5 and two-aneuploid tumors. The results showed that the recurrent rate of tetraploid tumors was relatively lower and it became higher and higher in the following order: non-euploid tumors with DI(?)1.5, non-euploid tumors with DI>1.5, and two-aneuploid tumors. This indicates that there are different biological behaviors in tumors with different ploid pattern. Finally, the correlation between DNA ploid pattern and tumor metastasis was also discussed.

聚合酶链反应系统检测人巨细胞病毒DNA的性能验证及评价

目的:利用实时荧光定量-聚合酶链式反应(FQ-PCR)系统检测人巨细胞病毒脱氧核糖核酸(HCMV DNA)的性能验证及评价,以满足临床检测需要。方法:收集医院临床样本及第三方提供的标准品,采用实时荧光定量PCR系统检测HCMV DNA试剂的性能及进行评价。依据中国合格评定国家认可委员会发布的《分子诊断检验程序性能验证指南(CNAS-CL039)》《临床化学定量检验程序性能验证指南(CNAS-GL037)》及美国临床和实验室标准化协会(CLSI)扩展(EP)系列文件相关要求对实验室HCMV DNAFQ-PCR系统的检测方法的正确度、测量精密度(含测量批内重复性和测量批间精密度)、线性区间、检出限、抗干扰能力、交叉反应等性能进行验证及评价。结果:荧光定量PCR系统检测HCMV DNA的正确度在允许范围内;低浓度(1.72E+04 copies/ml)、高浓度(2.74E+09 copies/ml)样本批内重复性测量精密度变异系数(CV)分别为3.90%和0.11%,批间测量精密度CV分别为4.05%和0.94%;在4.00E+02~4.00E+09 copies/ml范围内线性关系良好(R^(2)=0.999),符合要求;检测下限可以达到4.00E+02 copies/ml;干扰物(总胆红素、甘油三脂、血红蛋白)样本检测结果与对照样本绝对偏差≤±log0.4;交叉反应病原体[乙型肝炎病毒、丙型肝炎病毒、单纯疱疹病毒、人类疱疹病毒4型、人乳头瘤病毒6/11型]检测结果均为阴性。结论:HCMV DNA荧光定量PCR检测方法的各项性能指标与厂家声明相符,可用于临床检测。

Effect of mono-/divalent metal ions on the conductivity characteristics of DNA solutions transferring through a microfluidic channel

Interactions between deoxyribonucleic acid(DNA) and metal ions are vital for maintaining life functions, however,there are still unsolved questions about its mechanisms. It is of great practical significance to study these issues for medical chip design, drug development, health care, etc. In this investigation, the conductivity properties of λ-DNA solutions with mono-/divalent metal ions(Na+, K^(+), Mg^(2+), and Ca^(2+)) are experimentally studied as they are electrically driven through a 5 μm microfluidic channel. Experimental data indicate that the conductivities of λ-DNA solutions with metal ions(M+/M2+) basically tend to reduce firstly and then increase as the voltage increases, of which the turning points varied with the metal ions. When the voltage surpasses turning points, the conductivity of λ-DNA-M+solutions increases with the concentration of metal ions, while that of λ-DNA-M^(2+)solutions decrease. Moreover, the conductivity of λ-DNA-M^(2+)solutions is always smaller than that of λ-DNA-M+solutions, and with high-concentration M^(2+), it is even smaller than that of the λ-DNA solution. The main reasons for the above findings could be attributed to the polarization of electrodes and different mechanisms of interactions between metal ions and λ-DNA molecules. This investigation is helpful for the precise manipulation of single DNA molecules in micro-/nanofluidic space and the design of new biomedical micro-/nanofluidic sensors.

基于机器学习的DNA N4-甲基胞嘧啶位点预测研究

脱氧核糖核酸(DeoxyriboNucleic Acid,DNA)N4-甲基胞嘧啶(N4-methylcytosine,4mC)修饰涉及基因表达、DNA复制等多个过程,是一种较为常见的DNA位点预测方法。对6个不同物种进行独热编码(One-Hot encoding),在进行算法训练和模型评估后发现,支持向量机模型的各项评估结果均高于其他算法,由此说明采用支持向量机模型预测4mC位点是最优选择。

密穗高粱总DNA导入水稻的研究

为了选育高产、优质、多抗的水稻新品种，采用花粉管通道法，将密穗高粱总ＤＮＡ导入水稻晚粳品种鄂宜１０５，从Ｄ１至Ｄ５代变异材料中选育出ＤＨ３，ＤＨ４，ＤＨ５等多个具有高光效、高产和优质的新品系．经随机扩增多态ＤＮＡ技术对供体、受体、后代进行分子验证，后代中出现了在供体中存在而在受体中不存在的泳带．解剖学观察发现了后代剑叶、穗颈及穗基的输导组织比受体发达，维管束数目比受体增加１０％～３０％．后代ＤＨ３，ＤＨ４的光合速率亦显著高于受体．在形态解剖、光合特性和分子水平上进一步证明了高粱ＤＮＡ片段在受体中的表达和稳定遗传．对ＤＨ３，ＤＨ４，ＤＨ５等品系进行生产示范，增产效果显著，单产高达７５００ｋｇ／ｈｍ２．ＤＨ５已于１９９９年２月通过长沙市品种审定，定名为长晚粳１号．米质分析结果表明，整精米率、蛋白质含量。

钌(Ⅱ)多吡啶配合物的合成、荧光性质及与脱氧核糖核酸DNA的作用机制研究

设计合成含多个配位中心的多吡啶配体ODCIP(3,4-二氯基苯并咪唑并[4,5-f][1,10]邻菲咯啉)及其钌(Ⅱ)多吡啶配合物[Ru(bpy)2ODCIP]2+.运用元素分析、红外光谱、核磁谱和质谱对配体及配合物进行结构表征.利用紫外吸收光谱、荧光光谱和粘度法研究了[Ru(bpy)2ODCIP]2+与DNA(脱氧核糖核酸)的作用机制、与Co2+配位后与DNA的作用机制及其荧光变化情况.结果表明[Ru(bpy)2ODCIP]2+与DNA通过部分插入模式作用,[Ru(bpy)2ODCIP]2+与Co2+配位形成的双核配合物[Ru(bpy)2(ODCIP)Co]4+也能与DNA插入结合.进一步利用稳态荧光发射光谱、荧光淬灭实验等方法研究了单核配合物[Ru(bpy)2ODCIP]2+和双核配合物[Ru(bpy)2(ODCIP)Co]4+的荧光性质.

瑞香素对体外培养恶性疟原虫超氧化物歧化酶活性及DNA合成的影响

目的 研究瑞香素(DPNT)对体外培养恶性疟原虫超氧化物歧化酶(SOD)活性及DNA合成的影响。方法 在恶性疟原虫FCC1株体外培养体系中,以SOD试剂盒检测瑞香素、瑞香素铁盐及去铁胺(DFO)对疟原虫SOD活性的影响。疟原虫培养同步化,利用荧光素Hoechest33258测定在瑞香素和去铁胺作用下疟原虫不同发育阶段(环状体和滋养体)的DNA合成水平。结果 与未加药对照组比较,经瑞香素作用后疟原虫总SOD下降约60％(P<0.01),而相应的经去铁胺作用后,疟原虫的总SOD仅下降约22％(P>0.05)。瑞香素铁螯合能力被遮蔽后,几乎失去对疟原虫SOD的影响。同步培养的滋养体阶段疟原虫,在瑞香素作用下DNA合成率明显低于对照组。结论 在体外瑞香素可显著降低疟原虫SOD活性,并影响滋养体阶段疟原虫的DNA合成。

不同方法对金黄色葡萄球菌基因组DNA提取效果的比较

分别采用酶解法、CTAB法、SDS法、CTAB/NaCl法等4种方法提取金黄色葡萄球菌基因组DNA,并进行比较改良。结果表明,SDS法提取的DNA含量最高;当金黄色葡萄球菌的DNA质量稀释至1.975×10-4pg时,SDS法提取的DNA仍能用于PCR扩增;此外,该方法稳定性好、经济性高,是理想的金黄色葡萄球菌基因组DNA提取方法。

营养条件对pcDNA3-HBS质粒DNA生产的影响

为了考查营养条件对质粒DNA的生产影响 ,采用不同的培养基培养含pcDNA33 HBS质粒的大肠杆菌JM10 9。实验结果表明 :碳源、氮源对质粒DNA产量有明显的影响。葡萄糖是质粒合成过程中较佳的碳源 ,蛋白胨是较佳的氮源。在M9P培养基中 ,选择合适的硫酸铵浓度对质粒DNA的生产有一定的作用。由于Gly ,Asp ,Glu能提供合成核苷酸的氮源 ,在M9G培养基中添加 1 2g L的Asp ,1 0g L的Glu和 0 4g L的Gly后 ,经 2 0h培养 ,质粒产量可达 2 5mg L。外源核苷也影响质粒DNA的产量 ,通过添加 0 4g L胞苷与胸苷的混合物 (摩尔比为 1∶1)到M9P培养基中 ,质粒DNA的产量可达 35mg L。

抗O型口蹄疫病毒DNA疫苗的建立

目的 :研制抗“O”型FMDV的DNA疫苗。方法 :以“O”型口蹄疫病毒 (FMDV)Vp1免疫活性肽基因串联片段取代猪IgGH链可变区的CDR3区 ,并与真核表达载体pCDM8相连构建表达载体pCDM FH。用表达载体pCDM FHDNA对豚鼠及猪进行肌肉注射 ,检测该疫苗的免疫效果。结果 :该DNA疫苗可诱导出抗FMDV专一性的中和抗体及效应性T细胞。攻毒试验表明 ,DNA疫苗pCDM FH可使被免疫豚鼠及猪发病推迟 ,症状减轻。结论 :该DNA疫苗可激发明显的免疫应答及保护效果。

高频超声照射下血卟啉(HP)对脱氧核糖核酸(DNA)结构的影响

采用紫外-可见(UV-Vis)光谱和荧光(FL)光谱研究了超声波照射激活光敏性化合物-血卟啉(HP)对脱氧核糖核酸(DNA)的损伤作用。在超声波和HP的协同作用下,在UV-Vis光谱中DNA溶液的吸光度表现出明显的增色效应,在FL光谱中DNA-EB溶液的荧光强度表现出明显的猝灭现象。考察了在超声波照射和HP存在的条件下,各种因素(如超声波照射时间,HP浓度和溶液酸度等)对DNA损伤程度的影响。结果表明,在一定条件下,DNA的损伤程度随着超声波照射时间的增长和HP浓度的增加而增大。溶液酸度对DNA损伤程度的影响较为复杂。当溶液为弱酸性和中性时对DNA的损伤较为明显,弱碱性时对DNA的损伤程度则又呈下降趋势。另外,在超声波损伤DNA的同时,溶液中的HP浓度也呈现出明显的下降趋势,说明HP也遭到了破坏。同时还探讨了超声波照射激活HP对DNA损伤的可能机理,认为对DNA损伤的现象可以采用"声致发光"和"热点"形成的机理进行解释。

高粱DNA导入水稻的RAPD分子验证

对以密穗型高粱ＤＮＡ为供体、通过花粉管通道技术导入水稻所获得的水稻后代进行了ＲＡＰＤ分子验证．结果表明：从１２２个引物中找到９个引物检测出ＤＮＡ的多态性。

外源性DNA对小鼠自身DNA的保护作用

采用骨髓有核细胞微核率测定法，检测小鼠服用鲤鱼精巢ＤＮＡ后，６０Ｃｏ－γ射线对小鼠骨髓细胞染色体损伤的严重程度，结果表明，小鼠每天每千克体质量灌胃鲤鱼精巢ＤＮＡ１００ｍｇ，连续１５ｄ，可使总剂量６Ｇｙ的６０Ｃｏ－γ射线致小鼠骨髓有核细胞微核发生率减少４７．２％（Ｐ＜０．００１）；采用全血ＵＤＳ测定法，检测小鼠血细胞ＤＮＡ受紫外线损伤后的修复速度，结果表明，小鼠每天每千克体质量灌胃鲤鱼精巢ＤＮＡ３０ｍｇ，连续３个月，其全血ＵＤＳ增加４０．０２％（Ｐ＜０．００１）．

DNA共价修饰单壁碳纳米管电极的制备及与VB_6相互作用的研究

利用单壁碳纳米管(SWNTs)上的羧基与DNA末端的氨基形成酰胺共价键从而共价修饰SWNTs,制备了新型DNA共价修饰SWNTs电极。傅立叶红外光谱表明DNA共价结合在SWNTs上,用扫描电镜(SEM)表征了SWNTs、DNA共价修饰的SWNTs的结构与形貌。循环伏安法(CV)研究了DNA修饰SWNTs电极的电化学特性,通过改变扫描速率,发现DNA修饰电极的过程属于扩散控制过程。维生素B6(VB6)与SWNTs上DNA的相互作用研究结果表明:DNA分子共价修饰在SWNTs上后仍具有生物活性,且能够与其他生物分子发生相互作用。

日本血吸虫脂肪酸结合蛋白DNA疫苗诱导小鼠保护性免疫力的研究

目的构建日本血吸虫脂肪酸结合蛋白(Sj14FABP)重组质粒,并观察其在小鼠体内诱导的抗日本血吸虫感染保护作用。方法RT-PCR特异性扩增Sj14FABP基因,将其克隆入真核表达载体pVIVO2,通过PCR、双酶切及测序鉴定。获得的重组质粒pVIVO2-Sj14FABP转染HepG2细胞,间接免疫荧光(IFA)检测蛋白表达;并免疫BALB/c小鼠,30d后攻击感染,感染后45天剖杀,计数检获成虫数和肝脏虫卵数。结果RT-PCR扩增出大小为440bp的Sj14FABP片段,重组质粒经PCR和双酶切后均获得目的片段,转染细胞IFA结果显示有较强荧光。重组质粒免疫小鼠后分别获得24.1%减虫率和27.2%减卵率。结论成功构建和表达重组质粒pVIVO2-Sj14FABP,该核酸疫苗能够诱导小鼠产生部分抗血吸虫感染的保护力。

硫堇与DNA相互作用及DNA光散射/荧光比率测定方法

在pH4.56的BR缓冲溶液中,DNA能使硫堇的光散射增强,荧光发生猝灭。本实验基于硫堇的三维光谱讨论了其发光属性,并通过在普通荧光光度计上单次扫描同时获得的539nm处的光散射强度（I539）与630nm处的荧光强度（F630）之比,建立了测定痕量DNA的光散射/荧光比率法。当硫堇的浓度为1.0×10^-4mol/L时,方法的线性范围为0.1~1.6mg/L,检测限为（3σ）为12.0μg/L。将所建立的方法用于DNA合成样品的测定,回收率为94.9%~107.0%,相对标准偏差小于3.0%。