陕西省常见四种实蝇的RAPD研究初报(双翅目:实蝇科)

应用31种随机引物对陕西省常见4种实蝇的基因组DNA进行扩增,筛选出5种引物S61、S107、S126、S275、S1142,可以对4个种扩增出稳定清晰的多态性片段,其中引物S126可以把南瓜实蝇和具条实蝇,具条实蝇和三点棍腹实蝇分开;利用UPGMA法聚类构建的系统树与传统分类完全一致。     

苛求芽孢杆菌基因组DNA提取方法的比较

目的:比较不同方法提取苛求芽孢杆菌基因组DNA的差异。方法:用经典CTAB提取法、改进CTAB法(溶菌酶处理结合CTAB提取法)、UniQ柱吸附提取法制备苛求芽孢杆菌基因组DNA,比较产物完整性和用于PCR扩增的有效性。结果:三种方法制备基因组DNA纯度接近,但改进CTAB法产率最高,UniQ法产率最低。经典CTAB法和UniQ法提取基因组DNA易降解。三种方法所得基因组DNA用于PCR扩增效率接近。结论:溶菌酶裂解结合CTAB提取更适合制备苛求芽孢杆菌基因组DNA。     

基于基因组特异性SSR序列的实蝇PCR鉴定方法

【目的】实蝇科昆虫是全球范围内重要的检疫性害虫,其幼虫取食寄主果实,引起果实腐烂、变质,造成巨大经济损失。由于口岸截获多为实蝇卵、幼虫、蛹等非成虫虫态,需饲养至成虫才能根据形态准确鉴定,因此快速可靠的分子鉴定技术体系亟需完善。【方法】利用公开发表的实蝇基因组序列,通过生物信息学方法从4种检疫性实蝇即地中海实蝇Ceratitis capitata、瓜实蝇Bactrocera cucurbitae、橘小实蝇Bactrocera dorsalis、昆士兰实蝇Bactrocera tryoni中挖掘物种特异性的简单重复序列(Simple sequence repeats,SSR),针对各物种设计含有其特异性简单重复序列的引物,提取实蝇样品基因组DNA,采用常规PCR方法优化并筛选各物种特异性引物。【结果】在4种实蝇基因组中共发现20条物种特异性的SSR,基于这些序列设计的3对特异性引物能有效区分地中海实蝇、瓜实蝇和橘小实蝇,扩增片段大小分别为1 251、1 307、823 bp,而在其他物种中检测不到条带。【结论】基因组水平的序列分析发现了物种特异性的SSR,通过筛选获得物种特异性的PCR引物,可应用于3种实蝇的分子鉴定,为口岸检疫人员快速鉴定区分非成虫状态的实蝇提供了实用性技术。     

不同处理方法对肺炎链球菌基因组提取的影响

为了获得简便、高效的提取肺炎链球菌基因组DNA方法,分别采用不同处理方法(溶菌酶法和脱氧胆酸钠(DOC)法)、不同处理时间对8株不同血清型的肺炎链球菌进行破壁,同时菌株采用不同培养时间进行基因组的提取,提取基因组后利用紫外分光光度计测定样品中DNA的浓度和纯度以及琼脂糖凝胶电泳检测基因组DNA的质量。结果表明,菌株培养12~16 h、质量分数1%DOC处理2 h能提取出高质量的肺炎链球菌基因组DNA。该方法提取的肺炎链球菌基因组DNA具有质量高、完整性好的优点,为肺炎链球菌全基因组序列的测定提供了前提条件。     

改良CTAB法提取林木树种基因组DNA的研究

目的:验证改良CTAB法提取不同林木树种基因组DNA的效果,寻求一种对于不同林木树种基因组DNA提取普遍使用的方法。方法:采用改良的CTAB法提取22种木本植物基因组DNA,并对其进行定性、定量分析及酶切分析。结果:采用本法可以去除多糖和其他次生代谢物并获得高质量的DNA。结论:该方法可以作为一种适于在实验室进行的林木树种基因组DNA的提取方法。     

松科植物基因组总DNA提取方法的比较

目的:研究对比了用不同方法提取红松、樟子松和红皮云杉等3种松科植物叶片基因组DNA的效果,以寻找适合提取松科植物叶片基因组DNA的方法。方法:分别比较了用传统的CTAB法、SDS法以及3种改良的CTAB法提取的上述3种松科植物叶片基因组DNA的电泳、纯度和酶切效果。结果:采用不同方法提取的3种松科植物叶片基因组DNA的质量差异较大。结论:常规CTAB法和SDS法无法提取出高质量松科植物基因组DNA,而改良后的CTAB法的提取效果较好。     

高粱基因组DNA提取方法的比较与优化

目的：比较CTAB法和高盐低pH法提取高粱总DNA效果,进一步优化建立高盐低pH值法提取高粱基因组DNA的方法。方法：采用CTAB法、高盐低pH法对高粱叶片DNA进行提取,并从电泳结果、纯度、得率三方面进行比较研究。通过提取缓冲液中SDS浓度的优化,不同组织器官的DNA提取纯化以及不同沉淀方法的优化,比较不同方法对高粱基因组DNA提取的影响。结果：高盐低pH法DNA平均得率为689.36μg/g,略小于CTAB法的718.26μg/g,但其A260/A230平均值为1.854,比CTAB法的2.164更接近标准要求。高盐低pH法提取高粱基因组DNA的适宜条件确定如下：提取液中含有2%SDS、2%PVP、2%β-巯基乙醇;水浴时间30min;沉淀方法采用0.7体积异丙醇室温沉淀的沉淀方法。结论：综合考虑高盐低pH法是提取高粱基因组DNA的最佳方法。     

橘小实蝇快速检疫鉴定方法

采用形态学观察与PCR技术相结合的方法,针对台湾水果中截获的可疑橘小实蝇Bactroceradorsalis(Hendel)幼虫和蛹进行快速鉴定。采用异硫氰酸胍方法快速提取昆虫基因组DNA,并根据特异性引物,采用PCR技术从截获的可疑橘小实蝇幼虫和蛹样本中均扩增得到224 bp的特异性条带,经测序比较发现,扩增产物序列与橘小实蝇目的基因序列完全相同,由此证明可疑样本为橘小实蝇的幼虫和蛹。该方法解决了橘小实蝇幼虫和蛹等未成熟虫态的快速检疫难题,大大缩短了检测周期,值得口岸检验检疫借鉴应用。     

高质量毕赤酵母基因组DNA提取方法比较

旨在比较5种毕赤酵母基因组DNA的提取法,以便获得简便高效的提取高质量酵母基因组DNA的优化方法。分别使用蜗牛酶破壁法,超声波破碎法,液氮研磨法,Lyticase破壁法,试剂盒法提取毕赤酵母基因组DNA,然后进行DNA电泳检测以及紫外分光光度计测定DNA浓度和纯度。结果显示,5种方法均能提取出酵母基因组DNA,而酶法所提取的酵母基因组DNA质量最好。由此证实,蜗牛酶法成本低、效果好,是理想的提取高质量酵母基因组DNA的方法,完全满足后续试验要求。     

刺参基因组DNA提取的探讨

以刺参为试验材料,分别以CTAB法、SDS法、Segama试剂盒法对刺参的触手、管足、体壁、纵肌、肠和呼吸树组织进行基因组DNA的提取,均得到了高质量的基因组DNA。Segama试剂盒提取DNA条带较其他两种方法清晰,杂质少且无降解,效果最佳。对比6种不同的刺参组织,其中纵肌组织3种方法均获得高质量基因组DNA,为提取基因组DNA的首选组织。开发了利用刺参触手和管足活体取样提取基因组DNA的方法,得到了高质量的基因组DNA,这为刺参无损伤取样提供了数据支持,使得将来刺参家系建立过程中保证亲体的健康存活及减少试验样品取样所带来的损伤成为可能。     

Chelex-100法及酚氯仿法提取阴道毛滴虫DNA的比较

目的-比较Chelex-100法和酚氯仿法提取阴道毛滴虫基因组DNA。方法-分别用Chelex-100法和酚氯仿法提取阴道毛滴虫基因组DNA,用PCR法检测DNA提取的有效性。结果两种方法提取的DNA经PCR扩增均有特定的条带。结论-两种方法均能提取阴道毛滴虫DNA。Chelex-100方法简便、省时,较适用于分子生物学研究及临床PCR扩增使用。     

适于涡虫基因组DNA快速制备的改良的CTAB法

提取得到高质量的DNA样品是进行分子生物学研究的必要前提。为了找到一种适用于提取涡虫基因组DNA的常规方法,我们以东亚三角头涡虫为材料,分别用改良的CTAB法、SDS法、SDS-蛋白酶K法对涡虫的基因组DNA进行了制备,并对3种方法制备的涡虫基因组DNA进行了检测与比较。根据比较结果,我们认为改良的CTAB法最适合于涡虫基因组DNA的快速制备,为涡虫的分子生物学研究打下了基础。     

A simple method of genomic DNA extraction suitable for analysis of bulk fungal strains

Aims: A simple and rapid method (designated thermolysis) for extracting genomic DNA from bulk fungal strains was described. Methods and Results: In the thermolysis method, a few mycelia or yeast cells were first rinsed with pure water to remove potential PCR inhibitors and then incubated in a lysis buffer at 85°C to break down cell walls and membranes. This method was used to extract genomic DNA from large numbers of fungal strains (more than 92 species, 35 genera of three phyla) isolated from different sections of natural Ophiocordyceps sinensis specimens. Regions of interest from high as well as single‐copy number genes were successfully amplified from the extracted DNA samples. The DNA samples obtained by this method can be stored at ?20°C for over 1 year. Conclusions: The method was effective, easy and fast and allowed batch DNA extraction from multiple fungal isolates. Significance and Impact of Study: Use of the thermolysis method will allow researchers to obtain DNA from fungi quickly for use in molecular assays. This method requires only minute quantities of starting material and is suitable for diverse fungal species.     

A simple and reliable method for DNA extraction from bivalve mantle

A simple and reliable method was developed for extracting genomic DNA from preserved mantle tissues of Pacific oyster Crassostrea gigas for reproducible PCR amplification. The method was based on destruction of the tissue using Proteinase K, Chelex 100 resin, detergents, and urea, followed by preferential capturing of genomic DNA with silica particles. Approximately 5 mg of mantle tissue provided a sufficient quality and quantity of DNA for several hundreds of PCR reactions amplifying the hypervariable mitochondrial DNA intergenic spacer, which is a useful genetic marker for population structure analysis of Pacific oyster. The method can be applied for DNA preparation from not only fresh and frozen but also ethanol-preserved mantle tissues, so this rapid and economical method can serve for investigating a large number of bivalve specimens collected in the field and next transported in ethanol at ambient temperature.     

不同方法保存的蜜蜂基因组DNA提取的比较

目的:找出适合DNA提取的昆虫标本保存方法。方法:用几种常用的昆虫标本保存方法对蜜蜂处理不同时间后,用蛋白酶K法对其基因组DNA进行提取和纯化,然后对提取产物做琼脂糖凝胶电泳及紫外吸收分析。结果:75%乙醇及冻存处理材料的基因组DNA得率较高,为7.13～8.85μg/g,电泳条带较亮;甲醛处理材料的基因组DNA得率较低,为1.50～3.21μg/g。结论:用75%乙醇及冻存处理蜜蜂较适合于其基因组DNA的提取,不宜用甲醛。     

Uracil-containing DNA in Drosophila: stability, stage-specific accumulation, and developmental involvement

Base-excision repair and control of nucleotide pools safe-guard against permanent uracil accumulation in DNA relying on two key enzymes: uracil-DNA glycosylase and dUTPase. Lack of the major uracil-DNA glycosylase UNG gene from the fruit fly genome and dUTPase from fruit fly larvae prompted the hypotheses that i) uracil may accumulate in Drosophila genomic DNA where it may be well tolerated, and ii) this accumulation may affect development. Here we show that i) Drosophila melanogaster tolerates high levels of uracil in DNA; ii) such DNA is correctly interpreted in cell culture and embryo; and iii) under physiological spatio-temporal control, DNA from fruit fly larvae, pupae, and imago contain greatly elevated levels of uracil (200-2,000 uracil/million bases, quantified using a novel real-time PCR-based assay). Uracil is accumulated in genomic DNA of larval tissues during larval development, whereas DNA from imaginal tissues contains much less uracil. Upon pupation and metamorphosis, uracil content in DNA is significantly decreased. We propose that the observed developmental pattern of uracil-DNA is due to the lack of the key repair enzyme UNG from the Drosophila genome together with down-regulation of dUTPase in larval tissues. In agreement, we show that dUTPase silencing increases the uracil content in DNA of imaginal tissues and induces strong lethality at the early pupal stages, indicating that tolerance of highly uracil-substituted DNA is also stage-specific. Silencing of dUTPase perturbs the physiological pattern of uracil-DNA accumulation in Drosophila and leads to a strongly lethal phenotype in early pupal stages. These findings suggest a novel role of uracil-containing DNA in Drosophila development and metamorphosis and present a novel example for developmental effects of dUTPase silencing in multicellular eukaryotes. Importantly, we also show lack of the UNG gene in all available genomes of other Holometabola insects, indicating a potentially general tolerance and developmental role of uracil-DNA in this evolutionary clade.     

Barcoding Queensland Fruit Flies (Bactrocera tryoni): impediments and improvements

Identification of adult fruit flies primarily involves microscopic examination of diagnostic morphological characters, while immature stages, such as larvae, can be more problematic. One of the Australia’s most serious horticultural pests, the Queensland Fruit Fly (Bactrocera tryoni: Tephritidae), is of particular biosecurity/quarantine concern as the immature life stages occur within food produce and can be difficult to identify using morphological characteristics. DNA barcoding of the mitochondrial Cytochrome Oxidase I (COI) gene could be employed to increase the accuracy of fruit fly species identifications. In our study, we tested the utility of standard DNA barcoding techniques and found them to be problematic for Queensland Fruit Flies, which (i) possess a nuclear copy (a numt pseudogene) of the barcoding region of COI that can be co‐amplified; and (ii) as in previous COI phylogenetic analyses closely related B. tryoni complex species appear polyphyletic. We found that the presence of a large deletion in the numt copy of COI allowed an alternative primer to be designed to only amplify the mitochondrial COI locus in tephritid fruit flies. Comparisons of alternative commonly utilized mitochondrial genes, Cytochrome Oxidase II and Cytochrome b, revealed a similar level of variation to COI; however, COI is the most informative for DNA barcoding, given the large number of sequences from other tephritid fruit fly species available for comparison. Adopting DNA barcoding for the identification of problematic fly specimens provides a powerful tool to distinguish serious quarantine fruit fly pests (Tephritidae) from endemic fly species of lesser concern.     

桔小实蝇分子生物学研究中样品采集及保存处理的改进方法

介绍了一种果实蝇,桔小实蝇Bactroceradorsalis的虫样采集和保存处理的方法。利用一种简易的诱捕装置对于野外短时间、大面积采集实蝇虫样效果显著;同时,用TE溶液浸泡的干燥虫样适用于桔小实蝇的DNA抽提和PCR扩增。这种虫样采集和保存方法也适用于果实蝇属其它几类实蝇的分子生物学研究。     

Screening mitochondrial DNA sequence variation as an alternative method for tracking established and outbreak populations of Queensland fruit fly at the species southern range limit

Understanding the relationship between incursions of insect pests and established populations is critical to implementing effective control. Studies of genetic variation can provide powerful tools to examine potential invasion pathways and longevity of individual pest outbreaks. The major fruit fly pest in eastern Australia, Queensland fruit fly Bactrocera tryoni (Froggatt), has been subject to significant long‐term quarantine and population reduction control measures in the major horticulture production areas of southeastern Australia, at the species southern range limit. Previous studies have employed microsatellite markers to estimate gene flow between populations across this region. In this study, we used an independent genetic marker, mitochondrial DNA (mtDNA) sequences, to screen genetic variation in established and adjacent outbreak populations in southeastern Australia. During the study period, favorable environmental conditions resulted in multiple outbreaks, which appeared genetically distinctive and relatively geographically localized, implying minimal dispersal between simultaneous outbreaks. Populations in established regions were found to occur over much larger areas. Screening mtDNA (female) lineages proved to be an effective alternative genetic tool to assist in understanding fruit fly population dynamics and provide another possible molecular method that could now be employed for better understanding of the ecology and evolution of this and other pest species.