大青杨叶片总RNA的快速提取方法

目的:寻求快速提取大青杨叶片总RNA的方法。方法:分别用改良CTAB法、改良SDS法、改良TRIzol法及某公司总RNA提取试剂盒提取大青杨叶片总RNA,并用紫外光谱分析、凝胶电泳方法对提取的总RNA进行鉴定。结果:用改良CTAB法和改良TRIzol法能有效地去除蛋白及多糖,提取到的总RNA纯度高,D260nm/D280nm分别为2.05和1.78,RNA的完整程度优于试剂盒法。结论:改良CTAB法为大青杨叶片总RNA的最佳提取方法。     

富含多糖草莓果实总RNA提取方法的改进

以草莓果实为模式实验材料,将Chomczynski提出的常规RNA提取方法与Kenneth等提出的改进方法相结合,并做了进一步改进,建立了一种简单实用的从富舍多糖的植物材料中提取总RNA的方法。先利用冷的丙酮去除色素类物质,再利用乙二醇丁醚去除多糖,从而有效克服了从富含色素和多糖娄物质的植物材料中提取RNA的困难;获取的RNA样品在纯度和浓度上都可以满足PCR及Northern杂交等分子生物学实验的要求。     

荒漠甲虫总RNA提取方法的比较与分析

目的:昆虫总RNA由于其自身结构特点,存在与动物植物完全不同的电泳条带,本文通过对比探索光滑鳖甲总RNA提取的最优方案。方法:实验采用5龄光滑鳖甲幼虫,利用TRIzol、CTAB、热酚法、及BioTeKe Kit、TianGen Kit试剂盒提取方法提取光滑鳖甲总RNA。结果:(1)所采用的实验方法提取的光滑鳖甲总RNA均呈现出与植物、哺乳动物血细胞、哺乳动物组织样总RNA不同的条带,28S弱于18S条带亮度;(2)TRIzol法、CTAB法、改进热酚法所得光滑鳖甲总RNA条带清晰、完整,D260/D280值为1.89～1.98,D260/D230值为1.94～2.09,纯度较好;(3)TRIzol法RNA提取得率为304.3～365.4μg/g,BioTeKe Kit RNA提取得率为73.38～128.22μg/g。结论:综合所有参数,所选取的方法中,TRIzol法可获得高质量、高产量的光滑鳖甲总RNA,可用于RT-PCR、文库构建等高要求RNA的提取。     

一种简便的从石蜡包埋组织中提取RNA的方法

目的:建立一种从石蜡包埋组织提取高质量RNA的简便、经济的方法。方法:运用TRIzol法和改进的AGPC(酸-异硫氰酸胍-苯酚-氯仿)法等2种提取方法,从50例石蜡包埋组织中提取RNA,用紫外分光光度仪测定RNA的产率和纯度;用管家基因β-肌动蛋白做RT-PCR,检测RNA的质量。结果:TRIzol法提取RNA的成功率为96%(48/50),AGPC法为94%(47/50),2种方法所得RNA的吸光度值及得率在统计学上均无明显差异。结论:AGPC法和TRIzol法的提取效率相似,且提取费用只有TRIzol法的一半左右,是一种简便、经济、适合大量提取石蜡包埋组织中的RNA的方法,可用于临床。     

三七总RNA提取方法的对比研究

比较利用改进的异硫氰酸胍一步法、异硫氰酸胍高盐法、CTAB法和Thomas’RNA提取法等4种方法提取三七根茎2个部位总RNA的可行性。结果表明,改进的异硫氰酸胍一步法和异硫氰酸胍高盐法能有效地抑制酚类物质、多糖及皂苷等次级代谢产物对总RNA的影响,可从三七根茎中获得质量高、完整性好的总RNA。RT—PCR分析显示提取的总RNA具有反转录活性。这2种方法具有快速、简单、有效的特点。     

一种适用于RT-PCR的石榴籽粒总RNA提取方法

为从石榴籽粒中提取高质量的RNA,以便进行后续分子生物学研究,针对石榴籽粒富含次生代谢物的特点,采用CTAB法并进行了改良,利用氯仿/异戊醇替代其他方法中的"异硫氰酸胍"和"Trizol试剂"进行反复抽提去除蛋白,无水乙醇去除多糖,LiCl消化DNA。结果显示:改良CTAB法提取的石榴籽粒总RNA的28S rRNA、18SrRNA条带清晰,完整性较好;OD260 nm/OD280 nm比值为1.9960,纯度较高。在此基础上通过反转录、PCR扩增出符合预期大小的Actin基因片段,表明该方法提取的RNA可满足后续RT-PCR等分子生物学试验研究。     

自然干燥紫萼藓总RNA提取方法

介绍一种适合富含酚类、萜类等次生物质的干燥紫萼藓的总RNA的提取方法—SDS/酸酚法。采用SDS做为去污剂,用水饱和酚、氯仿和异戊醇进行抽提以去除蛋白、酚类等次生物质,醋酸钾和无水乙醇去除多糖等物质,最后LiCl沉淀获得总RNA。该方法不但获得了完整性好和纯度高的RNA,而且操作简单,成本也较低,对其他富含酚类、萜类等次生物质的干燥植物组织的总RNA的提取具有借鉴意义。     

一种新型的油樟叶片总RNA提取方法

以油樟叶为试材,比较Trizol法、皂土法、CTAB法、Tris-SDS-异硫氰酸胍法等传统方案提取总RNA,发现效果都不理想.本文针对油樟叶片富含油脂、多酚、多糖的特点,开创性地使用了一种改良的总RNA提取流程:首次增加预处理液、乙酸乙酯抽提来减少油脂、多酚和多糖对裂解液粘稠度的影响,提取过程中使用二氯甲烷代替三氯甲烷增加对疏水性杂质的清除效果,使用混合型高盐溶液多次脱糖,结果表明使用改良的新型方法获得的油樟叶片总RNA条带清晰无明显降解,测得的A260/A280和OD260/OD230均在2.0左右,产物得率约580 μg/g,通过RT-PCR扩增出了油樟18S rRNA基因序长为113bp的特异条带,说明这种改良的新型方法获得的RNA完整性、纯度和产率都远高于常规RNA提取方法,研究探索出一种新型油樟叶片总RNA的提取方法.     

藤茶叶片总 RNA 的提取及苯丙氨酸解氨酶基因（pal）片段的克隆

藤茶叶片富含多酚、多糖以及黄酮类化合物,严重干扰了其总RNA的提取。实验在裂解前先用70%丙酮对藤茶叶片冷冻研磨材料进行多次抽提,然后采用试剂盒提取法、Trizol法和异硫氰酸胍法提取总RNA。结果表明,经丙酮预处理后,上述3种方法均能从藤茶叶片中成功提取到高质量的RNA,其完整性好,纯度高,D260 nm/D280 nm值介于1.8~2.0之间,产率为22.74~33.66μg/g。以提取的总RNA逆转录的c DNA为模板进行RT-PCR,克隆到一条长度为817 bp的pal片段。经Blast比对分析,该基因片段与葡萄、茶树等物种的pal之间具有较高的同源性。     

一种提取小鼠表皮总RNA的新方法

目的:建立一种从小鼠表皮组织提取高质量RNA的方法。方法:用热击法分离小鼠表皮,用TRIzol法提取RNA,用紫外分光光度计测定RNA的产率和纯度,用琼脂糖电泳和RT-PCR检测RNA的质量和完整性。结果:采用新方法提取的小鼠表皮总RNA,其D260nm/D280nm值为1.8～2.0,大于1.5,且RNA产率高于100μg/g;琼脂糖电泳出现5S、18S和28S等3条清晰的rRNA条带,而且28SrRNA条带的亮度约为18S的2倍;用新方法制备的总RNA可成功地用于RT-PCR实验。结论:采用热击法分离表皮并结合TRIzol法可提取到高质量、完整性好的小鼠表皮总RNA,并能用于相关的分子生物学实验。     

An Improved Protocol for the Isolation of RNA from Roots of Tea (Camellia sinensis (L.) O. Kuntze)

Tea, a beverage crop, is a rich source of polyphenols and polysaccharides which greatly attribute to its importance. However, oxidation and precipitation of these compounds during nucleic acids extraction is a limitation to molecular biology and genomic studies. On isolation of total RNA from root tissue using established protocols, difficulties were encountered in terms of purity and quantity of isolated RNA or some of the methods were time-consuming and also yields were low. The present communication combines a phenol-based RNA isolation protocol with a cetyltrimethylammonium bromide-based procedure with appropriate modifications. This protocol successfully isolated RNA from tap root tissue in 2-3 h as compared with 16 h reported by the previous method. Also, RNA yield was higher by more than fourfold. The RNA isolated by this protocol was successfully used for downstream applications such as RT-PCR and the construction of suppression subtractive hybridization library. The developed protocol worked well with other plant tissue with high polyphenols and polysaccharides contents.     

Rapid and Efficient Isolation of High-Quality Small RNAs from Recalcitrant Plant Species Rich in Polyphenols and Polysaccharides

Small RNAs, including microRNAs (miRNAs) and small interfering RNAs (siRNAs), are important regulators of plant development and gene expression. The acquisition of high-quality small RNAs is the first step in the study of its expression and function analysis, yet the extraction method of small RNAs in recalcitrant plant tissues with various secondary metabolites is not well established, especially for tropical and subtropical plant species rich in polysaccharides and polyphenols. Here, we developed a simple and efficient method for high quality small RNAs extraction from recalcitrant plant species. Prior to RNA isolation, a precursory step with a CTAB-PVPP buffer system could efficiently remove compounds and secondary metabolites interfering with RNAs from homogenized lysates. Then, total RNAs were extracted by Trizol reagents followed by a differential precipitation of high-molecular-weight (HMW) RNAs using polyethylene glycol (PEG) 8000. Finally, small RNAs could be easily recovered from supernatant by ethanol precipitation without extra elimination steps. The isolated small RNAs from papaya showed high quality through a clear background on gel and a distinct northern blotting signal with miR159a probe, compared with other published protocols. Additionally, the small RNAs extracted from papaya were successfully used for validation of both predicted miRNAs and the putative conserved tasiARFs. Furthermore, the extraction method described here was also tested with several other subtropical and tropical plant tissues. The purity of the isolated small RNAs was sufficient for such applications as end-point stem-loop RT-PCR and northern blotting analysis, respectively. The simple and feasible extraction method reported here is expected to have excellent potential for isolation of small RNAs from recalcitrant plant tissues rich in polyphenols and polysaccharides.     

麦冬根中总RNA的快速提取

目的:从富含多糖、多酚的麦冬根部组织中快速提取总RNA。方法:采用改进的苯酚法,提取液的配制为5%SDS、1mol/LNaAc(pH4.1)、20%HAC、0.1%PVP。结果:采用该方法提取的麦冬总RNA纯度高、完整性好,电泳条带清晰。通过琼脂糖凝胶电泳与紫外吸光度测定产量与纯度,麦冬根部组织总RNA的吸光值D260nm/D280nm值大于1.8,D260nm/D230nm值大于2.0,麦冬块根与不定根RNA的平均产量分别为79.716和76.144μg/g(鲜重)。结论:用本方法提取的RNA可用于后继的抑制消减杂交试验。     

一种广泛适用的RNA提取方法

分离提取高质量的RNA是基因表达、调控与基因工程等研究的基础,而RNase、多糖及多酚类物质严重干扰RNA的分离提取过程.现利用硅藻土对RNase的吸附性,结合PVP、高盐及乙二醇丁醚沉淀等处理,建立了一种广泛适用的RNA提取方法.在富含多糖的玉米胚乳,富含RNase的动物肝脏,多酚多油脂的银杏、麻疯树以及木霉、酵母等10多种RNA提取困难的动、植物与微生物材料中都提取出完整性好,得率高的RNA.RT-PCR实验表明,提取的RNA能够用于后续的分子生物学研究.硅藻土-苯酚法提取RNA的得率是异硫氰酸胍法的3倍多.此外,将分离提取的总RNA经过LiCl与PEG8000加NaCl沉淀步骤有效地去除了大片段RNA,以水稻Osa-mir-156的成熟序列设计特异引物做茎环RT-PCR,结果证明,富集得到的小RNA可以用于miRNA克隆等后续实验.     

一种高效提取猕猴桃DNA和RNA的方法

在总核酸提取方法(PS法)的基础上,经多次实践改进,得出一种以高盐低pH的HAc-NaAc缓冲体系提取总核酸的简便方法,可以从富含多糖、多酚时猕猴桃叶片和花蕾中提取同时含有DNA和RNA的总核酸.所得的总核酸在LiCl溶液中选择性沉淀RNA,从而有效地分离出DNA和RNA样品.紫外分光光度法和琼脂糖凝胶电泳分析表明,所提取的DNA和RNA具有较高的纯度和完整性.通过样品DNA的PCR和样品RNA的RT-PCR,认为所提取的DNA样品和RNA样品能够满足分子生物学试验的基本要求.     

A simple and efficient protocol for isolation of high quality functional RNA from different tissues of turmeric (Curcuma longa L.)

Many experiments in plant molecular biology require processing of a large number of RNA samples and in some cases large quantities are required for a single application. In turmeric, a major spice and medicinal plant, a protocol for RNA isolation is not available. The major difficulty encountered while using other popular protocols is the low yield and quality of RNA which hampers the downstream applications like qRT-PCR, cDNA synthesis and micro RNA isolation. Commercial kits though available are costly and were found to be unsuccessful in case of rhizomes and root tissues that are rich in polyphenols, polysaccharides and alkaloids. It was thus felt that a quick, handy and cheap protocol of total RNA isolation from different tissues of turmeric was required for day to day working in our lab. The new protocol utilizes SDS based extraction buffer including β-mercaptoethanol and PVP with sequential acid phenol:chloroform extraction to remove polyphenols and proteins, followed by the purification with sodium acetate to eliminate polysaccharides. The protocol is simple and can be completed in less than 3 h. The RNA yield from rhizome was higher by more than fivefold with both A_260/280 and A_260/230 ratio in the range of 1.8–2.0. The protocol worked well with leaf, rhizome, pseudostem and root tissues with RIN >7.0 and the isolated RNA could be successfully used for cDNA synthesis, RT-PCR, qRT-PCR and small RNA isolation including microRNA.     

何首乌总RNA提取方法的比较及改进

目的：探讨不同提取方法对提取何首乌总RNA的质量影响,寻找适于何首乌成熟叶组织RNA的提取方法。方法：以何首乌成熟叶组织为材料,采用SDS／酸酚法、常规CTAB法及改良的TRIzol试剂法分别进行实验,并对所提取RNA的质量进行验证。结果：采用3种方法都能提取出RNA,但质量差异较大。其中改良的TRIzol试剂法能有效抑制次生物质的影响,提取的RNA产量可达70-110μg／g,纯度高于其他2种方法,D260nm／D280nm值为1．85～1．97。结论：改良的TRIzol试剂法操作简便,提取的RNA完整性和纯度较高,可以满足下一步实验的要求。