一种适用范围广的总RNA提取方法

介绍一种RNA提取方法,该方法以SDS、氯仿和Tris苯酚为主要提取试剂,以LiCl和乙醇为RNA沉淀试剂。分别以柽柳(木本植物)、星星草(草本植物)、天牛（昆虫）、酿酒酵母和白腐菌（真菌）为RNA提取材料,用该方法成功地提取出了它们的总RNA。获得的RNA条带清晰,A₂₆₀/A₂₈₀ 在1.8以上。通过对LiCl和乙醇沉淀RNA的效果分析表明,该方法可在10 min内完全沉淀RNA,同时也可以同时获得纯度较高的DNA。提取的RNA质量可满足cDNA文库构建,基因芯片探针标定和RT-PCR等对RNA质量要求较高的分子生物学操作,说明这是一种应用范围广的RNA提取方法。     

A Rapid and effective method for RNA extraction from different tissues of grapevine and other woody plants

Introduction –  RNA quality and integrity are critical for many studies in plant molecular biology. High‐quality RNA extraction from grapevine and other woody plants is problematic due to the presence of polysaccharides, polyphenolics and other compounds that bind or co‐precipitate with the RNA. Objective  – To develop an optimised cetyltrimethylammonium bromide (CTAB)‐based protocol, to reduce the time and cost of extraction without reducing quality and yield of RNA extracted from polysaccharide‐rich tissues of several plants. Methodology  – Several changes were introduced to the original CTAB protocol. All centrifugation steps were carried out at 4°C, the sample weight was decreased and the concentrations of PVP‐40 and LiCl were increased reducing incubation time prior to RNA precipitation. This rapid CTAB protocol was compared with six different RNA extraction methods from three grapevine tissues, namely, in vitro plantlets, and leaves and mature canes from actively growing field vines. Results –  The rapid CTAB method gave high‐quality RNA in only 3 h at low cost with efficiency equal to or higher than that obtained with other time‐consuming and expensive protocols. The procedure was applied to RNA extraction from other grapevine tissues and other woody species including olive, lemon, poplar, chestnut, apple, pear, peach, cherry, apricot, plum and kiwi fruit. RNA of high quality could be isolated from all tissues and from all species. Conclusion –  The study has shown that the improvement of a CTAB‐based protocol allows the rapid isolation of high‐quality RNA from grapevine and many woody species. Copyright © 2008 John Wiley & Sons, Ltd.     

A reliable and efficient method for total rna isolation from various members of spurge family (Euphorbiaceae)

Introduction – It is prerequisite and crucial to extract RNA with high quality and integrity in order to carry out molecular biology studies in any plant species of a family. Euphorbiaceae members are known for high levels of their waxes, oils with polysaccharides, polyphenolics and secondary metabolites. These conditions are recognised to interfere unfavourably with various methodologies of RNA isolation. Objective – To develop a simple, rapid and reproducible cetyltrimethylamonium bromide (CTAB)‐based protocol, to reduce the time and cost of extraction without reducing quality and yield of RNA extracted from various recalcitrant Euphorbiaceae member plant tissues such as from tree leaves (Hevea brasilensis), woody shrubs leaves (Ricinus communis, Jatropha curcas, Manihot esculenta) and storage root tissue (M. esculenta). Methodology – Simple modifications and fast steps were introduced to the original CTAB protocol. All centrifugation steps were carried out at 4°C at 12000 rpm for 10 min, the sample weight was decreased and usage of spermidine and LiCl was omitted, reducing incubation time prior to RNA precipitation. This rapid CTAB protocol was compared with various RNA isolation methods intended for use with plants rich in polysaccharides and secondary metabolites. Results – The procedure can be completed within 2 h and many samples can be processed at the same time. RNA of high quality could be isolated from all the tissues of species that we tried. The isolated RNA from different species served as a robust template for RT‐PCR analysis. Conclusion – The study has shown that the improvement of a CTAB‐based protocol allows the rapid isolation of high‐quality RNA from various recalcitrant Euphorbiaceae members. Copyright © 2010 John Wiley & Sons, Ltd.     

The isolation of RNA from raspberry (Rubus idaeus) fruit

Previous attempts to extract high-quality, total RNA from raspberry (Rubus idaeus) fruits using published protocols have proven to be unsuccessful. Even the use of protocols developed for the extraction of RNA from other fruit tissue has resulted in low yields (1) or the isolation of degraded RNA (2). Here, we report on the development of a quick and simple method of extracting total RNA from raspberry fruit. Using this method, high yields of good quality, undegraded RNA were obtained from fruit at all stages of ripening. The RNA is of sufficient quality for northern analysis and cDNA library construction.     

Extraction of RNA from tissues containing high levels of procyanidins that bind RNA

Commonly used methods for extraction of RNA from plants are not effective for isolation of high quality RNA from the pigmented seed coats of soybeans that produce procyanidins (tannins) during seed coat development. We demonstrate a significant modification of the phenol-LiCl method that yields high quality RNA from a black seed coat variety. In this method, seed coat material was ground in a buffer containing a high concentration of bovine serum albumin (100 mg BSA/50 mg of lyophilized seed coats) to competitively inhibit proanthocyanidin binding. The presence of hydrated insoluble polyvinylpoly-pyrrolidone (PVPP) was also necessary to bind proanthocyanidins and remove them from solution. Proteinase K was added to digest the remaining BSA, and phenol extraction was used to remove both the proteins and small molecular weight complexes formed by BSA and proanthocyanidins. After LiCl and ethanol precipitations, the RNA quality was examined by UV absorbance spectra, gel electrophoresis, and hybridization. Using this method, good quality RNA can be extracted from pigmented seed coats of soybean varieties that are homozygous for the recessivei allele and also contain the dominantT gene that results in production of procyanidins in the seed coat. The method is also effective for tissues from other plant species that contain abundant polyphenolic compounds.     

RNA isolation from highly viscous samples rich in polyphenols and polysaccharides

The homogenized solution of leaves from woody plantCinnamomum tenuipilum is relatively viscous, gluelike, and rich in polysaccharides and polyphenols, which makes the isolation of RNA particularly difficult. If drawing with a tip, continuous filaments are formed at the end of tip. Guanidine-based and phenol/SDS methods resulted in brown and water-insoluble RNA pellets. With modifications of a CTAB method by including 2 centrifugation steps at 30,000g, we developed an effective and reproducible protocol that yields enough good quality RNA for northern analysis and RT-PCR.     

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.     

High-throughput RNA extraction from plant samples based on homogenisation by reciprocal shaking in the presence of a mixture of sand and glass beads

We describe here a reliable high-throughput method for extraction of RNA from fresh or frozen plant tissue that obviates laborious and time-consuming homogenisation by mortar and pestle. The method is based on homogenisation by high-speed reciprocal shaking in presence of a mixture of inexpensive abrasive materials; i.e., quartz sand and glass beads. After homogenisation, the method follows a standard procedure for RNA extraction by phenol/LiCl. Yield and quality of RNA obtained by homogenisation with the sand/glass bead mix are identical to those obtained by mortar and pestle.     

用低浓度硫氰酸胍提取高质量植物RNA

目前分离RNA的方法很多, 但大多是基于动物材料建立的方法, 而针对植物材料的方法并不多见. 建立了一种从植物材料中分离高质量RNA的硫氰酸胍/氯化锂/热酚法. 与其他硫氰酸胍的方法相比, 该方法所用硫氰酸胍的浓度仅为现有方法的1/40 (0.1 mol/L),降低了实验成本, 且所得RNA质量令人满意. 用该方法分离的RNA在琼脂糖凝胶电泳上可清晰分出4条核糖体RNA (rRNA)带; 用此RNA进行RNA印迹或分离mRNA进行体外翻译试验, 均获得很好效果.     

Method for the isolation of high-quality RNA from grape berry tissues without contaminating tannins or carbohydrates

Grape berries contain compounds that aggregate with and precipitate RNA in the presence of chaotropic agents or phenol. The procedure described here extracts RNA from finely ground tissues using mild denaturants, and selectively precipitates the aggregate-forming material with 30% ethanol. The resulting RNA is suitable for northern blot analysis and translationin vitro.     

Isolation of RNA from apple skin

A method has been developed for the isolation of RNA from apple skin. The method involves an adaptation of the Manning (1991) method and includes a high-salt extraction step and a final purification step through a CsCl cushion. The RNA isolated was of high quality and produced good hybridization signals in northern blot analyses.     

一种丹参高质量总RNA的提取方法

高质量RNA的获得是开展丹参分子生物学研究的基础。采用异硫氰酸胍(Guanidine Thiocyanate,GT)法、尿素法、CTAB法、苯酚法和热硼酸改良法等五种方法．以丹参组织培养的幼苗为材料,进行丹参RNA的分离试验,发现所采用的几种方法获得的RNA都有不同程度的降解。分析可能是由于丹参中含有大量的多糖以及各种次生代谢成分造成的。在分析现有结果的基础上对GT法进行了改良,在第二次沉淀前附加低浓度乙醇(10％～20％)沉淀20min对于高质量总RNA的获得效果较好。琼脂糖凝胶电泳检测改良后的GT法无论对于组织培养中幼嫩的根、茎、叶还是大田两年生的丹参根、茎、叶和种子均具有很好的RNA分离效果。mRNA电泳检测发现所得mRNA集中分布在500b～3kb之间且质量较高,完全可以满足丹参各种RNA相关的分子生物学实验要求,为丹参RT—PCR、Northern杂交等分子生物学实验提供了良好的基础。     

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。     

提取航天诱变向日葵种子总RNA的一种有效方法

目的:从航天诱变向日葵种子中提取高质量的总RNA.方法:采用改进的SDS法,提取缓冲液与氯仿同时作用液氮研磨材料后,用酸酚-氯仿抽提一次,经LiCl过夜沉淀、DNase I处理、1/2体积的无水乙醇沉淀多糖,最后加入1/10体积的醋酸钠和2倍体积的无水乙醇沉淀总RNA,用琼脂糖凝胶电泳与紫外分光光度法测定产量与纯度,用...     

Isolation and purification of functional total RNA from blue-grained wheat endosperm tissues containing high levels of starches and flavonoids

Isolation of intact, functional total RNA from blue-grained wheat endosperms containing high levels of starches, polysaccharides, and flavonoids was extremely difficult using traditional methods. We describe here a modified SDS/phenol method that can be used to isolate total RNA from blue-grained wheat endosperms. This method solved the problems of RNA degradation, contamination, and low yield due to binding and/or co-precipitation with starches, polysaccharides, and flavonoids. The isolated total RNA was of high quality and undegraded as determined by spectrophotometric readings and denaturing agarose gel analysis. Quality of the total RNA isolated using our protocol was further assessed by RT-PCR and northern blot hybridization. Using this efficient procedure, 350–400 μg of total RNA was routinely obtained from 1 g of blue-grained wheat seeds.     

A simple procedure for the isolation of high quality RNA from ripening banana fruit

Isolation of high quality RNA from ripening banana fruit tissue is difficult due to high levels of polysaccharides and other substances that interfere when using conventional procedures for RNA isolation. These substances not only decrease the yield but the quality of RNA is almost unusable. We describe here a simple RNA procedure that effectively removes these contaminating substances without affecting the yield. Following this procedure, we routinely obtained 80–150 μg of total RNA per g fresh tissue. The RNA is of good quality and suitable for northern analysis, RT-PCR and cDNA library construction. NBRI publication No. 488(NS).     

ISOLATION OF HIGH-QUALITY RNA FROM GRAINS OF DIFFERENT MAIZE VARIETIES

The study of gene expression in maize varieties represents a powerful tool aiming to increase vitamin A precursors. However, the isolation of RNA from different maize varieties is challenging because these varieties show different levels of polysaccharides, and most methods available for RNA isolation are inappropriate for grain samples. The polysaccharides co-purify and co-precipitate with RNA during isolation, resulting in low-quality RNA, compromising the use of RNA in subsequent applications. Thus, a cetyltrimethylammonium bromide (CTAB)-based method was adapted in this study and compared with six methods for RNA isolation, including commercial reagents and RNA and DNA isolation kits, in order to identify the most appropriate for maize grains from different varieties. Most of the methods evaluated were considered inadequate due to limitations in terms of purity and/or quantity of the isolated RNA, which affected the efficiency of subsequent RT-qPCR analysis, resulting in nonamplification of β-carotene hydroxylase gene (HYD3) or high deviation among replicates. However, the CTAB modified method allowed the study to obtain intact RNA, with high quality and quantity, from 25 maize varieties. Furthermore, this RNA was successfully used to evaluate the expression of HYD3 gene by real-time qualitative polymerase chain reaction (RT-qPCR), and thus represents a simple, efficient, and low-cost strategy.