A fast and efficient protocol for small RNA extraction in Japanese plum and other Prunus species

Background: Small ribonucleic acids represent an important repertoire of mobile molecules that exert key roles in several cell processes including antiviral defense. Small RNA based repertoire includes both small interfering RNA (siRNA) and microRNA (miRNA) molecules. In the Prunus genus, sharka disease, caused by the Plum pox virus (PPV), first occurred on European plum (Prunus domestica) and then spread over among all species in this genus and thus classified as quarantine pathogen. Next-generation sequencing (NGS) was used for the study of siRNA/miRNA molecules; however, NGS relies on adequate extraction protocols. Currently, knowledge of PPV-Prunus interactions in terms of siRNA populations and miRNA species is still scarce, and siRNA/miRNA extraction protocols are limited to species such as peach, almond, and sweet cherry. Results: We describe a reliable procedure for siRNA/miRNA purification from Prunus salicina trees, in which previously used protocols did not allow adequate purification. The procedure was based on a combination of commercially available RNA purification kits and specific steps that yielded high quality purifications. The resulting molecules were adequate for library construction and NGS, leading to the development of a pipeline for analysis of both siRNAs and miRNAs in the PPV­P. salicina interactions. Results showed that PPV infection led to altered siRNA profiles in Japanese plum as characterized by decreased 24-nt and increased 21- and 22-nt siRNAs. Infections showed miR164 and miR160 generation and increased miR166, miR171, miR168, miR319, miR157, and miR159. Conclusion: We propose this protocol as a reliable and reproducible small RNA isolation procedure for P. salicina and other Prunus species.

Isolation of total RNA from hard bamboo tissue rich in polyphenols and polysaccharides for gene expression studies

RNA isolation from hard and woody internodal bamboo (Bambusa balcooa) tissue is very difficult due to the presence of secondary metabolites, polysaccharides, and polyphenolics. These compounds often co-precipitate with isolated RNA and hinder downstream applications. We have developed an efficient, cost effective and reproducible RNA isolation method from hard tissue of bamboo internode. This protocol includes an additional organic solvent refinement steps to remove endogenous phenolic compounds and acidic phenol (pH 4.2) to critically stabilize RNA in extraction buffer. In addition to these, two 2M Lithium chloride washing steps were introduced to eliminate DNA and polysaccharides contamination. The RNA isolated from the present protocol was found to be superior, when compared to total RNA extracted by other available protocols. The A260/A280 absorption ratio of the isolated RNA was found ranging between 1.89-1.97. The integrity of 28S and 18S rRNA was highly satisfactory when analyzed in agarose denaturing gel. RNA was further used for RT PCR, northern hybridization, cDNA library and subtractive hybridization without any further refinement.

A micromethod for high throughput RNA extraction in forest trees

A large quantity of high quality RNA is often required in the analysis of gene expression. However, RNA extraction from samples taken from woody plants is generally complex, and represents the main limitation to study gene expression, particularly in refractory species like conifers. Standard RNA extraction protocols are available but they are highly time consuming, and not adapted to large scale extraction. Here we present a high-throughput RNA extraction protocol. This protocol was adapted to a micro-scale by modifying the classical cetyltrimethylammonium (CTAB) protocol developed for pine: (i) quantity of material used (100-200 mg of sample), (ii) disruption of samples in microtube using a mechanical tissue disrupter, and (iii) the use of SSTE buffer. One hundred samples of woody plant tissues/organs can be easily treated in two working days. An average of 15 /ig of high quality RNA per sample was obtained. The RNA extracted is suitable for applications such as real time reverse transcription polymerase chain reaction, cDNA library construction or synthesis of complex targets for microarray analysis.

Isolation of poly (A)+ mRNA for downstream reactions from some medicinal and aromatic plants.

In the present protocol for extraction of RNA, hexadecyltrimethylammoniumbromide (CTAB) and insoluble polyvinylpyrrolidone were used followed by LiCl precipitation, CsCl ultracentrifugation and finally poly (A)+ mRNA was isolated with the help of oligo(dT)-cellulose columns. The isolated poly (A)+ mRNA was found to be suitable for cDNA-AFLP and suppression subtractive hybridization applications. It is a modified and consolidated protocol based on previously described methods for isolated steps and works better for medicinal and aromatic plants. High yield of poly (A)+ mRNA coupled with its amenability for downstream reactions like RT-PCR, northern blotting and cDNA synthesis for library construction is a key feature of the present protocol.

A Rapid and Efficient Method for Purifying High Quality Total RNA from Peaches (Prunus persica) for Functional Genomics Analyses

Prunus persica has been proposed as a genomic model for deciduous trees and the Rosaceae family. Optimized protocols for RNA isolation are necessary to further advance studies in this model species such that functional genomics analyses may be performed. Here we present an optimized protocol to rapidly and efficiently purify high quality total RNA from peach fruits (Prunus persica). Isolating high-quality RNA from fruit tissue is often difficult due to large quantities of polysaccharides and polyphenolic compounds that accumulate in this tissue and co-purify with the RNA. Here we demonstrate that a modified version of the method used to isolate RNA from pine trees and the woody plant Cinnamomun tenuipilum is ideal for isolating high quality RNA from the fruits of Prunus persica. This RNA may be used for many functional genomic based experiments such as RT-PCR and the construction of large-insert cDNA libraries.

Molecular cloning and differential expression of corm-specif cDNAs in Colocasia esculenta

A CDNA library was constructed using mRNA isolated from mature corm tissue of taro (Colocasia esculenta). By differential screening, four cDNA clones, pCE1, pCE2, pCE3 and pCE4, complementary to moderately abundant corm mRNAs, were selected. These were used as probes to study the expression of the corresponding genes in different taro tissue. Northern analysis of transcripts indicated that their expression is highly enhanced in the corm and that they encode mRNAs with 0.70 kb, 0.80 kb, 0.75 kb and 1.20 kb, respectively. Dot blot hybridizations revealed that clones pCE1 to 4 bear inserts homologous to mRNAs that accumulate to 1.5 percent, 1.0 percent, 0.40 percent and 0.20 percent respectively, of the total poly (A)+ mRNA present in mature corms. The four genes are differentially regulated in taro tissue. Their transcripts were detected at lower levels in the steady state mRNA of petiole, lamina and roots, except in the case of pCE3 whose mRNA could not be detected neither in petiole nor in lamina.