Extraction of total RNA ● TIMING 2-3 h
1| Grind 50-100 mg of tissue in a mortar and pestle with liquid nitrogen and transfer to a 2-ml tube.
PAUSE POINT After grinding, tissue samples can be stored in liquid nitrogen or –80 °C until used for RNA extraction.
2| Extract total RNAs using Plant RNA reagent (for plant tissue) or TRIzol (for animal tissues) following the manufacture’s instruction. For staring material of 50-100 mg of tissue, follow the small scale option. Dissolve RNA in DEPC-treated water.
PAUSE POINT RNA solution can be stored at –80 °C at least for several months.
DNase I treatment (Optional) ● TIMING 2-3 h
3| Remove any possible DNA contamination in total RNA using RNase-free DNase (Promega) following the product manual instructions.
4| Purify treated RNAs by extraction using phenol-chloroform and chloroform.
(i) An equal volume of phenol-chloroform is added to RNA sample and mixed thoroughly, and then centrifuged at 12000 × g for 5 min at 4 °C. Transfer the supernatant into a new tube, and extracted again with equal volume of chloroform.
(ii) Add 1/10 volume of 3 M sodium acetate and 2.5 volumes of ethanol to supernatant. After thorough mixing, precipitate RNA pellet by keeping the tube at –80 °C for at least 1 hour.
(iii) The precipitated RNA is collected by centrifugation at maximum speed (≥16000 × g) for 30 min at 4 °C, then wash RNA pellet using 75% pre-cooled ethanol and briefly air dried. Purified RNA is dissolved in RNase-free water.
PAUSE POINT RNA solution can be stored at –80 °C at least for several months.
Evaluation of purified RNA ● TIMING 2-3 hour
5| Check RNA quality by electrophoresis of RNA through agarose gel containing formaldehyde15.
6| Measure RNA concentration by using nano-drop or UV-spectrum. Dilute RNA to appropriate concentration (such as 100 ng/ul) using DEPC-treated water and kept at -80 °C.
PAUSE POINT RNA solution can be stored at –80 °C for several months.
RNA poly(A) tailing and reverse transcription ● TIIMEING 1.5 h
7| Assemble the reaction mixture in a nuclease-free tube on ice:
(i) Components from TaqMan® Reverse Transcription Kit (Applied Biosystems): 1 µl 10 x RT buffer, 2.5 µl 25 mM MgCl2, 2 µl 10mM (2.5 mM each) dNTPs, 0.2 µl RNase inhibitor and 0.625 µl MultiScribe reverse transcriptase.
(ii) Components from Poly(A) Tailing Kit (Ambion): 0.25 µl 10 µM ATP and 0.5 µl E. coli poly(A) polymerase (E-PAP).
(iii) 200 ng of total RNA, 25 pmol of poly(T) adapter (Table 1), then add nuclease-free water to a final volume of 10 µL.
8| The reaction mixture is incubated at 37 ºC for 1 hour, and then diluted into 1ng/ µl with water and stored at –20 ºC.
PAUSE POINT The diluted cDNA solution can be stored at –20 ºC for several months.
Real-time PCR ● TIMING 3 h
9| Prepare PCR reaction mixture by adding 1 µl (diluted) template cDNA (equivalent to 0.1~1 ng total RNA), 5 pmol each of the forward and reverse primers, 10 µl 2×SYBR Green PCR Master Mix (Roche, Applied Biosystems or other equvilent SYBR Green PCR Master Mix) and added water to a final volume of 20 µl.
10| PCR protocol using either standard protocol of the Applied Biosystems’ 7900HT system (option A) or low stringency protocol (option B):
(A) Standard real time PCR protocol is: 10 min preheating followed by 45 cycles of 15 s at 95 °C and 1 min at 60 °C, followed by thermal denaturation to generate dissociation curves for verifying amplification specificity.
(B) Low stringency protocol is: 10 min preheating followed by 45 cycles of 15 s at 95 °C, 30s as low as 55 °C and 1 min at 60 °C, followed by thermal denaturation as above.
Evaluation of expression of amiRNA and related genes by real time RT-PCR● TIMING 1 h
11| Dissociation curve analysis. Peak of product was examined following the protocol in the manual of the ABI 7900HT (Fig. 2).
12| Quantitation. In most cases, amplification efficiencies for amiRNA and related transcripts are near to the maximum (2). Thus, the quantity of amiRNA relative to a reference gene, can be calculated using the formula 2-ΔCT, where ΔCT = (CT miRNA – CT reference RNA)16. To compare gene expression, such as the amiRNA target among different samples, gene expression can be calculated using a comparative CT method17 (ΔΔ CT), and the relative gene expression can be quantified by using the formula of 2-ΔΔCT, where ΔΔCT = (CT miRNA – CT reference RNA) – (CT calibrator – CT reference RNA)12,17. The wild type sample was usually selected as reference sample, or named as “calibrator”, and its expression level represents 100% for normalization in each comparison (Fig. 3).
**Analysis of amiRNA RT-PCR products ● TIMING at least 2d **
13| PCR products for amiRNA are purified using a QIAquick® PCR Purification Kit (Qiagen) following manufacturer’s manual.
14| Purified PCR product DNAs are cloned into TA-vectors using a TOPO TA Cloning® Kit (Invitrogen) and transformed into competent E.coli cells as described in the product manual.
15| Inoculation and culture of a transformed bacterial clone and purification of plasmid DNAs from the bacterial culture is done using a QIAprep® Spin Miniprep Kit following the product manual.
16| Sequencing of plasmid uses universal primers derived from the cloning vectors, and the sequence of the primer unpaired region of the amiRNA PCR product is compared with designed amiRNA ( "Fig. 1":http://www.nature.com/protocolexchange/system/uploads/2061/original/Figure-1_Chiang_s.jpg?132811087 ).