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Overview
Enzymatic incorporation of an amine-modified nucleotide during RT and the subsequent chemical coupling of the cDNA with fluorescent succinimidyl esters is a preferred labeling method for many scientists performing expression analysis on DNA microarrays.
Introduction
The SuperScript™ Plus Indirect cDNA Labeling System is a highly efficient system for generating fluorescently labeled cDNA for use on microarrays in gene expression studies. It uses an aminoallyl-modified nucleotide and an aminohexyl-modified nucleotide together with other dNTPs in a cDNA synthesis reaction with SuperScript™ III Reverse Transcriptase. After a purification step to remove unincorporated nucleotides, the amino-modified cDNA is coupled with a monoreactive, N-hydroxysuccinimide (NHS)-ester fluorescent dye included in the kit - either Alexa Fluor® 555 succinimidyl ester or Alexa Fluor® 647 succinimidyl ester. A final purification step removes any unreacted dye, and the fluorescently labeled cDNA is ready for hybridization to microarrays.
This system uses 5–20 µg of total RNA or 0.4–2 µg of mRNA as starting material. Catalog nos. L1014-05 and L1014-06 include a Purification Module containing Low-Elution-Volume Spin Cartridges that yield a highly pure, highly concentrated sample.
Advantages of the System
Advantages of SuperScript™ III Reverse Transcriptase
SuperScript™ III Reverse Transcriptase is an engineered version of M-MLV RT with reduced RNase H activity and increased thermal stability. The enzyme can be used to synthesize first-strand cDNA from total RNA or mRNA at temperatures up to 55 ° C, providing increased specificity, higher yields of cDNA, and more full-length product than other reverse transcriptases.
The SuperScript™ III RT in this kit is provided at an optimal concentration and used at an optimal temperature for incorporating amino-modified nucleotides in first-strand cDNA synthesis.
Experimental Outline
The flow chart below outlines the experimental steps of the system
:
Alexa Fluor® 555 and Alexa Fluor® 647 Reactive Dyes
The Alexa Fluor® 555 and Alexa Fluor® 647 dyes included in this kit are compatible with commonly used microarray scanners, and provide greater signal correlation (R2) values than the spectrally similar Cy™3 and Cy™5 dye pair, improving the resolution of two-color microarray gene expression assays. The exceptionally bright Alexa Fluor® dyes are also insensitive to pH and are highly water-soluble. The table below shows the excitation and emission maxima and color of each dye:
Dye Excitation/Emission (nm) Color
Alexa Fluor® 555 555/565 Orange Fluorescent
Alexa Fluor® 647 650/670 Far-Red Fluorescent
Anchored Oligo(dT)20
Anchored oligo(dT)20 primer is a mixture of 12 primers, each consisting of a string of 20 deoxythymidylic acid (dT) residues followed by two additional nucleotides represented by VN, where V is dA, dC, or dG, and N is dA, dC, dG or dT.
The VN “anchor” allows the primer to anneal only at the 5 US end of the poly(A) tail of mRNA, providing more efficient cDNA synthesis for labeling applications.
Control Reaction
We recommend performing the labeling procedure using the Control HeLa RNA included in the system to determine the efficiency of the labeling reaction. The section on First-Strand cDNA Synthesis describes how to set up the control reaction and Assessing Labeling Efficiency has equations for calculating the efficiency of the labeling procedure.
Kit Sizes and Modules
All versions of the SuperScript™ Plus Indirect cDNA Labeling System are supplied with a Core Module and a Dye Module. Catalog nos. L1014-05 and L1014-06 also include a Purification Module.
Cat no. Number of Labeling Reactions Modules
L1014-04 30 Core and Dye only
L1014-05 10 Core, Dye, and Purification
L1014-06 30 Core, Dye, and Purification
Shipping and Storage
The Core Module and Dye Module are shipped on dry ice, and the Purification Module is shipped at room temperature. Upon receipt, store the components of the Core and Dye Modules at -20°C, and store the components of the Purification Module at room temperature.
Core Module
Store at -20° C.
Kit Size | |||
Item | Components/Concentration | 10 Rxns | 30 Rxns |
SuperScript
™ III Reverse Transcriptase
|
400 U/µl in:
20 mM Tris-HCl (pH 7.5)
100 mM NaCl
0.1 mM EDTA
1 mM DTT
0.01% (v/v) NP-40
50% (v/v) glycerol
| 20 µl | 60 µl |
5X First-Strand Buffer
|
250 mM Tris-HCl (pH 8.3, room temp)
375 mM KCl
15 mM MgCl
2 | 60 µl | 200 µl |
Dithiothreitol (DTT)
|
0.1 M DTT in water
| 250 µl | 250 µl |
dNTP Mix
|
dATP, dGTP, dCTP, dTTP, one aminoallyl-modified nucleotide, and one aminohexyl-modified nucleotide in DEPC-treated water
| 15 µl | 45 µl |
2X Coupling Buffer
|
—
| 50 µl | 300 µl |
Anchored Oligo(dT)
20 primer
|
2.5 µg/µl in DEPC-treated water
| 20 µl | 60 µl |
Random hexamer primers
|
0.5 µg/µl in DEPC-treated water
| 10 µl | 30 µl |
DMSO
|
—
| 200 µl | 750 µl |
RNaseOUT
™ |
40 U/µl
| 10 µl | 30 µl |
DEPC-treated Water
|
—
| 2 ml | 6 ml |
Control HeLa RNA
|
1 µg/µl
| 20 µl | 20 µl |
Dye Module
Store at -20° C.
Item | Components/Concentration | Kit Size | |
10 Rxns | 30 Rxns | ||
Alexa Fluor
® 555 Reactive Dye Pack
|
60 µg dried-down dye per vial
| 5 vials | 3 x 5 vials |
Alexa Fluor
® 647 Reactive Dye Pack
|
60 µg dried-down dye per vial
| 5 vials | 3 x 5 vials |
Purification Module
Store at room temperature. This module is included with Catalog Numbers L1014-05 and L1014-06.
Kit Size | ||
Component | 10 Rxns | 30 Rxns |
Low-Elution Volume Spin Cartridges (with collection tubes)
| 2 x 11 columns | 6 x 11 columns |
Binding Buffer (must be combined with 100% isopropanol to create final buffer; see
Preparing the Buffers)
| 2 x 5.5 ml | 2 x 18 ml |
Wash Buffer (must be combined with 100% ethanol to create final buffer; see
Preparing the Buffers)
| 2 x 2 ml | 2 x 5 ml |
Amber collection tubes
| 2 x 11 tubes | 6 x 11 tubes |
Materials Supplied by the User
In addition to the kit components, you should have the following items on hand before using the SuperScript™ Indirect cDNA Labeling System.
Component | Volume |
---|---|
5–20 µg total RNA or 0.4–2 µg mRNA | X µl |
Anchored Oligo(dT)20 Primer (2.5 µg/µl) | 2 µl |
Random hexamers (only if using mRNA) | 1 µl * |
DEPC-treated water | to 18 µl |
Component | Volume |
---|---|
5X First-Strand buffer | 6 µl |
0.1 M DTT | 1.5 µl |
dNTP mix (including amino-modified nucleotides) | 1.5 µl |
RNaseOUT™ (40 U/µl) | 1 µl |
SuperScript™ III RT (400 U/µl) | 2 µl |
Final Volume | 30 µl |
Catalog nos. L1015-05 and L1015-06 include a Purification Module developed for use with the system. Follow the procedure below to purify your labeled cDNA using this module.
Catalog no. L1015-04 does not include a Purification Module. Use your preferred method of cDNA purification instead of the following procedure, and then continue to hybridization.
The PureLink™ PCR Purification System (K3100-01 and K3100-02) has been tested with this kit, and is recommended if you are using catalog no. L1015-04.
Before Starting
The following items are supplied by the user:
The following items are supplied in the Purification Module:
Purification Procedure
Use the following procedure to purify the cDNA using the components of the Purification Module (Catalog nos. L1015-05 and L1015-06).
The sample can stored at –20° C for up to one week prior to hybridization. Avoid freeze/thawing. To determine the efficiency of the labeling reaction, proceed to Assessing Labeling Efficiency.
Because of the high purity of the cDNA from the Low-Elution Volume Spin Cartridges included with catalog nos. L1015-05 and L1015-06, the yield and picomole dye incorporation calculations will be more accurate than with other purification methods.
For example, the 1.2% E-Gel below shows purification results from an indirect labeling method. Lanes 1 and 2 contain Alexa Fluor® 555-labeled cDNA purified using the Low-Elution Volume Spin Cartridges, and Lanes 3 and 4 contain Alexa Fluor® 555-labeled cDNA purified using columns from another manufacturer. The labeled cDNA appears as smear from 500–5,000 bp. The large band at the bottom of Lanes 3 and 4 is unincorporated dye that was not removed by the other manufacturer’s purification column. Such material would be included in the picomole dye incorporation calculations, resulting in an incorporation level that is higher than theoretically possible. For this reason, we strongly recommend using the purification columns provided with catalog nos. L1015-05 and L1015-06. |
Problem | Cause | Solution |
28S and 18S bands are not observed after isolation of total RNA and agarose gel electrophoresis
|
Too little RNA loaded on the gel
|
Be sure to load at least 250 ng of RNA for analysis.
|
RNA is degraded due to RNase activity
|
Follow the guidelines to avoid RNase contamination.
Use a fresh sample for RNA isolation.
| |
28S band is diminished or low molecular weight RNA appears in the gel
|
RNA is degraded
|
Follow the guidelines to avoid RNase contamination.
Use a fresh sample for RNA isolation.
|
Yield of cDNA is low
|
Temperature too high during cDNA synthesis
|
Perform the cDNA synthesis at 46°C.
|
Incorrect reaction conditions used
|
Verify that all reaction components are included in the reaction and use reagents provided in the system.
Verify the reaction conditions using the Control HeLa RNA provided in the kit.
| |
Concentration of template RNA is too low
|
Increase the concentration of template RNA. Use at least 10 µg of total RNA or 0.4 µg of mRNA.
| |
Poor quality RNA used or RNA is degraded
|
Check the quality of your RNA preparation
. If RNA is degraded, use fresh RNA.
| |
RNase contamination
|
Use the RNaseOUT
™ included in the kit to prevent RNA degradation.
| |
RT inhibitors are present in your RNA sample
|
Inhibitors of RT include SDS, EDTA, guanidinium chloride, formamide, sodium phosphate and spermidine (Gerard, 1994). Test for the presence of inhibitors by mixing 1 µg of Control HeLa RNA with 25 µg total RNA or 1 µg mRNA and compare the yields of first-strand synthesis.
| |
Improper storage of SuperScript
™ III RT |
Store the enzyme at -20°
C. | |
Reagents were not properly mixed before use.
|
Repeat the procedure, being careful to briefly vortex and centrifuge each reagent before use.
| |
cDNA has been lost in the purification step
|
Measure the amount of cDNA produced by the Control RNA before and after purification. Follow the purification procedure without modifications.
| |
Amount of incorporated labeled nucleotides in the control reaction is low and/or fluorescence of labeled cDNA is low
|
Reaction tubes have been exposed to light
|
Avoid direct exposure of the labeling reaction to light. Use the amber tube provided in the kit for collection of the final product.
|
Inefficient labeling due to improper purification
|
Follow all purification steps carefully and without modification.
| |
Starting amount of RNA is too low
|
Increase the amount of starting RNA
|