TruSeq Stranded mRNA

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  • General


  • The TruSeq Stranded mRNA library preparation kit constructs stranded RNA libraries that are compatible with Illumina sequencing platforms for Next Generation Sequencing. It targets poly-adenylated RNA (including mRNA and non-coding RNA with poly adenylation) via oligo dT purification for library preparation and requires as little as 100 ng of input RNA. TruSeq Stranded mRNA library preparation kit is a streamline workflow that can use high quality total RNA (RIN>8) or purified mRNA/rRNA-depleted RNA from high quality total RNA (RIN>8).

    TruSeq Stranded mRNA specifically targets poly-adenylated RNA (including coding RNA and non-coding with poly adenylation), while TruSeq Stranded Total RNA prepares RNA libraries based on rRNA depletion, targeting coding RNA and long non-coding RNA.

    TruSeq Stranded mRNA requires high quality RNA (RIN>8) as input and TruSeq Stranded Total RNA can work with degraded / FFPE samples.

    We offer two kits to support the following sample numbers.

    Library Prep Component

    Catalog #

    TruSeq Stranded mRNA (48 samples)

    20020594

    TruSeq Stranded mRNA (96 samples)

    20020595

    The following library prep and index adapter components are available to order through Illumina. From Illumina, order one catalog number for the library prep component and one catalog number for the index adapter component depending on the number of samples for your experiment.

    Library Prep Component

    Catalog #

    TruSeq Stranded mRNA (48 samples)

    20020594

    TruSeq Stranded mRNA (96 samples)

    20020595

     

     

    Index Adapter Option

     

    IDT for Illumina- TruSeq RNA UD Indexes (24 indexes)

    20022370

    IDT for Illumina- TruSeq RNA UD Indexes (96 indexes)

    20022371

    TruSeq RNA CD Indexes- 96 Indexes

    20019792

    TruSeq RNA Single Index Set A- 12 Indexes

    20020492

    TruSeq RNA Single Index Set B- 12 Indexes

    20020493

    Single index adapters are provided in tubes.  Each i7 indexed adapter is paired in its tube with the same universal adapter that contains no (i5) barcode.

    Combinatorial Dual Indexed Adapters are plated pairs of adapters such that every i5 indexed adapter would be paired with each i7 indexed adapter in a arrayed matrix across the plate.

    Unique Dual Indexed Adapters are plated pairs of adapters such that every i5 indexed adapter and every i7 indexed adapter is only used once on a plate. With unique dual index adapters, identification and filtering of indexed hopped reads allow customers to confidently multiplex their samples.

    Illumina recommends using Unique Dual Indexed Adapters for library prep and sequencing on Illumina sequencers.

    No, the recommended SuperScript II and Agencourt AMPure XP 60 ml Kit are user supplied.

    Yes. This will allow to multiplex up to 24 samples if the samples can be covered at the expected coverage. See “What is the recommended read length and type” in the Sequencing section.

  • Protocol


  • Inline controls are nucleic acid fragments added to the library prep sample as internal control to examine the success of a particular step during library preparation process. This can be helpful in troubleshooting the library preparation process when analyzing the sequencing data and contribute to about 0.1% of the total sequencing data.

    The use inline controls are optional; if inline controls are not being used, RSB buffer can be added.

    It is possible to use larger fragment sizes, however, we have found that shorter fragment sizes generate the best coverage. Refer to Appendix A in the referencen guide for more information.

    The safe stopping points in the protocol include:

    • Post second strand cDNA synthesis and cleanup
    • Post adapter ligation and cleanup
    • Post PCR amplification and cleanup

    These tested safe stopping points are labeled in the reference guide.

    We have not tested intermediate QC points as the intermediate products may be limited. 

    Strand specificity is achieved by replacing dTTP with dUTP in the Second Strand Marking Mix (SMM). The incorporation of dUTP in second strand synthesis effectively quenches the second strand during amplification, since the polymerase used in the assay will not incorporate past this nucleotide.

    This specificity is accompanied by the addition of Actinomycin D to the First Strand Master Mix Act D (FSA), which prevents spurious DNA dependent synthesis during first strand synthesis, allowing RNA-only dependent synthesis.

    Illumina’s proprietary method ensures ligation of 2 different adapters in the required orientation to opposing ends of a DNA fragment. PCR selects for these and finalizes the construct ready for hybridizing onto the flow cell surface. 

    When preparing the libraries, it is important to choose indexes unique for each sample that will be multiplexed together and that this group of indexes is color balanced.

    Color balance during the index read is necessary to ensure proper image registration. To ensure color balancing, make sure there is a mixture of each of the color channels (red or green) at each cycle so that the image is properly registered and a base call will be generated with high quality. If no base is called, the index read may not be able to be matched with the sequence specified in the sample sheet, resulting in demultiplexing failure.

    Refer to the following two questions “How do I choose the best index combinations for my sample prep” and “How do I choose index combinations if I pool a smaller number of samples (<12)” for more information.

    Longer drying times may be required depending on environmental variability and the amount of ethanol remaining in the well.  

    Use qPCR to quantitate the libraries. Samples should be quantified prior to pooling to achieve even pooling.

    We have tested storing dsDNA libraries at -20ºC up to 7 days. For longer storage, Illumina recommends adding Tween-20 to a final concentration of 0.1% and storing concentrated libraries in a LoBind tube. It is also recommended to perform library QC and quantitation immediately prior to sequencing.

    Peaks around 120-130 bp may represent adapter dimers. These can be removed with an additional bead cleanup step.

  • Sequencing


  • Download Illumina Experiment Manger and choose the index adapter option you have chosen for your experiment when setting up the Sample Sheet.

    If we are sequencing on the Nextseq System, we can set up indexing information in PrepTab on BaseSpace or BaseSpace OnSite Sequence Hub to demultiplex on BaseSpace.

    After DNA amplification, stranded information is maintained via the directionality of the ligated adapters. Briefly, the orientation of the adapters in the libraries and the sequencing direction on the Illumina platform determine that Read 1 sequences will be identical to the antisense strand of DNA, which is also the first strand cDNA. 

    Only the first strand cDNA is amplified and sequenced. 

    Projects that are in-progress may keep their current configuration and workflow (non-stranded) rather than changing protocols in the middle of the study.

    If we need to compare sequencing data from stranded and non-stranded sequencing data, pooling reads from paired-end stranded runs is equivalent to pooling the same number of reads from non-stranded single read runs (i.e., 2 million reads each of read 1 and read 2 pooled together (4 M total) is identical to 4 million reads of read 1 of a non-directional library).

    For runs on the HiSeq 2500 and HiSeq 3000/4000, sample sheets are optional unless BaseSpace Sequence Hub or BaseSpace Onsite Sequence Hub will be used to perform data analysis. In addition, using a sample sheet for a HiSeq 2500 run allows you to view data shown on the indexing tab in the Sequencing Analysis Viewer (SAV) during the run.

    NextSeq and MiniSeq runs do not require a sample sheet to start the run either. If the data are being streamed to BaseSpace Sequence Hub or using BaseSpace Onsite Sequence Hub, setting up the run Prep tab will allow FASTQ generation and visualization of indexing data on the Indexing QC tab on BaseSpace.

    For runs on any sequencing instrument, if demultiplexing will be performed with bcl2fastq2 conversion software, a sample sheet is required.

    MiSeq runs on the other hand, require a sample sheet when setting up the run.

    Illumina recommends that you create the sample sheet using the Illumina Experiment Manager (IEM) software prior to performing library prep in order to confirm appropriate index combinations.

    The read length and format (single read versus paired end) are important considerations in the design of RNA sequencing experiments. The table below provides guidance on some factors to consider. These recommendations are based on internal and external data, but do not represent strict cut-offs. Needs for individual projects may vary based on multiple variables as well as user preference. Literature needs to be consulted for the most up to date resources.

    Applications

    Read Type

    Read Depth/sample (mRNA/Total RNA) (Millions of Reads)

    Gene profiling (gene-level counts)

    1 x 50

    >5 M / >10 M

    Discovery (alternative transcripts, gene fusions, etc.)

    2 x 75

    ≥50 M / >100 M

    Complete transcriptome annotation

    2 x 75 - 100

    ≥100 M / ≥200 M

    Due to the directional nature of the TruSeq Stranded RNA assays, paired-end sequencing captures both ends of the RNA fragment. Therefore, paired-end sequencing can help with data alignment, discovery of novel transcripts, and identification of PCR duplicates.