RNA Detection

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  1. Centrifuge the lyophilized oligonucleotides at 600gfor
    2 min and carefully add TE to the tube after centrifuging to
    dissolve the probes to 100μM with vigorous shaking.

  2. SYBR Green I must be protected from light and stored at 4C.
    The concentration of SYBR Green I stock solution is 10,000
    and the optimal final concentration is 4. Dilute directly from
    stock solution before use.

  3. Target probe (Target oligo) consists of two regions that linked
    with a ‘TTTTT’ structure. The first region located on the 3^0 -
    end can hybridize with capture probe in the 96-well plate, and
    the second region on the 5^0 -end triggers the cascade chain
    reaction of two hairpin sets.

  4. Make sure the wells are completely sealed so the solution in the
    well won’t evaporate during incubation.

  5. Unlike previously reported HCR systems in solution, our assay
    is an on-site amplification technology. Leaky hairpins will be
    washed off without contributing to the background. Thus, we
    can maximize polymerization without being overly concerned
    about leakiness by using shorter hairpins, improving the sensi-
    tivity and making hairpin design easier.

  6. Mix the hairpin probes just before use. Probe X1* and probe
    X2 are paired with final concentration of 1μM. Cascade chain
    reaction will be triggered in the presence of target probe.

  7. Hairpin probe X1* has an additional hangout sequence at the
    50 -end that does not form double strand structure after poly-
    merization, but instead, act as the initiating probe for the
    second step of polymerization.

  8. The direct RNA detection assay is comprised of two parts: the
    first part is a specific RNA capture, and the second part is signal
    amplification through 2-dimensional hybridization chain reac-
    tions. Multiple LE probes per target could be a first step to
    signal amplification by providing many initial probes for the
    subsequent detection. Adaptor probes that simultaneously
    hybridize to the tails of LEs mediate the capture and amplifica-
    tion systems. The introduction of adaptor probe enables inde-
    pendent designing of DNA probes in capture stage and
    detection stage, making the assay more flexible. As a result,
    the method can be used to detect any suitable RNA or DNA
    targets by designing new target-specific CEs and LEs probes,
    while keeping the same hairpin sets used in this study. Also, a
    sequence of “TTTTT” is inserted into the two binding regions
    of adaptor probe, resulting in better signal amplification than
    that without “TTTTT”.

  9. Multiple oligonucleotide probes capture the RNA on 96-well
    plate in the capture stage. Based on our previous study, this


Hybridization Chain Reaction for Direct RNA Detection 195
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