RNA Detection

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  1. For background correction, Fiji/ImageJ image analysis soft-
    ware is used to manually pick a surface area where noE. coli
    cells are attached (seeNote 15) and the mean fluorescent signal
    obtained is subtracted from the whole image.


3.4 Dual-Color RNA
Imaging


There is an increasing demand to develop methods that allow for
imaging of multiple RNAs simultaneously in living cells, which
facilitates studies on RNA co-localizations and RNA-RNA interac-
tions. To image two RNAs simultaneously inside live bacterial cells,
the quencher-binding aptamer (DNB) was combined with a
fluorophore-binding aptamer (SRB-2). Using two cognate pairs
of fluorogenic dye–aptamer, namely, SR-MN–SRB-2 and RG-
DN–DNB, we were able to successfully image two ROIs in liveE.
coli(seeNote 16).


  1. The expression plasmid (pET-SRB2-DNB) and control plas-
    mids (pET-DNB and pET-SRB2) are transformed into BL21
    Star™(DE3) competent E. coli cells and transcription is
    induced as mentioned previously in Subheading3.2.

  2. The glass slides are coated with poly-D-lysine as described in
    Subheading3.3.1.
    3.E. colicells expressing the SRB-2 and DNB aptamers are
    prepared for imaging as described in Subheading3.3.2except
    for the following steps.

  3. After washing the unattachedE. colicells (step 6of Subhead-
    ing3.3.2), the wells are incubated with 300μL of imaging
    solution containing 1μM of SR-MN and 1μM of RG-DN.

  4. Aptamers in live bacteria are imaged as mentioned in Subhead-
    ing3.3.3. Filter sets for SR-MN dye are as same as the ones for
    SR-DN (seeFig. 6).


3.5 mRNA Imaging
with Tandem Repeats
of DNB


Imaging mRNA in live bacteria can be quite challenging since they
are not necessarily very abundant and their half-life can be very
short, on the order of several minutes. To this end, tandem repeats
of DNB aptamer can be very advantageous to increase the signal-
to-noise ratio in imaging. Here, we use two different plasmids to
label GFP mRNA; one has only four repeats of DNB (pET-GFP-
4xDNB), while the other one contains 8 repeats of DNB (pET-
GFP-8xDNB).


  1. Both plasmids and pET-GFP (control plasmid) without DNB
    aptamer are transformed into BL21 Star™(DE3) competent
    E. colicells and transcription is induced as mentioned previ-
    ously in Subheading3.2.

  2. The glass slides are coated with poly-D-lysine as described in
    Subheading3.3.1.


298 Murat Sunbul et al.

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