RNA Detection

2.6 Microscope and
Imaging Software

1. An inverted widefield fluorescence microscope. We use an
   Olympus IX81 motorized inverted fluorescence microscope
   equipped with a back-illuminated EMCCD camera (Andor), a
   SOLA Light Engine (Lumencor, Beaverton, OR), and a
   CoolLED pE-100 (740 nm, CoolLED pE-100).


2. 100NA 1.45 objective lens.


3. Filter set for DAPI (D350/50, D460/50, 400dclp).


4. Filter set for TMR (HQ545/30, HQ620/60, Q570lp).


5. Filter set for CF640R (ET620/60x, ET700/75 m, T660lpxr).


6. Filter set for Alexa®750 (HQ710/75, HQ810/90 m,
   Q750lp).


7. FIJI software.


8. MATLAB (Version R2014b 64-bit, MathWorks) software.

3 Methods

3.1 RBMB Synthesis 1. Hybridize Oligo1 and Oligo2: Combine equimolar quantities
of Oligo 1 and Oligo 2 in phosphate buffer in a low-retention
microcentrifuge tube so that the final concentration of each
oligo is 50μM and the total volume is at least 50μL.

2. Incubate the oligos on a thermomixer at 37C overnight.


3. Separate RBMBs from unhybridized oligos using a Superdex
   200 or a Superdex 75 prep-grade column.


4. Concentrate purified RBMBs using a Microcon YM-10 centrif-
   ugal device (seeNote 3).


5. Determine the final concentration of the RBMBs on a
   spectrophotometer.

3.2 Cellular Delivery
of RBMBs

RBMBs are delivered into cells by microporation, a physical

method that previous studies show enables efficient cellular delivery

of oligo probes with high viability [5]. Specific procedures to

perform microporation are described below:

1. Seed cells in tissue culture flasks in MEM growth media with-
   out phenol red or antibiotics and let them grow overnight. Be
   cautious not to exceed 70% confluence on day 2 (seeNote 4).


2. Aspirate the media from the cells.


3. Rinse the cells with 5 mL of 1PBS for about 2 min.


4. Aspirate the PBS and add 1 mL of phenol red-free trypsin/
   EDTA.


5. Following incubation of the cells in trypsin for several minutes,
   add media to neutralize the enzyme (seeNote 5).


6. Gently resuspend the cells in media.

Ratiometric Bimolecular Beacons 235