As shown in Fig 1D, one guanylic acid “G” extended at the 3′-end

As shown in Fig. 1D, one guanylic acid “G” extended at the 3′-end of 891-MMP1F′ oligonucleotide, as indicated by “s”, was designed to avoid frame shift mutation in the following codons of AcGFP1. To determine the optimal transfection concentration of reporter Cetuximab plasmid and suitable time for fluorescence assay, the MeWo cells were treated with 25 μL Xfect™ Transfection Reagent. The fluorescent expression of cells at 24, 48 and 72 h post transfection of 506-MMP1-pAcGFP1-N3 increased with the duration of incubation time (Fig. 3). Nevertheless, it increased with the increase of vector concentration (0.5, 0.75, 1.0, and 1.5 μg) (Fig. 4). According to the data

obtained, the highest fluorescent intension was observed at 72 h incubation time, while the optimal concentration for the reporter vector concentration was 1.0 μg. Although the 72 h was determined to be the optimal time, the 48 h also had considerable fluorescent intensity for the following interfering experiments. To avoid contamination during cell cultivation and for the consideration of cell life-time, 48 h incubation time and 1.0 μg of the reporter vector concentration was chosen for the following experiments. MMP1 partial cDNA-pAcGFP1-N3, 506-MMP1-pAcGFP1-N3 (506 plasmid), 859-MMP1- pAcGFP1-N3

(859 plasmid), and 891-MMP1- pAcGFP1-N3 (891 plasmid) plasmids were used to evaluate the gene silencing DAPT nmr efficacy according to intensity of green fluorescence expressed from these reporter systems. The 506, 859, and 891 plasmids, target 506 siRNA, 859 siRNA, 891 siRNA, and a negative

control siRNA (neg siRNA) (Invitrogen) with GC content of 48% (similar to that of target siRNA between 45% and 55%) were transfected separately into MeWo cells. Since Xfect™ Transfection Reagent would cause cells toxicity and affect fluorescent expression, cell HA-1077 datasheet viability was examined by MTT reagent right after the treatment of fluorescent assay to exclude deviation. The fluorescent expression of each cell was obtained from the fluorescent expression divided by cell viability, and the fluorescent expression of control group (no siRNA) was used as background to ensure non-specific complementation or other genes inhibition. Furthermore, to emphasize that the designed target siRNAs caused the influence effect, the MeWo cells transfected with different concentrations of neg siRNA were assayed. According to the fluorescent photos and the statistical data of the results, no significant changes in fluorescent intensity and cell survival rate of MeWo cells transfected with different concentrations of neg siRNA was obtained (Fig. 5A and Fig. 6). However, when treated with the designed target siRNA, the fluorescent expression decreased with the increase of siRNA concentration and the influence efficiency was more significant (Fig. 5B and Fig. 6), suggesting it was dose-dependent.

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