Data on analysis of OCC-1 transcript levels in pluripotent and differentiated states of P19 cells

We investigated the expression of OCC-1 at mRNA level during retinoic acid (RA) induced differentiation of mouse embryonic carcinoma P19 pluripotent cancer cells by quantitative real time PCR (qPCR). By employing four-fold serial dilutions of P19 cDNA, standard curves were generated for the reference gene (L37) and the gene of interest (OCC-1). PCR efficiencies for L37 and OCC-1 were calculated. Since the amplification efficiencies of these two genes were unequal, the standard curve method was used for the relative quantification of OCC-1. Data analysis revealed that the expression of OCC-1 was reduced by about 69% after 4-day treatment with RA, when significant down-regulation of key pluripotency factors, including OCT4 and Nanog was observed [1].


Data description
In mouse, the Ensembl database reports three isoforms including two coding (1500009L16Rik-201 and 1500009L16Rik-203) and one non-coding RNA on the chromosome 10 (1500009L16Rik-202) (Fig. 1). The expression of OCC-1 in EC P19 cells was analyzed by RT-PCR. PCR reaction with OCC-1 specific primers yielded a 100-bp fragment which was verified by Sanger sequencing (Fig. 1, and Table 1). In order to quantify and compare the relative mRNA levels of OCC-1 before and after RAinduced differentiation of P19 cells, three biological replicates for both untreated (control) and RAtreated (test) P19 cells were subjected to RNA extraction and cDNA synthesis. Then, quantitative real-time PCR (RT-qPCR) was performed in triplicates (Fig. 2). Fourfold serial dilutions of P19 cDNA was used to generate standard curves for OCC-1 and L37. Slope of standard curves was used to calculate amplification efficiencyies of L37 and OCC-1 ( Fig. 3 and Table 2). Data analysis using standard curve method showed that transcript level of OCC-1 was reduced to approximately 69% in 4 day-RA-treated P19 cells in comparison with undifferentiated P19 cells ( Fig. 2 and Table 3).

Cell culture and RA-induced differentiation
P19 cells were obtained from Pasteur Institute (Tehran, Iran). They were subjected to differentiation by seeding at a density of 0.2 Â 10 6 in 8-cm diameter bacteriological petri dishes at the presence of a-MEM medium supplemented with 0.5mM RA. After 4 days of RA treatment, differentiated aggregates (EB4) were formed and used for RNA extraction.

Quantitative real-time PCR (RT-qPCR)
Total RNA was isolated using the Total RNA Isolation Kit (DENAzist Asia Co., Mashhad, Iran) according to the manufacture's protocol. The quality and quantity of RNA were evaluated by agarose gel Specifications Table   Subject Molecular Biology Specific subject area Down-regulation of OCC-1 after RA-induced differentiation in P19 cells Type of data Table  Graph  Figure Text Value of the Data To our knowledge, these data for the first time report the presence and expression of OCC-1 in P19 cells which are pluripotent cancer cells. These data are useful because detection of pluripotency associated genes can serve as markers for evaluating the malignancy status of tumor cells. The data will be valuable for researchers who are interested in identifying new isoforms and functions of mouse OCC-1 and the probable role in cancer and pluripotency state. OCC-1 was reported as a pluripotency-associated gene in human [2] and these data reinforce this relationship in mouse. Thus, these data will stimulate other scientists to reveal the underlying relationship between different isoforms of OCC-1 and pluripotency and probable role of OCC-1 in pluripotency network. electrophoresis and Nanodrop spectrophotometry. First strand cDNA was generated in the presence of 1mM dNTPs, 0.5 mg Oligo(dT)18 primer, 1x reverse transcription buffer, and 200 U of reverse transcriptase in a total volume of 20 ml. The reaction was incubated for 60 min at 42 C followed by enzyme inactivation at 72 C for 10 min. The primers and hydrolysis probes for RT-qPCR were designed using "Beacon Designer" software (Table 1). qPCR reaction was performed in a total volume of 25 ml which contained 1 ml cDNA, 1x PCR In order to calculate the PCR efficiency, standard curves for OCC-1 and L37 were generated by employing fourfold serial dilutions of P19 cDNA. The PCR reactions at each serial dilution were performed in triplicates. It is estimated that there are 1.9 Â 10 12 mRNA molecules with an average size of 1000 base in 1 mg of total RNA [3]. Accordingly, we estimated the copy number data of amplicons in 1 mg total RNA for each gene ( Table 2). The standard curves were plotted with the data of Ct values on the "Y" axis and the log 10 copy number of each transcript on the "X" axis (Fig. 3). The slope (S) of the lines were used to calculate PCR efficiencies. The correlation (R 2 ) was 0.99 for OCC-1 and L37 and the amplification efficiencies for OCC-1 and L37 were 89.8% and 100%, respectively. Since the amplification efficiencies of the reference gene (L37) and the gene of interest (OCC-1) were unequal, the standard curve method for relative quantification was used [4].
Three biological replicates were considered for both untreated (control) and RA-treated (test) P19 cells. The value data of Ct for each triplicate was extrapolated onto the standard curve to calculate the copy number data of the transcripts in each group (Table 3). Here, L37 was used as the internal reference gene because its transcription did not change after RA-treatment [1]. To determine changes in the transcript levels of the target gene (OCC-1) after RA treatment, the data were analyzed by the following equations [   Fold difference in the level of target transcript ¼ Normalized target ðtest sampleÞ Normalized target ðcontrol sampleÞ As the data in Table 3 indicated, a 69% reduction for OCC-1 was acquired.

Statistical analysis
A minimum of three replicate experiments were performed for all data. Analysis using Mann Whitney test demonstrated a statistical difference between the control and test groups at a p-value of less than 0.05. Fig. 3. Standard curve for OCC-1. A) Standard curve for OCC-1 is drawn by using log copy number (X axes) and CT (Y axes). B) Fourfold serial dilutions of P19 cDNA was used to draw OCC-1 standard curve. Copy number of OCC-1 product in each dilution was calculated according to this estimate that there are 1.9 Â 10 12 mRNA molecules with an average size of 1000 base in 1 mg of total RNA (Table 2).

Table 2
Estimation of copy number of OCC-1 and L37.

Conflict of Interest
The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Appendix A. Supplementary data
Supplementary data to this article can be found online at https://doi.org/10.1016/j.dib.2020.105367.