Figure 2. Linearity of RNA purified from increasing urine volumes. Norgen's Urine Cell-Free Circulating RNA Purification Mini Kit (Cat# 56900) was used to purify RNA from 0.5 mL, 1 mL and 2 mL urine samples. Two microlitres of the purified RNA was then used as the template in RT-qPCR reactions to assess the linearity of the (A) 5S rRNA transcript and (B) miR-21 from the different urine volumes. Norgen's Urine Cell-Free Circulating RNA Purification Mini Kit was able to recover 96% of the 5S rRNA transcript from 1 mL urine relative to the amount that is present in 0.5 mL plasma. Moreover, 96% of the 5S rRNA transcript was recovered from 2 mL urine relative to the amount that is present in 1 mL urine. As for miR-21, Norgen's Urine Cell-Free Circulating RNA Purification Mini Kit was able to recover 92% of miR-21 from 1 mL urine relative to the amount that is present in 0.5 mL urine. Furthermore, 100% of miR-21 was recovered from 2 mL urine relative to the amount that is present in 1 mL urine.

Figure 3. Determination of the amount of inhibition present in urine cell-free circulating RNA samples when detecting the human miR-21. RNA was isolated from 0.5 mL, 1 mL and 2 mL urine using Norgen's Urine Cell-Free Circulating RNA Purification Mini Kit (Cat# 56900). Increasing volumes of the elution (2, 4 and 8 μL) were used in a 20 μL qPCR reaction to observe any decrease in Ct value. An increase in Ct values with increasing amount of template would be a clear indication of PCR inhibitors present in the sample. An increase in elution volume used as a template in the qPCR did not affect the Ct value generated from qPCR and in fact the Ct values tend to decrease with increasing the PCR input volume, indicating that RNA purified from urine using Norgen's kit is free of the common inhibitors usually present in urine.

Figure 4. Purification of cell-free circulating RNA and exosomal RNA from different urine volumes. Norgen's Urine Cell-Free Circulating RNA Purification Midi Kit (Cat# 57000) was used to purify cell-free circulating and exosomal RNA from 2 mL, 5 mL and 10 mL urine samples. Two microlilitres of the purified RNA was then used as the template in RT-qPCR reactions to assess the amplification of (A) the housekeeping 5S rRNA transcript and (B) miR-21. The average Ct value for both (A) 5S rRNA transcript and (B) miR-21 is linearly decreasing with increasing the sample input volume.

Figure 5. Linearity of RNA purified from increasing urine volumes. Norgen's Urine Cell-Free Circulating RNA Purification Midi Kit (Cat# 57000) was used to purify RNA from 2 mL, 5 mL and 10 mL urine samples. Two microlitres of the purified RNA was then used as the template in RT-qPCR reactions to assess the linearity of the (A) 5S rRNA transcript and (B) miR-21 from the different urine volumes. Norgen's Urine Cell-Free Circulating RNA Purification Midi Kit was able to recover 96% of the 5S rRNA transcript from 5 mL urine relative to the amount that is present in 2 mL plasma. Moreover, 97% of the 5S rRNA transcript was recovered from 10 mL urine relative to the amount that is present in 5 mL urine. As for miR-21, Norgen's Urine Cell-Free Circulating RNA Purification Midi Kit was able to recover 98% of miR-21 from 5 mL urine relative to the amount that is present in 1 mL urine. Furthermore, 92% of miR-21 was recovered from 10 mL urine relative to the amount that is present in 5 mL urine.

Figure 6. Determination of the amount of inhibition present in urine cell-free circulating RNA samples when detecting the human miR-21. RNA was isolated from 2 mL, 5 mL and 10 mL urine using Norgen's Urine Cell-Free Circulating RNA Purification Midi Kit (Cat# 57000). Increasing volumes of the elution (2, 4 and 8 μL) were used in a 20 μL qPCR reaction to observe any decrease in Ct value. An increase in Ct values with increasing amount of template would be a clear indication of PCR inhibitors present in the sample. An increase in elution volume used as a template in the qPCR did not affect the Ct value generated from qPCR and in fact the Ct values tend to decrease with increasing the PCR input volume indicating that RNA purified from urine using Norgen's kit is free of the common inhibitors usually present in urine.

Figure 7. Purification of cell-free Circulating RNA and exosomal RNA from different urine volumes. Norgen’s Urine Cell-Free Circulating RNA Purification Maxi Kit (Cat# 57100) was used to purify cell-free circulating and exosomal RNA from 10 mL, 20 mL and 30 mL urine samples. Two microlilitres of the purified RNA was then used as the template in RT-qPCR reactions to assess the amplification of (A) the housekeeping 5S rRNA transcript and (B) miR-21. The average Ct value for both (A) 5S rRNA transcript and (B) miR-21 is linearly decreasing with increasing the sample input volume.

Figure 8. Linearity of RNA purified from increasing urine. Norgen’s Urine Cell-Free Circulating RNA Purification Maxi Kit (Cat# 57100) was used to purify RNA from 10 mL, 20 mL and 30 mL urine samples. Two microlitres of the purified RNA was then used as the template in RT-qPCR reactions to assess the linearity of the(A) 5S rRNA transcript and (B) miR-21 from the different urine volumes. Norgen’s Urine Cell-Free Circulating RNA Purification Maxi Kit was able to recover 95% of the 5S rRNA transcript from 20 mL urine relative to the amount that is present in 10 mL Urine. Moreover, 99% of the 5S rRNA transcript was recovered from 30 mL urine relative to the amount that is present in 20 mL urine. As for miR-21, Norgen’s Urine Cell-Free Circulating RNA Purification Maxi Kit was able to recover 99% of miR-21 from 20 mL urine relative to the amount that is present in 10 mL urine. Furthermore, 96% of miR-21 was recovered from 30 mL urine relative to the amount that is present in 20 mL urine.

Figure 9. Determination of the amount of inhibition present in urine cell-free circulating RNA samples when detecting the human miR-21. RNA was isolated from 10 mL, 20 mL and 30 mL urine using Norgen’s Urine Cell-Free Circulating RNA Purification Maxi Kit (Cat# 57100). Increasing volumes of the elution (2, 4 and 8 μL) were used in a 20 μL qPCR reaction to observe any decrease in Ct value. An increase in Ct values with increasing amount of template would be a clear indication of PCR inhibitors present in the sample. An increase in elution volume used as a template in the qPCR did not affect the Ct value generated from qPCR and in fact the Ct values tend to decrease with increasing the PCR input volume, indicating that RNA purified from urine using Norgen’s kit is free of the common inhibitors usually present in urine.