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Figure 1. RNA Quality and Yield. Total RNA was isolated from 5 x 105 K562 cells in 96-well format (Left: Filter Plate; Right: Magnetic beads) and analyzed with an RNA Chip on an Agilent 2100 bioanalyzer. The sharp shape of the ribosomal RNA peaks and the roughly 2:1 ratio of the 28S/18S indicate clean and intact RNA was obtained with both methods. The bead-based RNA isolation method typically gave higher yields of RNA.
Figure 2. RNA Linear Recovery and Consistency. Total RNA was extracted from K562 suspension cell quantities of 32, 160, 800, 4000, 20000 and 100000 cells in 96-well format (Left: Filter Plate; Right: Magnetic beads). Total RNA yield was ~ 18 pg/cell. Total RNA recovered was linearly proportional to cell input as quantified by real-time RT-PCR using a human GAPDH primer/probe set on an ABI7700 sequence detection system. RNA yield is more consistent with the bead method.
1. Exotic Newcastle Disease (END) Viral Isolation from Avian Swabs.
The technology has been successfully used for high throughput END diagnosis by viral RNA isolation followed by qRT-PCR during the 2002/2003 END outbreak in California. Over 100,000 swab samples were processed during the outbreak. All data in this section were generated at the CAHFS lab of UC Davis.
Figure 3. Linear Recovery of END Viral RNA and Sensitivity of Bead-Based Viral RNA Isolation Technology. An END positive sample was diluted up to 1 million-fold with viral transfer medium and subjected to bead-based viral RNA isolation. One-step qRT-PCR was used to detect ENDV from the isolated RNA. Very reliable detection can be achieved with as little as 1 nL of sample.
Figure 4. Reproducibility of Viral RNA Isolation Using Ambion Bead Technology. Three different technicians followed the same protocol to isolate viral RNA from 31 avian swab samples and quantify isolated RNA by real time RT-PCR. They had the same overall performance. The difference among them was <0.5 Ct for any given sample processed.
Figure 5. Example of END Viral Isolation from Avian Swab Samples Followed by qRT-PCR for END Diagnosis. Samples 3-6 were diagnosed and confirmed as END positive. Those samples that did not show any signal in qRT-PCR were all confirmed negative. There are no false positive or false negative results. No cross contamination was observed.
2. Bovine Viral Diarrhea Virus (BVDV) Viral RNA Isolation from Bovine Serum and Plasma.
We have successfully adapted the bead technology for viral RNA isolation from serum and plasma samples. When Armored® RNA is used as a control, we can successfully recover the viral RNA with <1000 copies of Armored RNA input from both serum and plasma samples. For field BVDV-positive serum sample, we can successfully isolate and detect BVDV viral RNA with as little as 50 nL from both serum and plasma samples.
Figure 6. Linear Recovery of Viral RNA from Plasma and Serum Using Armored RNA as a Control. EV Armored RNA was spiked in 50 µl plasma or serum, and viral RNA was isolated following the standard bead protocol. 25% of the isolated viral RNA was used for qRT-PCR.
Figure 7. BVDV Viral RNA Isolation from Serum and Plasma Samples with the Bead Technology. A typical BVD-positive field sample was diluted with BVD-negative serum or plasma, and viral RNA was isolated from 50 µl diluted sample.