Table 3.
Candidate techniques for imaging of HBV nucleic acids: Single cell detection.
| Technique | Modality | Target | Possible Finding | Advantages | Drawbacks | References |
|---|---|---|---|---|---|---|
|
CRISPR/ Cas |
• dCas9-tag: -FP -Sun-tag: -tripartite -Sunspot • sgRNA modification -Aptamers: MS2-MCP, PP7 loops • Cas9 active: -STRIDE |
DNA/ RNA dsDNA/ ssDNA |
• Single molecule detection • HBV nucleic acids kinetic • Quantification • Distinction between cccDNA and partial DNA |
• Fixed and living cells • Allows strategies to improve signal/noise ratio and amplification of signal. • Detection of single molecule and low-abundance of nucleic acids, e.g., Sunspot system • No engineering virus • Specificity • Signal amplification |
• Needs signal amplification strategies like Sun-tag system, however large complexes may interfere with nucleic acids kinetic • Requires expression of specific factors in the host cells. • Not applicable in living cells • Antibodies specificity |
[52] [53] [23] |
| Non-CRISPR/ Cas |
• Aptamer-protein systems | RNA | • Distinction between transcripts (if combined with other methods) | • Fixed and living cells | • Virus engineering • High background • Sensitive folding conditions • Weak photostability |
[54] |
| • Light-up aptamer-dye systems | RNA | • Single-molecules detection possible • Distinction between transcripts (if combined with other methods) |
• Fixed and living cells |
• Virus engineering • Sensitive folding conditions • Weak photostability |
[55,56] | |
| • Molecular beacons | RNA, ssDNA | • Single-molecules detection with advanced microscopes • Distinction between transcripts (if combined with other methods) |
• Fixed and living cells |
• Prone to nucleases • Difficulties with cell entry • Weak photostability • Prone to non-specific signal |
[57,58] | |
| • Quantum-dots / quantum dots-nanobeacons |
RNA, ssDNA | • Single-molecule detection • Distinction between transcripts (if combined with other methods) |
• Fixed and living cells • Strong signal • Strong photostability |
• Cytotoxicity • Difficulties with cell entry due to size • Single-molecules detection |
[59,60] | |
| • ANCHOR | dsDNA | • Single-molecule detection • HBV nucleic acids kinetics possible due to photostability • Distinction between cccDNA and rcDNA |
• High contrast • Signal amplification • Living cells • Photostability due to bleached molecules replenishment |
• Virus engineering • Effect of OR protein on cells unknown • High cytosolic background |
||
| • PNA-based probes | RNA, ssDNA/dsDNA | • Distinction between cccDNA and rcDNA (if combined with other methods) | • Fixed and living cells • High sequence specificity and affinity • Resistant to nucleases • Multiple binding modes make them flexible in function |
• Difficulties with cell entry • Prone to non-specific signal to hydrophobic surfaces • Binding mode dependent on careful design |
[61] [62] [63] [64] |
|
| • Metabolic labeling | dsDNA | • Single-molecules detection • Distinction cccDNA/ rcDNA (if combined with other methods) |
• Labelled infectious virus | • Fixed cells only | [65] |