Copyright
©The Author(s) 2016.
World J Gastroenterol. May 28, 2016; 22(20): 4824-4834
Published online May 28, 2016. doi: 10.3748/wjg.v22.i20.4824
Published online May 28, 2016. doi: 10.3748/wjg.v22.i20.4824
Table 1 Conserved genomic regions used as templates for amplification of hepatitis viruses in qPCR assays
| Virus | Conserved region | Ref. |
| HAV | 5’ UTR | [4,15,20,22] |
| HBV | S-gene | [4, 19-21] |
| X-gene | [15] | |
| HCV | 5’ UTR | [4,15,19-21] |
| HDV | Ribozyme-1 | [20] |
| HEV | ORF2 | [15,22] |
| ORF3 | [20] | |
| HGV | 5’ UTR | [20] |
Table 2 Chemistries/Dyes used in qPCR assays
| S. NO. | Class | Types | Structure | Mechanism of action | Advantages | Applications |
| 1 | DNA binding dyes | Ethidium Bromide, SYBR Green, SYBR Gold, YO-PRO-1, SYTO, BEBO, BOXTO, EvaGreen | Intercalating dyes | Bind to the minor groove of dsDNA during amplification | Inexpensive | Pathogen detection |
| Easily available | Gene expression | |||||
| SNP detection | ||||||
| Genotyping | ||||||
| 2 | Fluorophore labeled oligonucleotide | Primer probes | ||||
| Hairpins: Scorpions, Ampliflour, LUX | Loop based oligonucleotides | Bind to target during denaturation with emission of fluorescence | Inexpensive, Prevent formation of primer dimer, Less background signals | Pathogen detection | ||
| Genotyping | ||||||
| SNP allelic discrimination | ||||||
| Mutation detection | ||||||
| Cyclicons | Cyclic structure with reporter at 3’ end and quencher at 5’ end | Reporter and quencher in close proximity with energy transfer via FRET quenching. Their separation results in fluorescence emission during amplification | Inexpensive | Pathogen detection | ||
| Less contamination | Genotyping | |||||
| Less background signals | SNP allelic discrimination | |||||
| Mutation detection | ||||||
| Angler | Probe with DNA sequence bound to reverse primer through a HEG linker | During annealing step, DNA polymerase does extension of 3’ end reverse primer. Later on, SYBR Gold dye intercalates in dsDNA emitting fluorescence | Highly specific | Gene expression | ||
| Pathogen detection | ||||||
| SNP detection | ||||||
| Genotyping | ||||||
| Probes | ||||||
| Hydrolysis Probes: TaqMan probes, MGB-TaqMan, Snake assay | Oligonucleotide with reporter at 5’ and quencher at 3’ end | Probe is degraded by 5’ to 3’ exonuclease activity of DNA polymerase generating fluorescence during extension | Design and synthesis easy | Microarray validation | ||
| Pathogen detection | ||||||
| SNP allelic discrimination | ||||||
| Mutation detection | ||||||
| Hybridization probes: Hybprobes, Molecular Beacon, HyBeacon, MGB Probes | A pair of oligonucleotides having reporter dye on first and quencher on second oligonucleotide | Binding to target during hybridization and annealing brings fluorophore into proximity producing fluorescence by FRET | Design and synthesis quick and easy | Microarray validation | ||
| Pathogen detection | ||||||
| Viral/Bacterial genotyping | ||||||
| SNP allelic discrimination | ||||||
| Mutation detection | ||||||
| Nucleic acid analogues | ||||||
| PNAs, LNAs, ZNAs | Intercalating/inserting dyes | Identical to conventional oligonucleotides | Resistant to nuclease and proteases activity | Discriminate between DNA and cDNA in prokaryotes | ||
| Non-natural bases | ||||||
Table 3 Global status of multiplex qPCR developed for hepatitis viral infections with and without other pathogens
| No. | Assay systems | Instruments used | Group of pathogens detected | Types of chemistries/detection methods used | Ref. | |
| Hepatitis viruses | Other pathogens | |||||
| 1 | Multiplex real time PCR | Mx4000 (Stratagene) | HBV, HCV | HIV type-1, T. pallidum | TaqMan-LNA probe | [21] |
| 2 | Multiplex real time PCR | Light cycler 480 (Roche) | HEV genotypes | - | N.A. | [41] |
| 3 | Real time PCR assay | ABI 7500 (Applied Biosystems) | HAV, HBV, HCV, HDV, HEV | - | TaqMan Array card | [42] |
| 4 | Multiplex qPCR assay | Light cycler 480 (Roche) | HBV, HDV | - | TaqMan probe | [43] |
| 5 | Multiplex qPCR assay | ABI 7500 (Applied Biosystems) | HAV, HEV | - | Hydrolysis probe | [22] |
| 6 | Multiplex qRT-PCR | N.A. | HAV | Norovirus genotypes 1 and 2 | TaqMan probe | [44] |
| 7 | Multiplex ligation dependent probe real time PCR | Rotor-GeneQ (Qiagen) | HBV mutants | - | TaqMan probe | [45] |
| MLPA probe | ||||||
| 8 | Multiplex real time RT-PCR | N.A. | HEV genotypes | - | N.A. | [46] |
| 9 | Multiplex qPCR | N.A. | HBV genotypes | - | SYBR Green | [47] |
| 10 | Multiplex Real time PCR | N.A. | HAV | Norovirus, Rotavirus, Coxsackievirus | TaqMan probe | [48] |
| 11 | Multiplex Real time PCR | Light cycler 2.0 (Roche) | HAV, HBV, HCV and HEV | - | FRET probe | [15] |
| 12 | Multiplex RT-PCR | ABI 2720 (Applied Biosystems) | HCV | HIV type-1 | SYBR Green I | [8] |
| 13 | Multiplex qPCR | N.A. | HAV, HEV | Entero and Adeno-viruses | N.A. | [49] |
| 14 | Multiplex Real-Time PCR Assay | CFX96 (Bio-Rad) | HAV, HBV, HCV | - | READ technology based fluorophore | [4] |
| 15 | RT PCR assay | Smart cycler II (Cepheid) | HBV, HCV | - | TaqMan probe | [50] |
| 16 | Duplex real time PCR | ABI 7500 (Applied Biosystems) | HBV variants | - | Hydrolysis probe | [51] |
| 17 | Multiplex RT PCR | N.A. | HCV subtyping | - | Electrophoresis | [52] |
| 18 | Multiplex qPCR | N.A. | HBV genotypes | - | N.A. | [53] |
| 19 | Multiplex qPCR | N.A. | HCV | HIV type-1 | SYBR Green I | [54] |
| 20 | Duplex real-time RT-PCR | ABI Prism system (Applied Biosystems) | HCV variants | - | Hydrolysis probe | [55] |
| 21 | Multiplex real time PCR | N.A. | HAV | Norovirus genotypes 1 and 2 | N.A. | [56] |
| 22 | Duplex real-time qRT-PCR | ABI Prism 7000 (Applied Biosystems) | HAV | MS2 bacteriophage | MGB-TaqMan probe | [57] |
| 23 | Multiplex TaqMan RT-qPCR system | MX30005P (Stratagene) | HEV | FCV | TaqMan probe | [58] |
| 24 | Multiplex real time PCR | ABI 7300 (Applied Biosystems) | HBV genotypes | - | TaqMan probe | [59] |
| 25 | Real time PCR | N.A. | HBV genotypes | - | TaqMan probe | [60] |
| 26 | Multiplex real time PCR | Mx3005P (Stratagene) | HEV | FCV | TaqMan probe | [61] |
| 27 | Multiplex RT PCR assay | ABI Prism 7500 (Applied Biosystems) | HCV | PDV | MGB hybridization probe | [62] |
| 28 | Multiplex qPCR assay | N.A. | HBV | B19, HHV-8, EBV, CMV, VZV | N.A. | [63] |
| 29 | Multiplex qPCR | N.A. | HBV, HCV | HIV type-1 | SYBR Green I | [16] |
| 30 | Multiplex Real Time PCR | ABI 7500 (Applied Biosystems) | HBV mutants | - | LNA probes with SYBR Green I | [64] |
| 31 | Microarray multiplex assay | ABI Prism 7700 (Applied Biosystems) | HBV, HCV | HIV type-1 | Oligonucleotide array labeled with Cy5 and Cy3 | [65] |
| 32 | Real time multiplex PCR | N.A. | HAV | Entero and Adeno-viruses | Probes labeled with FAM, R6G, ROX, Cy5 | [66] |
| 33 | Multiplex real time RT-PCR | LightCycler (Roche) | HCV | HIV type-1 | SYBR Green | [67] |
| 34 | Real time multiplex PCR | icycler iQ (Bio-Rad) | HCV variants | - | TaqMan probes | [68] |
| 35 | Multiplex real-time RT PCR | ABI 7000 (Applied Biosystems) | HCV genotypes | - | Primer probes | [69] |
| 36 | Multiplex real-time qPCR | Mx4000 (Stratagene) | HBV, HCV | HIV type-1 | TaqMan probes | [70] |
| 37 | Automated multiplex PCR | ABI Prism 7700 (Applied Biosystems) | HBV, HCV | HIV type-1 | TaqMan probes | [71] |
- Citation: Irshad M, Gupta P, Mankotia DS, Ansari MA. Multiplex qPCR for serodetection and serotyping of hepatitis viruses: A brief review. World J Gastroenterol 2016; 22(20): 4824-4834
- URL: https://www.wjgnet.com/1007-9327/full/v22/i20/4824.htm
- DOI: https://dx.doi.org/10.3748/wjg.v22.i20.4824