Tho H. Ho scite author profile

Tho H. Ho

4Publications

61Citation Statements Received

119Citation Statements Given

How they've been cited

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170

117

Affiliations

Ho Chi Minh City International University, Minerva Foundation, Vietnam National University, Ho Chi Minh City

Publications

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Multiple Heat Pulses during PCR Extension Enabling Amplification of GC-Rich Sequences and Reducing Amplification Bias

Orpana

Stenman

2012

Anal. Chem.

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PCR amplification over GC-rich and/or long repetitive sequences is challenging because of thermo-stable structures resulting from incomplete denaturation, reannealing, and self-annealing of target sequences. These structures block the DNA polymerase during the extension step, leading to formation of incomplete extension products and favoring amplification of nonspecific products rather than specific ones. We have introduced multiple heat pulses in the extension step of a PCR cycling protocol to temporarily destabilize such blocking structures, in order to enhance DNA polymerase extension over GC-rich sequences. With this novel type of protocol, we were able to amplify all expansions of CGG repeats in five Fragile X cell lines, as well as extremely GC-rich nonrepetitive segments of the GNAQ and GP1BB genes. The longest Fragile X expansion contained 940 CGG repeats, corresponding to about 2.8 kilo bases of 100% GC content. For the GNAQ and GP1BB genes, different length PCR products in the range of 700 bases to 2 kilobases could be amplified without addition of cosolvents. As this technique improves the balance of amplification efficiencies between GC-rich target sequences of different length, we were able to amplify all of the allelic expansions even in the presence of the unexpanded allele.

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Extendable blocking probe in reverse transcription for analysis of RNA variants with superior selectivity

Ho¹,

Dang²,

Lintula³

et al. 2014

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Here we provide the first strategy to use a competitive Extendable Blocking Probe (ExBP) for allele-specific priming with superior selectivity at the stage of reverse transcription. In order to analyze highly similar RNA variants, a reverse-transcriptase primer whose sequence matches a specific variant selectively primes only that variant, whereas mismatch priming to the alternative variant is suppressed by virtue of hybridization and subsequent extension of the perfectly matched ExBP on that alternative variant template to form a cDNA–RNA hybrid. This hybrid will render the alternative RNA template unavailable for mismatch priming initiated by the specific primer in a hot-start protocol of reverse transcription when the temperature decreases to a level where such mismatch priming could occur. The ExBP-based reverse transcription assay detected BRAF and KRAS mutations in at least 1000-fold excess of wild-type RNA and detection was linear over a 4-log dynamic range. This novel strategy not only reveals the presence or absence of rare mutations with an exceptionally high selectivity, but also provides a convenient tool for accurate determination of RNA variants in different settings, such as quantification of allele-specific expression.

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Novel Heat Pulse Extension-PCR–Based Method for Detection of Large CTG-Repeat Expansions in Myotonic Dystrophy Type 1

Orpana

Alagrund

et al. 2013

The Journal of Molecular Diagnostics

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Myotonic dystrophy type 1 (DM1) is an autosomal-dominant disease caused by an expansion of CTG repeats in the 3' untranslated region of the Dystrophia Myotonica Protein Kinase (DMPK) gene. Detection and accurate sizing of the CTG-repeat expansions is clinically important, because the number of CTG repeats correlates with the disease severity. Because difficulties in PCR amplification over large expansions, molecular diagnosis of DM1 is still primarily based on Southern blotting, which is technically demanding and time consuming and requires large amounts of genomic DNA samples. We have recently discovered that the use of multiple heat pulses during Heat Pulse Extension PCR (HPE-PCR) enables efficient amplification over repetitive and GC-rich sequences. Based on this principle, we have developed an assay for efficient amplification of large CTG-repeat expansions seen in DM1 patients. The HPE-PCR method was able to amplify different DMPK1 repeat expansions of up to 1750 CTG repeats in 78 clinical samples with a varying degree of tissue heterogeneity, even in the presence of the short wild-type allele. The CTG-repeat lengths and fragmentation patterns obtained with HPE-PCR were fully concordant with the original diagnostic Southern blotting results. This novel technique provides a PCR-based platform for molecular diagnosis of DM1, and it has been adopted for routine diagnostic use.

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Formation of lipid raft nanodomains in homogeneous ternary lipid mixture of POPC/DPSM/cholesterol: Theoretical insights

Nguyen

Huynh

2022

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Tho H. Ho

Multiple Heat Pulses during PCR Extension Enabling Amplification of GC-Rich Sequences and Reducing Amplification Bias

Extendable blocking probe in reverse transcription for analysis of RNA variants with superior selectivity

Novel Heat Pulse Extension-PCR–Based Method for Detection of Large CTG-Repeat Expansions in Myotonic Dystrophy Type 1

Formation of lipid raft nanodomains in homogeneous ternary lipid mixture of POPC/DPSM/cholesterol: Theoretical insights

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