Justin Pham scite author profile

Justin Pham

4Publications

91Citation Statements Received

145Citation Statements Given

How they've been cited

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139

Affiliations

University of Toronto, Baylor College of Medicine, University of California, Davis

Publications

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Somatic mosaicism detected by exon-targeted, high-resolution aCGH in 10 362 consecutive cases

et al. 2014

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Somatic chromosomal mosaicism arising from post-zygotic errors is known to cause several well-defined genetic syndromes as well as contribute to phenotypic variation in diseases. However, somatic mosaicism is often under-diagnosed due to challenges in detection. We evaluated 10 362 patients with a custom-designed, exon-targeted whole-genome oligonucleotide array and detected somatic mosaicism in a total of 57 cases (0.55%). The mosaicism was characterized and confirmed by fluorescence in situ hybridization (FISH) and/or chromosome analysis. Different categories of abnormal cell lines were detected: (1) aneuploidy, including sex chromosome abnormalities and isochromosomes (22 cases), (2) ring or marker chromosomes (12 cases), (3) single deletion/duplication copy number variations (CNVs) (11 cases), (4) multiple deletion/duplication CNVs (5 cases), (5) exonic CNVs (4 cases), and (6) unbalanced translocations (3 cases). Levels of mosaicism calculated based on the array data were in good concordance with those observed by FISH (10–93%). Of the 14 cases evaluated concurrently by chromosome analysis, mosaicism was detected solely by the array in 4 cases (29%). In summary, our exon-targeted array further expands the diagnostic capability of high-resolution array comparative genomic hybridization in detecting mosaicism for cytogenetic abnormalities as well as small CNVs in disease-causing genes.

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Exome sequencing detection of two untranslated GFPT1 mutations in a family with limb‐girdle myasthenia

et al. 2013

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The term 'limb-girdle myasthenia' (LGM) was first used to describe three siblings with proximal limb weakness without oculobulbar involvement, but with EMG decrement and responsiveness to anticholinesterase medication. We report here that exome sequencing in the proband of this family revealed several sequence variations in genes linked to proximal limb weakness. However, the only mutations that cosegregated with disease were an intronic IVS7-8A>G mutation and the previously reported 3'-UTR c.*22C>A mutation in GFPT1, a gene linked to LGM. A minigene assay showed that IVS7-8A>G activates an alternative splice acceptor that results in retention of the last seven nucleotides of intron 7 and a frameshift leading to a termination codon 13 nucleotides downstream from the new splice site. An anconeus muscle biopsy revealed mild reduction of the axon terminal size and postsynaptic fold simplification. The amplitudes of miniature endplate potentials and quantal release were also diminished. The DNA of the mildly affected father of the proband showed only the intronic mutation along with sequence variations in other genes potentially relevant to LGM. Thus, this study performed in the family originally described with LGM showed two GFPT1 untranslated mutations, which may cause disease by reducing GFPT1 expression and ultimately impairing protein glycosylation.

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mini-MEndR: A 96-well mixed species culture assay to co-evaluate human and mouse Pax7⁺cell-mediated skeletal muscle repair

Gulati

Davoudi

Rjaibi

et al. 2023

Preprint

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Functional evaluation of novel molecules that promote stem cell mediated endogenous repair often require multiplexed in vivo transplant studies that are low throughput and hinder the rate of discovery. Here, we optimized and miniaturized a previously developed muscle endogenous repair (MEndR) in vitro assay that captures significant events of in vivo muscle endogenous repair to offer greater throughput for functional validation studies. The mini-MEndR assay consists of miniaturized cellulose scaffolds designed to fit in 96-well plates, the pores of which are infiltrated with myoblasts encapsulated in a fibrin-based hydrogel to form engineered skeletal muscle tissues. Pre-adsorbing thrombin to the cellulose scaffolds facilitates in situ tissue polymerization, a critical modification that enables new users to rapidly acquire assay expertise. Following the generation of the 3D myotube template, muscle stem cells (MuSCs), prospectively isolated from mouse skeletal muscle tissue, are engrafted onto the engineered template. A regenerative milieu is then introduced by injuring the muscle tissue with a myotoxin. We evaluated two different commercially available human primary myoblast lines and were able to successfully generate miniaturized 3D muscle templates, as well as recapitulate the in vivo outcomes of a known modulator of MuSC mediated repair but only in the presence of both the stem cells and the regenerative milieu. Thus, the mini-MEndR culture assay captures the ability of different molecular treatments to modulate donor MuSC skeletal muscle production and niche repopulation. The miniaturized predictive assay offers a simple, scaled platform with which to investigate MuSC endogenous repair molecular modulators, and thus is a promising strategy to accelerate the muscle endogenous repair discovery pipeline.

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Phenotypic association of 15q11.2 CNVs of the region of breakpoints 1–2 (BP1–BP2) in a large cohort of samples referred for genetic diagnosis

et al. 2018

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Justin Pham

Somatic mosaicism detected by exon-targeted, high-resolution aCGH in 10 362 consecutive cases

Exome sequencing detection of two untranslated GFPT1 mutations in a family with limb‐girdle myasthenia

mini-MEndR: A 96-well mixed species culture assay to co-evaluate human and mouse Pax7⁺cell-mediated skeletal muscle repair

Phenotypic association of 15q11.2 CNVs of the region of breakpoints 1–2 (BP1–BP2) in a large cohort of samples referred for genetic diagnosis

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Justin Pham

Somatic mosaicism detected by exon-targeted, high-resolution aCGH in 10 362 consecutive cases

Exome sequencing detection of two untranslated GFPT1 mutations in a family with limb‐girdle myasthenia

mini-MEndR: A 96-well mixed species culture assay to co-evaluate human and mouse Pax7+cell-mediated skeletal muscle repair

Phenotypic association of 15q11.2 CNVs of the region of breakpoints 1–2 (BP1–BP2) in a large cohort of samples referred for genetic diagnosis

Contact Info

Product

Resources

About

mini-MEndR: A 96-well mixed species culture assay to co-evaluate human and mouse Pax7⁺cell-mediated skeletal muscle repair