Mai P. Tran scite author profile

All reported mutations in the choroideremia (CHM) gene result in the truncation or complete absence of Rab escort protein 1 (REP1). Molecular analysis was carried out on 57 families diagnosed with CHM. Confirmation of the clinical diagnosis is important as end-stage CHM may be clinically similar to the end stages of other retinal degenerative diseases such as RP. The primary means of confirming the diagnosis of CHM is to sequence all 15 exons. An alternative method involves detection of the REP1 protein, as described in MacDonald et al. [1998]. A monoclonal antibody to REP1 does not detect truncated REP1 by immunoblot analysis, presumably due to instability and subsequent degradation of the truncated protein. This analysis provides relatively fast confirmation of the diagnosis, however, protein samples are not always available and are susceptible to degradation, affecting the accurate interpretation of results. CHM gene mutations were found in 54 of 57 families studied. The majority of mutations (>42%) were transitions and transversions. Complete deletions of the CHM gene and deletion/insertion mutations each accounted for almost 4% of the total, while over 9% had large intragenic and other partial deletions. Almost 28% of the mutations were deletions of fewer than 5 base pairs (bp) and almost 13% were splice site mutations. Despite the fact that mutations are found throughout the gene with no common mutation for the disorder, identical mutations have been characterized in unrelated individuals. The majority of these mutations are C to T transitions, changing an arginine residue (CGA) to a stop codon (TGA). Four of the five CGA codons in the CHM gene are sites of recurring mutations.

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Ocular genetics: current understanding

MacDonald

Tran

Musarella

2004

Survey of Ophthalmology

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Conformational flexibility of coenzyme A and its impact on the post‐translational modification of acyl carrier proteins by 4′‐phosphopantetheinyl transferases

et al. 2020

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One central question surrounding the biosynthesis of fatty acids and polyketide-derived natural products is how the 4 0-phosphopantetheinyl transferase (PPTase) interrogates the essential acyl carrier protein (ACP) domain to fulfill the initial activation step. The triggering factor of this study was the lack of structural information on PPTases at physiological pH, which could bias our comprehension of the mechanism of action of these important enzymes. Structural and functional studies on the family II PPTase PptAb of Mycobacterium abscessus show that pH has a profound effect on the coordination of metal ions and on the conformation of endogenously bound coenzyme A (CoA). The observed conformational flexibility of CoA at physiological pH is accompanied by a disordered 4 0phosphopantetheine (Ppant) moiety. Finally, structural and dynamical information on an isolated mycobacterial ACP domain, in its apo form and in complex with the activator PptAb, suggests an alternate mechanism for the post-translational modification of modular megasynthases.

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Mai P. Tran

Mutational analysis of patients with the diagnosis of choroideremia

Ocular genetics: current understanding

Conformational flexibility of coenzyme A and its impact on the post‐translational modification of acyl carrier proteins by 4′‐phosphopantetheinyl transferases

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