A simple method to confirm and size deletion, duplication, and insertion mutations detected by sequence analysis.

Characterizing heterozygous insertions or deletions in genes by PCR and Sanger sequencing can be a challenge due to overlapping sequencing traces produced by overlapping templates. This is particularly problematic for clinical diagnostic laboratories, because mutations must be precisely characterized. Although the mutation detection software used by clinical diagnostic laboratories reliably identifies small insertions and deletions, overlapping deletions and insertions on opposite chromosomes, complex rearrangements, and insertions or deletions close to the primer sites may be missed. Here we describe a rapid, simple method to confirm and precisely characterize deletions and insertions using a capillary-based gel electrophoresis system. This technique has been applied to a series of patients with deletion, duplication, or insertion mutations identified by sequencing, as well as to patients with repeat tract polymorphisms, to demonstrate the utility of this method.

Origins, distribution and expression of the Duarte-2 (D2) allele of galactose-1-phosphate uridylyltransferase.

Duarte galactosemia is a mild to asymptomatic condition that results from partial impairment of galactose-1-phosphate uridylyltransferase (GALT). Patients with Duarte galactosemia demonstrate reduced GALT activity and carry one profoundly impaired GALT allele (G) along with a second, partially impaired GALT allele (Duarte-2, D2). Molecular studies reveal at least five sequence changes on D2 alleles: a p.N314D missense substitution, three intronic base changes and a 4 bp deletion in the 5' proximal sequence. The four non-coding sequence changes are unique to D2. The p.N314D substitution, however, is not; it is found together with a silent polymorphism, p.L218(TTA), on functionally normal Duarte-1 alleles (D1, also called Los Angeles or LA alleles). The HapMap database reveals that p.N314D is a common human variant, and cross-species comparisons implicate D314 as the ancestral allele. The p.N314D substitution is also functionally neutral in mammalian cell and yeast expression studies. In contrast, the 4 bp 5' deletion characteristic of D2 alleles appears to be functionally impaired in reporter gene transfection studies. Here we present allele-specific qRT-PCR evidence that D2 alleles express less mRNA in vivo than their wild-type counterparts; the difference is small but statistically significant. Furthermore, we characterize the prevalence of the 4 bp deletion in GG, NN and DG populations; the deletion appears exclusive to D2 alleles. Combined, these data strongly implicate the 4 bp 5' deletion as a causal mutation in Duarte galactosemia and suggest that direct tests for this deletion, as proposed here, could enhance or supplant current tests, which define D2 alleles on the basis of the presence and absence of linked coding sequence polymorphisms.