Correlation of clinical profile of myotonic dystrophy with CTG repeats in the myotonin protein kinase gene.

The molecular genetic analyses (PCR and Southern hybridization) of Indian patients with myotonic dystrophy (DM) were carried out to determine the degree of repeat expansion and an attempt was made to correlate the repeat number with disease severity. A scoring system based on the salient clinical features was devised to objectively assess the disease severity. The repeat expansion was seen in 11 of 12 patients examined and showed an inverse correlation with the age of onset confirming the phenomenon of anticipation. This was further established in the two pedigrees studied, clearly demonstrating both clinical and genetic anticipation. The clinical severity score, however, did not correlate well with the repeat number. Nonetheless, such molecular genetic analyses may have immense value as a screening procedure to identify premutations as well as in prenatal diagnoses.

Intra- and interloop interactions in the folded G quartet structure of Oxytricha telomeric sequence.

The antiparallel intramolecular G quartet structure for the 3.5 copy Oxytricha telomeric sequence d(G4T4)3G4 has been established using a combination of spectroscopic and chemical probing methods. In the presence of Na+ ions, this sequence exhibits a circular dichroism spectrum with a positive band at 295 nm and a negative band around 265 nm, characteristic of an antiparallel G quartet structure. Further, we show that d(G4T4)3G4 adopts an antiparallel intramolecular G quartet structure even in K+ unlike d(G4T4G4). KMnO4 probing experiments indicated the existence of intra and interloop interactions in the Na+ induced structure. We have found that K+ not only increases the thermal stability of G quartet structure but also binds to the loop region and disrupts stacking and interloop interactions. Biological consequences of such cation-dependent conformational micro-heterogeneity in the loop region of G quartet structures is also discussed.