Applying an Established Exposure Response Prevention Protocol for Young People With Tourette Syndrome in an Intensive, Group Format: A Feasibility Study.

Background: The motor and vocal tics that characterise Tourette syndrome are stigmatizing and impact on quality of life. Behavioural interventions such as Exposure Response Prevention or Comprehensive Behavioural Interventions for Tics are first line treatment for Tourette syndrome, but availability is limited. This study is the first to explore the impact of an established manualised Exposure Response Prevention treatment protocol, developed for individual therapy, but here uniquely delivered intensively, to a group.

Combining nucleoside analogues to achieve recognition of oligopurine tracts by triplex-forming oligonucleotides at physiological pH.

We have used DNase I footprinting to examine DNA triple helix formation at a 12 base pair oligopurine.oligopyrimidine sequence, using oligonucleotides that contain combinations of 2'-aminoethoxy-5-(3-aminoprop-1-ynyl)uridine (bis-amino-U, BAU) and 3-methyl-2-aminopyridine (MeP) in place of T and C, respectively. This combination acts cooperatively to enable high affinity triple helix formation at physiological pH.

Stable recognition of TA interruptions by triplex forming oligonucleotides containing a novel nucleoside.

We have prepared the 2'-aminoethoxy derivative of the S nucleoside ((2AE)S) and incorporated it into triplex-forming oligonucleotides for recognition of TA interruptions within a target oligopurine tract. Fluorescence melting, UV melting, and DNase I footprinting experiments show that (2AE)S has greater affinity than G or S for a single TA interruption. Stable triplexes are formed at pH 6.

Determining the origin of the stabilization of DNA by 5-aminopropynylation of pyrimidines.

DNA duplexes are stabilized by aminopropynyl modification of pyrimidines at the 5 position. A combination of thermodynamic analyses as a function of ionic strength, NMR, and molecular modeling has been applied to determine the origin of the stabilization. UV melting studies of a dodecamer bearing one, two, or three nonadjacent modified dU and dC and of a single dU(8) in the Dickerson-Drew dodecamer revealed that the modifications are essentially additive in terms of T(m), DeltaG, and DeltaH, and there is little difference between dU and dC.

Selectivity and affinity of triplex-forming oligonucleotides containing 2'-aminoethoxy-5-(3-aminoprop-1-ynyl)uridine for recognizing AT base pairs in duplex DNA.

We have used DNase I footprinting, fluorescence and ultraviolet (UV) melting experiments and circular dichroism to demonstrate that, in the parallel triplex binding motif, 2'-aminoethoxy-5-(3-aminoprop-1-ynyl)uridine (bis-amino-U, BAU) has very high affinity for AT relative to all other Watson-Crick base pairs in DNA. Complexes containing two or more substitutions with this nucleotide analogue are stable at pH 7.0, even though they contain several C.