14 research outputs found
Biophysical Studies on the Effect of the 13 Position Substitution of the Anticancer Alkaloid Berberine on Its DNA Binding
The structural effects and thermodynamics of
the DNA binding of six berberine analogues with alkyl chains
of varying length and a terminal phenyl group at the C-13
position were investigated. All the analogues bound DNA
noncooperatively in contrast to the cooperative binding of
berberine. The binding affinity was higher and the effect of the
chain length was only up to (CH2)3, after which the binding
affinity decreased slightly. Intercalative binding with strong
stabilization of the DNA helix was revealed. Binding resulted in
the weakening of the base stacking with moderate conformational changes within the B-form. The binding was entropy driven in
each case, the entropy contribution to the free energy increasing with the chain length up to the threshold (CH2)3. The
complexation was dominated by nonpolyelectrolytic forces in each case; polyelectrolytic forces contributed only a quarter to the
total free energy at 50 mM [Na+]. Overall, the phenylalkyl substitution at the C-13 position considerably enhanced the DNA
binding and was highest for the analogue with (CH2)3. Structural and thermodynamic data on the DNA binding aspects of the
substituted berberines are presented in comparison with berberine
Recurrent 70.8 Mb 4q22.2q32.3 duplication due to ovarian germinal mosaicism
A mosaicism is defined by the presence of two or more populations of cells with different genotypes in one individual. Chromosomal germinal mosaicism occurs in germ cells before the onset of meiosis. Previously, few studies have described germinal mosaicism. In this study, we report on two siblings who carried identical pure and direct interstitial 4q22.2q32.3 duplication. Procedure investigations included complete clinical description, conventional cytogenetic analysis, fluorescence in situ hybridization (FISH), comparative genomic hybridization (CGH) array experiments and microsatellite study searching for parental origin of the duplication. Microarray CGH and further FISH experiments with BAC clones showed the same 70.8 Mb direct duplication, dup(4)(q22.2q32.3). Molecular studies of the 4q duplication were consistent with maternal origin associated with mitotic or meiotic rearrangements. This structural chromosomal aberration was associated in both cases with increased nuchal translucency, growth retardation and dysmorphy. Cardiopathy and lung malformations were only evident in the first case. These clinical manifestations are similar to those previously reported in previous studies involving pure 4q trisomy of the same region, except for thumb and renal abnormalities that were not obvious in the presented cases. The amplified region included genes involved in neurological development (NEUROG2, MAB21L2, PCDH10/18 and GRIA2). The recurrent 4q duplication in these siblings is consistent with a maternal ovarian germinal mosaicism. This is the first description of germinal mosaicism for a large chromosomal duplication and highlights that genetic counselling for apparently de novo chromosome aberration should be undertaken with care