Original Article Advanced Rai Stage in Patients with Chronic Lymphocytic Leukaemia Correlates with Simultaneous Hypermethylation of Plural Tumour Suppressor Genes (chronic lymphocytic leukaemia / aberrant hypermethylation / tumour suppressor genes / Rai s

Abstract. Hypermethylation of CpG islands within gene promoters is one of various mechanisms of gene silencing involved in the pathogenesis of human cancer. By using methylation-specific polymerase chain reaction we explored aberrant promoter methylation of five tumour suppressor genes in 29 patients with chronic lymphocytic leukaemia. Aberrant methylation of DLC1, SHP1, p15 and p16 occurred, respectively, in 89.7 %, 70 %, 62.1 % and 31 % of patients at diagnosis. Lamin A/C was unmethylated in all the samples. Hypermethylation of at least one gene was detected in 96.6 % of patients. Concurrent methylation of two or more genes correlated with Rai stage at diagnosis

Identification and separation of components of calf thymus DNA using a CsCl-netropsin density gradient

Calf thymus DNA containing satellite components of various densities was used as a model to study the effect of netropsin on the density of DNA in a CsCl gradient. The binding of netropsin resulted in a decrease in density which depended upon the quantity of netropsin added and on the average composition of the DNA. Differences in density of DNA components were higher in CsCl - netropsin gradients than in simple CsCl gradients. By use of netropsin a main band and four satellite bands could be differentiated in calf thymus DNA. Satellite DNA's were isolated using preparative CsCl - netropsin gradient centrifugation and were characterised by density and homogeneity in native and in reassociated state. Two of the satellite components, with densities of 1.722 and 1.714 g/cm(3), are probably of homogenous sequence, the other two components of densities 1.709 and 1.705 g/cm(3) appear to be heterogeneous

Reassociation kinetics of three satellite components of calf thymus DNA.

Using absorption measurements the reassociation kinetics of three satellite DNA components isolated from calf thymus was studied under various conditions. A different method using CsC1 density gradient determinations particularly suited for kinetic analysis of mixtures was also used and shown to give similar results. Reassociation rate constants were corrected for mismatching during strand reassociation using data obtained by kinetic analysis of fractions of the 1.714 g/cm-3 satellite component. The values of corrected as well as uncorrected complexities were calculated and compared with results of other methods. They were shown to be compatible with the concept of sequence repetition at various levels