CYTOLOGICAL AND BIOCHEMICAL-CHARACTERIZATION OF THE INSITU ENDONUCLEASE DIGESTION OF FIXED TENEBRIO-MOLITOR CHROMOSOMES

Cytological and biochemical experiments were undertaken in order to characterize the action of several restriction enzymes on fixed chromosomes of Tenebrio molitor (Coleoptera). EcoRI cuts the satellite DNA of this organism into subunit monomers of 142 bp in naked DNA and acts on fixed chromosomes cleaving and extracting these tandemly repeated sequences present in median centromeric heterochromatin. AluI, in contrast, is unable to attack the satellite sequences but does cut the main band DNA both in naked DNA and in fixed chromosomes. These enzymes therefore permit the in situ localization of satellite DNA or main band DNA in T. molitor. Other enzymes such HinfI or Sau3A do not produce longitudinal differentiation in chromosomes because of the extraction of DNA from satellite and main band DNA regions. In situ hybridization with a satellite DNA probe from T. molitor confirms that the DNA extracted from the chromosomes is the abundant and homogenous highly repeated DNA present in pericentromeric regions. These results plus the analysis of the DNA fractions retained on the slide and solubilized by the action of the restriction enzymes in situ provide evidence that: (a) as an exception to the rule EcoRI (6 bp cutter) is able to produce chromosome banding; (b) the size of the fragments produced by in situ digestion of satellite DNA with EcoRI is not a limiting factor in the extraction; (c) there is a remarkable accord between the action of EcoRI and AluI on naked DNA and on DNA in fixed chromosomes, and (d) the organization of specific chromosome regions seems to be very important in producing longitudinal differentiation on chromosomes.