Mouse DNA methylase. Intracellular location and degradation.

DNA methylase extracted with low salt from mouse Krebs II ascites cell nuclei has been degraded stepwise by trypsin treatment. Degradation, accompanied by a limited reduction in size of the native enzyme, leads to the progressive introduction of several nicks so that, eventually, fragments of 14, 18, 24 and 28 kD are released on denaturation. This illustrates the domain structure of the enzyme. In contrast to ascites cell nuclear extracts, preparations from liver nuclei are already nicked and the major from of the enzyme contains a 100 kD fragment though the native molecular weight is unchanged. Newborn mouse liver contains more undegraded enzyme that is mostly firmly-bound within the nucleus. Trypsin treatment increases the de novo activity of the enzyme and prevents its aggregation in the absence of salt, even in the presence of high concentrations of native DNA.