Abstract
The nuclear envelope (NE) of Xenopus laevis contains a major architectural protein which is resistant to extraction in high salt buffer and non-ionic detergent and is characterized by a polypeptide molecular weight (MW) of 68000. Two different antisera which showed specific binding of antibodies (IgG) to this polypeptide, as demonstrated by ‘immunoblotting’ techniques, were used for immunolocalization at the electron microscopic level. Whereas antibodies of serum I reacted only with the nuclear lamina structure, antibodies of serum II, which were raised against undenatured karyoskeletal protein from oocytes, showed additional strong reaction in nuclear pore complexes. This first positive localization of a polypeptide in the nuclear pore complex suggests that MW 68000 polypeptide contributes as a major karyoskeletal component to the structure of both the lamina and the pore complex.
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