[Dynamics of structural changes of Paramecium caudatum and Bursaria truncatella macronuclear chromatin and nucleoli under hypotonic conditions].

Dynamics of structural changes of nucleoli, complex nucleolar aggregates and chromatin bodies in macronuclei (Ma) of ciliates Paramecium candatum and Bursaria truncatella under hypotonic conditions was studied. It was shown that after a 3 min hypotonic treatment nuclei swelled and became highly vacuolated. 3D-reconstruction showed that such nucleoli were formed by nucleolonema-like threads about 100-200 nm in thickness. Intranucleolar chromatin bodies decompacted, but remained bound with fibrillar component of the nucleolus by thin fibres about 10 nm thick. After 6 min hypotonic treatment the nucleolar material loosened and had a "gauze", or network-like appearence. After 10 min hypotonic treatment nucleoli dissociated completely. It was shown that a transition of chromatin bodies from completely compact to partially and fully decompacted state occurred cooperatively in different regions of Ma. In particular, chromatin bodies in the central part of complex nucleolar aggregates decompacted much faster than those in the Ma karyoplasm. It evidences for a specific, well-ordered chromatin organization in Ma. Prolonged hypotonic treatment led to a complete dissociation of Ma components; fibres 6-10 nm thick were solely observed in such preparations. Such fibres may represent remnant structures of the nuclear matrix. Dynamics of Ma chromatin bodies decompaction correlates well with that of chromomeres in the nuclei of higher eukaryotes. Our data confirm that chromatin 100-200 nm bodies in the ciliate Ma are analogues of chromomeres--looped discrete chromatin domains, observed in the nuclei of higher eukaryotes.