Abstract
Neutron and X-ray small angle scattering techniques have been applied to study chromatin structure inside different types of cell nuclei.
-
A.
Scattering from genetically inactive chicken erythrocyte nuclei exhibits a maximum at Q=0.1–0.15 nm-1 which cannot be observed by studying isolated chromatin derived from the same kind of cells. In highly active transcribing rat liver nuclei such a nuclear pattern is absent.
-
B.
The radius of gyration of isolated “superbeads” was determined. It is discussed whether the characteristic maximum of the nuclei originates from this superstructural organisation of chromatin.
-
C.
Rat liver nuclei were fractionated on sucrose gradients in order to determine whether the absence of the extra maximum in scattering profiles of these nuclei is due to overlapping effects of different chromatin organisation in the various cell types of the liver. As compared to unfractionated nuclei no strong deviations in the scattering profiles of the fractions could be observed.
-
D.
Erythrocyte nuclei were dialysed in buffers differing in the ionic strength of monovalent cations. The typical maximum from the nuclei is shifted from 60 nm (very low salt concentration) to about 35 nm (physiological ionic strength) and is linearly proportional to the decreasing radius of the nuclei.
In conclusion, chromatin structure inside the nucleus has a scattering maximum due to an ordered packing of the fibres which is absent in nuclei with high genetic activity.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Albrecht C (1969) Fractionation of nuclei from induced hepatomas by sucrose gradient centrifugation. Exp Cell Res 56: 44–48
Bordas J, Perez-Grau L, Koch MHJ, Vega M, Nave C (1986) The superstructure of chromatin and its condensation mechanism I. Eur Biophys J 13: 157–173
Cook PR (1984) A general method for preparing intact nuclear DNA. EMBO J 3: 1837–1842
Everid AC, Small JV, Davies HG (1970) Electron-microscope observations on the structure of condensed chromatin: Evidence for orderly arrays of unit threads on the surface of the chicken erythrocyte nuclei. J Cell Sci 7: 35–48
Glatter O (1974) A new iterative method for collimation correction in small-angle scattering. J Appl Crystallogr 7: 147–153
Ibel K, Klingholz R, Strätling WH, Bogenberger J, Fittler F (1983) Neutron diffraction of chromatin in interphase nuclei and methaphase chromosoms. Eur J Biochem 133: 315–319
Langmore JP, Paulson JR (1983) Low angle X-ray diffraction studies of chromatin in isolated nuclei and methaphase chromosomes. J Cell Biol 96: 1120–1131
Lebkowsky JS, Laemli UK (1981) Evidence for two levels of DNA folding in histone depleted HeLa interphase nuclei. J Mol Biol 156: 309–324
Notbohm H, Harbers E (1981) Small angle scattering of intact and lysing cell nuclei. Int J Biol Macromol 3: 311–314
Notbohm H, Hollandt H, Meissner J, Harbers E (1979) Low angle X-ray scattering studies of chromatin in different solvents; analysis by comparison with computer simulated scattering curves. Int J Biol Macromol 1: 180–184
Perez-Grau L, Bordas J, Koch MHJ (1984) Chromatin superstructure: Synchrotronradiation X-ray scattering study on solutions and gels. Nucleic Acids Res 12: 2987–2996
Pogo AO, Allfrey VG, Mirsky AE (1966) Evidence for increased DNA Template activity in regenerated liver nuclei. Proc Natl Acad Sci USA 56: 550–557
Renz H, Nehls P, Hozier J (1977) Involvement of histone H1 in the organisation of the chromosome fiber. Proc Natl Acad Sci USA 74: 1879–1883
Shaw BR, Timothy MH, Kovacic RT, Beaudreau GS, Van Holde KE (1976) Analysis of subunit organisation in chicken erythrocyte chromatin. Proc Natl Acad Sci USA 73: 505–509
Strätling WH, Klingholz R (1981) Supranucleosomal structure of chromatin: Digestion by calcium/magnesium endonuclease proceeds via a discrete size class of particles with elevated stability. Biochemistry 20: 1386–1392
Suau P, Bradbury EM, Baldwin JP (1979) Higher order structure of chromatin in solution. Eur J Biochem 97: 593–602
Zentgraf H, Müller U, Franke WW (1980) Reversible in vitro packing of nucleosomal filaments into globular units in chromatin of whole chicken erythrocyte nuclei. Eur J Cell Biol 23: 171–188
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Notbohm, H. Small angle scattering of cell nuclei. Eur Biophys J 13, 367–372 (1986). https://doi.org/10.1007/BF00265672
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00265672