The preferential assembly of specialized nucleosomes on budding yeast centromeres can be due either to the higher stability of specialized centromeric nucleosomes and/or to the lower stability of canonical centromeric nucleosomes with respect to bulk nucleosomes. We have evaluated the thermodynamic stability of canonical nucleosomes, assembled on Kluyueromyces lactis centromeric DNAs, with a competitive reconstitution assay and a theoretical method recently developed by us. The results, obtained by both methods, show that all five known centromeric DNAs from K. lactis are able to organize canonical nucleosomes, characterized by higher stability with respect those of bulk DNA. With `footprinting' and theoretical prediction, based on sequence-dependent DNA elasticity, we have found that centromeric canonical nucleosomes are characterized by nucleosome dyad axis multiple positioning, rotationally phased. The isoenergetic nucleosome multiple positions are relevant in understanding the transition from canonical to specialized nucleosomes in interacting with centromere protein complexes. The satisfactory agreement between the results obtained from theoretical and experimental methods shows that sequence-dependent centromeric DNA elasticity has a main role in nucleosome thermodynamic stability and positioning. (C) 2002 Elsevier Science B.V. All rights reserved.
Nucleosome organization on Kluyveromyces lactis centromeric DNAs / Sonia, Mattei; Beatrice, Sampaolese; DE SANTIS, Pasquale; Savino, Maria. - In: BIOPHYSICAL CHEMISTRY. - ISSN 0301-4622. - STAMPA. - 97:2-3(2002), pp. 173-187. [10.1016/s0301-4622(02)00066-2]
Nucleosome organization on Kluyveromyces lactis centromeric DNAs
DE SANTIS, Pasquale;SAVINO, Maria
2002
Abstract
The preferential assembly of specialized nucleosomes on budding yeast centromeres can be due either to the higher stability of specialized centromeric nucleosomes and/or to the lower stability of canonical centromeric nucleosomes with respect to bulk nucleosomes. We have evaluated the thermodynamic stability of canonical nucleosomes, assembled on Kluyueromyces lactis centromeric DNAs, with a competitive reconstitution assay and a theoretical method recently developed by us. The results, obtained by both methods, show that all five known centromeric DNAs from K. lactis are able to organize canonical nucleosomes, characterized by higher stability with respect those of bulk DNA. With `footprinting' and theoretical prediction, based on sequence-dependent DNA elasticity, we have found that centromeric canonical nucleosomes are characterized by nucleosome dyad axis multiple positioning, rotationally phased. The isoenergetic nucleosome multiple positions are relevant in understanding the transition from canonical to specialized nucleosomes in interacting with centromere protein complexes. The satisfactory agreement between the results obtained from theoretical and experimental methods shows that sequence-dependent centromeric DNA elasticity has a main role in nucleosome thermodynamic stability and positioning. (C) 2002 Elsevier Science B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
