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Changes in the chromatin structure during granulocytic differentiation
Bártová, Eva ; Jirsová, Pavla ; Skalníková, M. ; Kozubek, Stanislav ; Kozubek, Michal ; Lukášová, Emilie ; Cafourková, Alena ; Koutná, I. ; Paseková, R. ; Matula, Pa. ; Matula, Pe.
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Position of centromeres in the interphase nuclei of human leukemic cells during myeloid differentiation and after gamma-irradiation
Bártová, Eva ; Kozubek, Stanislav ; Durm, S. ; Hausmann, M. ; Kozubek, Michal ; Lukášová, Emilie ; Skalníková, M. ; Jirsová, Pavla ; Cafourková, Alena ; Buchníčková, Katarína
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Cytologická studie modelů DNA metylace a metylace histonů u lidských buněčných linií
Skalníková, M. ; Bártová, Eva ; Kozubek, Stanislav ; Kozubek, Michal
Epigenetic processes are defined as heritable changes in genome function that occur without a change in DNA sequence. Gene expression, chromosome segregation, DNA replication, repair, and recombination all act, not on DNA alone, but on the chromatin template. DNA methylation, along with histone lysine methylation, establishes the framework for long-term epigenetic maintenance. The discovery that enzymes can (re)organise chromatin into accessible and inaccessible configurations revealed epigenetic mechanisms that considerably extend the information potential of the genetic code. In mammals, heterochromatin is characterised by DNA methylation at CpG dinucleotides and methylation at lysine 9 of histone 3 (H3-K9), whereas euchromatin is associated with methylation at lysine 4 of histone 3 (H3-K4).
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