|
|
Posttranlational protein modifications in response to DNA damage
Kroupa, Michal ; Hodný, Zdeněk (advisor) ; Novotný, Marian (referee)
- 5 - Abstract Thousands of DNA lessions occur in each cell every day of which the most toxic are double-strand breaks (DSBs). Signaling of their presence and subsequent repair are mediated by so-called DNA-damage response mechanism (DDR), which involves accumulation of many effector proteins into DSBs sites. These molecular accumulation at DSBs are termed DNA damage foci. Depending on presence of sister chromatid, DSBs are repaired by two major mechanisms: by homologous recombination and by non-homologous end joining. Both pathways lead to activation of checkpoint kinases (Chk1 or Chk2) which iniciate checkpoints in cell cycle and allow repair of damaged DNA. Signaling of DNA damage and activation of these pathways are regulated by posttranslational protein modifications. These enzymatic reactions involve mainly phosphorylation, ubiquitination and sumoylation. Recently it was shown that ubiquitination of damaged chromatin is a prerequisite for sumoylation of tumor supressors BRCA1 and 53BP1. Failure in DNA damage recognizing mechanisms caused by disorders such as modifications or mutations of 53BP1 and BRCA1 genes can lead to subsequent disruption of genomic integrity and then a high risk for selection of cell clones with tumorigenic potencial. Current research is focused on regulation of posttranslational...
|
|
|
The role of methylation of histone 3 on lysine 4 (H3K4) during mouse spermatogenesis
Blumenstein, Jan ; Trachtulec, Zdeněk (advisor) ; Král, Jiří (referee)
Epige eti ké odifika e hro ati u hrají z ač ou roli v regula i přístup osti DNA. odifika í je etyla e histo ů. V H a lysi u ěhe sper atoge eze yši do á í a to zej é a ve Běhe eioti ké profáze I do hází k hro ozo ů, a k eioti ké reko i a i. Tyto pro esy jsou kriti ký ode tvor y pohlav í h u ěk a jeji h selhá í vede k eioti ké zástavě a tí páde k poruše tvor y haploid í h u ěk. Histo ová etyltra sferáza PRDM9 hraje klíčovou roli v eioti ké reko i a e, e oť je zodpověd á za urče í progra ova ý h dvouřetěz ový h zlo ů v íste h zva ý h hotspoty. Ni é ě ge je důležitý i ve spe ia i, a to řed i tví fe o é u hy rid í sterility. Další i protei y, které se podílí a etyla i histo u H a lysi u ěhe sper atoge eze, jsou MLL KMT D , MLL KMT E a yší h varlate h ovše az ačují, že regula i této odifika e hro ati u podílí ví e ge ů. Avšak ejsou z á é ko krét í fu k e, které ají tyto z ývají í ge y ěhe vývoje sa čí h pohlav í h u ěk. Další zkou á í tě hto ge ů ohou ýt užiteč á pro o jas ě í částeč é e o úpl é eplod os Klíčová slova: eioti ká reko i a e, dvouřetěz ové zlo y, hy rid í sterilita, sper atoge eze, etyla e histo ů
|
|
|
Posttranlational protein modifications in response to DNA damage
Kroupa, Michal ; Hodný, Zdeněk (advisor) ; Novotný, Marian (referee)
- 5 - Abstract Thousands of DNA lessions occur in each cell every day of which the most toxic are double-strand breaks (DSBs). Signaling of their presence and subsequent repair are mediated by so-called DNA-damage response mechanism (DDR), which involves accumulation of many effector proteins into DSBs sites. These molecular accumulation at DSBs are termed DNA damage foci. Depending on presence of sister chromatid, DSBs are repaired by two major mechanisms: by homologous recombination and by non-homologous end joining. Both pathways lead to activation of checkpoint kinases (Chk1 or Chk2) which iniciate checkpoints in cell cycle and allow repair of damaged DNA. Signaling of DNA damage and activation of these pathways are regulated by posttranslational protein modifications. These enzymatic reactions involve mainly phosphorylation, ubiquitination and sumoylation. Recently it was shown that ubiquitination of damaged chromatin is a prerequisite for sumoylation of tumor supressors BRCA1 and 53BP1. Failure in DNA damage recognizing mechanisms caused by disorders such as modifications or mutations of 53BP1 and BRCA1 genes can lead to subsequent disruption of genomic integrity and then a high risk for selection of cell clones with tumorigenic potencial. Current research is focused on regulation of posttranslational...
|
guest ::
