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Postranslation modifications affecting function of nuclear localization signal
Šebrle, Erik ; Sedláček, Radislav (advisor) ; Venit, Tomáš (referee)
Transport of proteins to the nucleus through a nuclear envelope is controlled mostly via nuclear localization signal (NLS). Nuclear localization signal is rich in positively charged amino acids arginine and lysine. It was observed that activity of this NLS could be regulated through a phosphorylation of serine in its close proximity. Either a phosphorylation of serine or phosphomimetic changes of these "presequences" could represent an important mechanism regulating a localization of protein in cells in relation to a cellular activation. In our laboratory was identified protein - Fragile X mental retardation syndrome 1 neighbor (Fmr1nb), whose cellular localization could be driven by this posttranslational modification.
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Posttranslational modifications affecting function of nuclear localization signal
Šebrle, Erik ; Sedláček, Radislav (advisor) ; Venit, Tomáš (referee)
Transport of proteins to the nucleus through a nuclear envelope is controlled mostly via nuclear localization signal (NLS). Nuclear localization signal is rich in positively charged amino acids arginine and lysine. It was observed that activity of this NLS could be regulated through a phosphorylation of serine in its close proximity. Either a phosphorylation of serine or phosphomimetic changes of these "presequences" could represent an important mechanism regulating a localization of protein in cells in relation to a cellular activation. In our laboratory was identified protein - Fragile X mental retardation syndrome 1 neighbor (Fmr1nb), whose cellular localization could be driven by this posttranslational modification.
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Postranslation modifications affecting function of nuclear localization signal
Šebrle, Erik ; Sedláček, Radislav (advisor) ; Venit, Tomáš (referee)
Transport of proteins to the nucleus through a nuclear envelope is controlled mostly via nuclear localization signal (NLS). Nuclear localization signal is rich in positively charged amino acids arginine and lysine. It was observed that activity of this NLS could be regulated through a phosphorylation of serine in its close proximity. Either a phosphorylation of serine or phosphomimetic changes of these "presequences" could represent an important mechanism regulating a localization of protein in cells in relation to a cellular activation. In our laboratory was identified protein - Fragile X mental retardation syndrome 1 neighbor (Fmr1nb), whose cellular localization could be driven by this posttranslational modification.
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Myosin 1c isoforms and their functions in the cell nucleus and in the cytoplasm
Venit, Tomáš ; Hozák, Pavel (advisor) ; Černý, Jan (referee) ; Hašek, Jiří (referee)
Nuclear myosin 1 (NM1) was the first myosin described in the cell nucleus. From its discovery, it has been found to function in processes of Pol I and Pol II transcription, chromatin remodeling, and chromosomal movements. However, direct mechanisms of how NM1 works in the cell nucleus were still missing. We therefore decided to prepare NM1 knock-out mice to answer questions about phyiological functioning of this protein. Myo1c is an isoform of NM1 protein, previously described in the cytoplasm. The only difference between these isoforms is 16 amino-acids at the N-terminus of NM1, which were thought to be the nuclear localization signal. However, we discovered that the nuclear localization signal is located in the neck domain of myosin, and therefore it is able to direct both isoforms to the nucleus. Moreover, we found that the ratio between both proteins is nearly the same in the nucleus and deletion of NM1 does not cause compensatory overexpression of Myo1c. NM1 KO mice are fully viable with minor changes in bone mineral density and red blood cells size. We found that the function of NM1 in processes such as Pol I transcription can be fully covered by Myo1c protein, suggesting redundancy and interchangeability of these two isoforms in the cell nucleus. We also found that PIP2, a phosphoinositol...
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