Abstract
BackgroundThe Tousled Like Kinases (TLKs) are involved in chromatin dynamics, including DNA replication and repair, transcription, and chromosome segregation. Indeed, the first two TLK1 substrates were identified as the histone H3 and Asf1 (a histone H3/H4 chaperone), which immediately suggested a function in chromatin remodeling. However, despite the straightforward assumption that TLK1 acts simply by phosphorylating its substrates and hence modifying their activity, TLK1 also acts as a chaperone. In fact, a kinase-dead (KD) mutant of TLK1B is functional in stimulating chromatin assembly in vitro. However, subtle effects of Asf1 phosphorylation are more difficult to probe in chromatin assembly assays. Not until very recently was the Asf1 site phosphorylated by TLK1 identified. This has allowed for probing directly the functionality of a site-directed mutant of Asf1 in chromatin assembly assays.FindingsAddition of either wt or non-phosphorylatable mutant Asf1 to nuclear extract stimulates chromatin assembly on a plasmid. Similarly, TLK1B-KD stimulates chromatin assembly and it synergizes in reactions with supplemental Asf1 (wt or non-phosphorylatable mutant).ConclusionsAlthough the actual function of TLKs as mediators of Asf1 activity cannot be easily studied in vivo, particularly since in mammalian cells there are two TLK genes and two Asf1 genes, we were able to study specifically the stimulation of chromatin assembly in vitro. In such assays, clearly the TLK1 kinase activity was not critical, as neither a non-phosphorylatable Asf1 nor use of the TLK1B-KD impaired the stimulation of nucleosome formation.
Highlights
The Tousled Like Kinases (TLKs) are involved in chromatin dynamics, including DNA replication and repair, transcription, and chromosome segregation
Conclusions: the actual function of TLKs as mediators of Asf1 activity cannot be studied in vivo, since in mammalian cells there are two TLK genes and two Asf1 genes, we were able to study the stimulation of chromatin assembly in vitro
Clearly the TLK1 kinase activity was not critical, as neither a non-phosphorylatable Asf1 nor use of the TLK1B-KD impaired the stimulation of nucleosome formation
Summary
The Tousled Like Kinases (TLKs) are involved in chromatin dynamics, including DNA replication and repair, transcription, and chromosome segregation. The anti-silencing factor Asf was originally identified as a protein that when overexpressed derepressed the silent mating loci on chromosome III of S. cerevisiae [1] These are well-characterized heterochromatic regions that, like those of telomeres and rRNA gene clusters, are transcriptionally repressed. It is likely that Asf mediates its effects by inducing localized or global chromatin remodeling, depending on the situation Given all of these functions, it is not surprising that Asf is essential in mammalian cells [15] and other organisms [16], including S. pombe [17], but not in S. cerevisiae, budding yeast deleted for Asf are sensitive to genotoxins and display elevated chromosomal instability [18]. In addition to its function as a direct histone H3/H4 chaperone, Asf mediates modifications of histone marks [20,21,13]
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