, on the other hand, is found in at least three of the six eukary

, on the other hand, is found in at least three of the six eukaryo tic supergroups and was likely present in the LCEA. This suggests that selleck chemical the evolution of mART activity within the PARP gene family occurred before the full complement of crown groups had formed. In addition, the changes in the catalytic domain of the Clade 2 proteins also suggest that these proteins have altered enzymatic activities. Therefore, it is likely that mART activity and or loss of enzymatic activity has evolved at least twice from PARP activity and that mART activity in extant Clade 6 proteins represents an even earlier acquisition of this enzymatic activity. What functions do PARP like mART proteins play While no members of Clade 6 have been characterized, several members of Clade 3 have, all in mammalian sys tems.

PARP9 BAL1, PARP14 BAL2, and PARP15 BAL3 have been shown to interact with transcription factors and mediate transcriptional repression or activation. PARP13 ZCC2 ZAP has been shown to bind to viral RNA through its zinc fingers and promote degradation of the RNA by the exosome. PARP12 shares significant similarity to PARP13 and is thought to function similarly. PARP10 interacts with MYC and inhibits transformation, its overexpression leads to a loss of cell viability. To date, no clear consensus about the function of Clade 3 proteins can be formulated. True tankyrases are confined to animals Human tankyrase1 was originally identified as a telo meric protein interacting with TRF1, a negative regula tor of telomere length. It was shown to act as a PARP and automodify itself as well as TRF1.

A second human tankyrase, tankyrase2, was identified shortly after the initial discovery of tankyrase1. Human tankyrases can be found both in the nucleus, at the nuclear pore and centrosome, and in the cytoplasm associated with the Golgi or vesi cles or the plasma membrane. Since their initial discovery, the known functions of these proteins have expanded to include spindle assembly and vesicle trafficking, sister chromatid segrega tion, and regulation of the WNT pathway. Tankyrases have been identified in a number of animal species, including mouse. In this model organ ism, it appears tankyrase may not function in telomere length control, but its other functions are con served and its function is essential.

Consistent with functions outside of the telomere, a tankyrase is found in Drosophila melanogaster, Anacetrapib an organism with a highly divergent telomere consisting of transposons rather than the short repeats found in other eukaryotes. Our more phylogenetic tree places a number of proteins previously reported as tankyrases in Clade 1, rather than within Clade 4. These proteins do have a different domain structure than tankyrases, shar ing ankyrin repeats with tankyrases but having WGR and PRD domains rather than SAM motifs. It is likely that the Clade 1 ankyrin repeat proteins do not share functions with tankyrases. PME5 from C. elegans was reported as a tankyrase and has been function

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