motifs/domains
| N-terminal 84 AAs of RECQL4 contain a mitochondrial localization signal, which causes the localization of RECQL4-TP53 complex to the mitochondria  |
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seven DNA helicase motif, with specific N and C terminal region |
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N-terminus including sld2/DRC1 homology region, and that is a homeodomain-like DNA interaction motif |
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C-terminal portion is a substrate for PARP1 |
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conserved helicase motifs and the Sld2-like N-terminal domain, each independently promote ATP-dependent DNA unwinding |
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N and C termini contain unique sequences distinctive from other RECQ family helicases |
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within its C-terminus a RecQ-like helicase domain |
SUBCELLULAR LOCALIZATION
| intracellular
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| intracellular,cytoplasm,organelle,mitochondria
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| intracellular,nucleus,chromatin/chromosome,telomere
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| intracellular,nucleus,nucleolus
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| text
| localizes to the nucleolus in response to oxidative stress |
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localizes to telomeres and associates with shelterin proteins TERF1 and TERF2 |
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accumulates in mitochondria in all phases of the cell cycle except S phase |
| basic FUNCTION
| DNA helicase ATP dependent, involved in the maintenance of genomic integrity |
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playing an important role in bone development |
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playing a role in the sister-chromatid cohesion and in initiation of the replication |
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possessing a single-strand DNA annealing activity that is inhibited by the single-strand DNA binding protein RPA, but lacking a detectable DNA helicase activity |
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exhibits DNA helicase activity |
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having a role in preventing tumorigenesis and maintenance of genome integrity |
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may modulate chromosome segregation |
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may stimulate repair of H2O2-induced DNA damage, regulating both directly and indirectly base excision repair capacity |
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may promote repair of oxidative DNA damage by activating base excision repair (functional protein interactions between RECQL4 and base excision repair proteins) |
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may have a role in the repair of UV-induced DNA-damages in human cells |
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regulates both directly and indirectly base excision repair capacity |
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is involved in telomere maintenance |
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participates in telomere maintenance by assisting in D-loop resolution |
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RECQL4 could assist WRN and BLM in promoting DNA repair and replication of telomeres containing oxidatively damaged DNA |
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facilitates DNA replication in cells that have been exposed to ionizing radiation |
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BLM and RECQL4 have coordinated activities that promote genome stability |
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regulatory role in mitochondrial stability and function |
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NES-mediated RECQL4 export to the cytoplasm is essential for the maintenance of mitochondrial genome stability |
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helicase-dependent cellular function of RECQL4 in addition to its N-terminus-dependent role in initiation of replication, a function that may underlie the phenotype of RECQL4-linked disease |
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potential novel role for RECQL4 in the repair of thymine glycol lesions to promote efficient telomeric maintenance |
