The DNA‐dependent protein kinase: the director at the end is a research paper published in Immunological Reviews (2004). On theSindex it has a DataRank of 9.4. It has been cited 212 times, with 189 citing works in its 1-hop citation network.
Summary: Efficient repair of DNA double‐strand breaks is essential for the maintenance of chromosomal integrity. In higher eukaryotes, non‐homologous end‐joining (NHEJ) DNA is the primary pathway that repairs these breaks. NHEJ also functions in developing lymphocytes to repair strand breaks that occur during V(D)J recombination, the site‐specific recombination process that provides for the assembly of functional antigen‐receptor genes. If V(D)J recombination is impaired, B‐ and T‐lymphocyte development is blocked resulting in severe combined immunodeficiency disease. In the last decade, an intensive research effort has focused on NHEJ resulting in a reasonable understanding of how double‐strand breaks are resolved. Six distinct gene products have been identified that function in this pathway (Ku70, Ku86, XRCC4, DNA ligase IV, Artemis, and DNA‐PKcs). Three of these comprise one complex, the DNA‐dependent protein kinase (DNA‐PK). This protein complex is central during NHEJ, because DNA‐PK initially recognizes and binds to the damaged DNA and then targets the other repair activities to the site of DNA damage. In this review, we discuss recent developments that have provided insight into how DNA‐PK functions, once bound to DNA ends.
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Base Score Contribution
0.804
From this paper's citation signal
Citation Network Contribution
8.6
From 170 citing papers with measurable signal
Ranked by citation count — the same ordering the engine uses when summing log1p(Cq) over citers.
DataRank blends this paper's own citation count with the influence of the papers that cite it. Here, roughly 9% comes from its base citations and 91% from the citation network (170 citing papers contributed measurable signal).
Citers are pulled from OpenAlex sorted by cited_by_count:descand capped per paper, so when the cap binds we keep the highest-signal references and the score is reproducible across reruns.
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