1995
DOI: 10.1002/j.1460-2075.1995.tb00269.x
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Fission yeast rad17: a homologue of budding yeast RAD24 that shares regions of sequence similarity with DNA polymerase accessory proteins.

Abstract: contributed equally to this work 4Corresponding author Following DNA damage or a block to DNA synthesis, checkpoint pathways act to arrest mitosis and prevent the attempted segregation of damaged or unreplicated DNA. The radl7 locus of Schizosaccharomyces pombe is one of seven known radiation-sensitive (rad) loci which are absolutely required to prevent mitosis following DNA damage in fission yeast. Six of these (radi, rad3, rad9, radl 7, rad26 and husi) are also required for the checkpoint which prevents mito… Show more

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Cited by 187 publications
(162 citation statements)
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“…These protein complexes have functional homologs in DNA replication, and it is thought that they function similarly as part of the checkpoint response. The RAD17-RFC complex comprises RAD17 and the four small subunits of replication factor C (RFC; RFC2, RFC3, RFC4, RFC5) (Griffiths et al, 1995;Green et al, 2000;Lindsey-Boltz et al, 2001). RFC, which includes subunits RFC1-5, recognizes and binds single-strand/ double-strand DNA junctions and functions to load on the DNA a homotrimeric protein with a clamp-like structure needed for increased processivity for DNA polymerases d and e (Stillman, 1994;Brush and Kelly, 1996).…”
Section: General Concepts and Key Playersmentioning
confidence: 99%
“…These protein complexes have functional homologs in DNA replication, and it is thought that they function similarly as part of the checkpoint response. The RAD17-RFC complex comprises RAD17 and the four small subunits of replication factor C (RFC; RFC2, RFC3, RFC4, RFC5) (Griffiths et al, 1995;Green et al, 2000;Lindsey-Boltz et al, 2001). RFC, which includes subunits RFC1-5, recognizes and binds single-strand/ double-strand DNA junctions and functions to load on the DNA a homotrimeric protein with a clamp-like structure needed for increased processivity for DNA polymerases d and e (Stillman, 1994;Brush and Kelly, 1996).…”
Section: General Concepts and Key Playersmentioning
confidence: 99%
“…Upstream of Rad53, Rad9 and two more protein complexes signal the presence of DNA damage and fully activate Rad53 (De la Torre-Ruiz et al, 1998;Sanchez et al, 1999;Rouse and Jackson, 2002). One complex is a replication factor C (RFC)-like complex, where Rad24 interacts with four small RFC-subunits (Griffiths et al, 1995); the other complex, formed by Rad17, Ddc1 and Mec3 proteins, shows similarity to the sliding clamp PCNA (Venclovas and Thelen, 2000). In case of DNA damage the PCNA-like structure is loaded onto DNA by the RFC-like complex (Longhese et al, 1998, Melo et al, 2001.…”
Section: Genetic Interactions Between Mph1 and Srs2 Mutationsmentioning
confidence: 99%
“…They may also be directly involved in the recognition of DNA damage, since several are similar to proteins involved in DNA metabolism (Table 1). Rad1 sp is similar to the Ustilago Rec1 exonuclease, the putative human Rad1 sp homolog (hRad1) displays exonuclease activity [15,16•], and Rad17 sp has limited similarity to replication factor C (RFC) [17]. Furthermore, S. cerevisiae homologs of Rad1 and Rad17 have been implicated in the processing of DNA damage [18].…”
Section: The Schizosaccharomyces Pombe G 2 Dna Damage Checkpointmentioning
confidence: 99%