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Journal Abstract Search

237 related items for PubMed ID: 37036693

  • 1. RFWD3 promotes ZRANB3 recruitment to regulate the remodeling of stalled replication forks.
    Moore CE, Yalcindag SE, Czeladko H, Ravindranathan R, Wijesekara Hanthi Y, Levy JC, Sannino V, Schindler D, Ciccia A, Costanzo V, Elia AEH.
    J Cell Biol; 2023 May 01; 222(5):. PubMed ID: 37036693
    [Abstract] [Full Text] [Related]

  • 2. E3 ligase RFWD3 is a novel modulator of stalled fork stability in BRCA2-deficient cells.
    Duan H, Mansour S, Reed R, Gillis MK, Parent B, Liu B, Sztupinszki Z, Birkbak N, Szallasi Z, Elia AEH, Garber JE, Pathania S.
    J Cell Biol; 2020 Jun 01; 219(6):. PubMed ID: 32391871
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  • 8. Restoration of Replication Fork Stability in BRCA1- and BRCA2-Deficient Cells by Inactivation of SNF2-Family Fork Remodelers.
    Taglialatela A, Alvarez S, Leuzzi G, Sannino V, Ranjha L, Huang JW, Madubata C, Anand R, Levy B, Rabadan R, Cejka P, Costanzo V, Ciccia A.
    Mol Cell; 2017 Oct 19; 68(2):414-430.e8. PubMed ID: 29053959
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  • 9. A RAD18-UBC13-PALB2-RNF168 axis mediates replication fork recovery in BRCA1-deficient cancer cells.
    Cybulla E, Wallace S, Meroni A, Jackson J, Agashe S, Tennakoon M, Limbu M, Quinet A, Lomonosova E, Noia H, Tirman S, Wood M, Lemacon D, Fuh K, Zou L, Vindigni A.
    Nucleic Acids Res; 2024 Aug 27; 52(15):8861-8879. PubMed ID: 38943334
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  • 11. RPA-Mediated Recruitment of the E3 Ligase RFWD3 Is Vital for Interstrand Crosslink Repair and Human Health.
    Feeney L, Muñoz IM, Lachaud C, Toth R, Appleton PL, Schindler D, Rouse J.
    Mol Cell; 2017 Jun 01; 66(5):610-621.e4. PubMed ID: 28575657
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  • 13. Cockayne syndrome group B protein regulates fork restart, fork progression and MRE11-dependent fork degradation in BRCA1/2-deficient cells.
    Batenburg NL, Mersaoui SY, Walker JR, Coulombe Y, Hammond-Martel I, Wurtele H, Masson JY, Zhu XD.
    Nucleic Acids Res; 2021 Dec 16; 49(22):12836-12854. PubMed ID: 34871413
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  • 14. Structural insights into the function of ZRANB3 in replication stress response.
    Sebesta M, Cooper CDO, Ariza A, Carnie CJ, Ahel D.
    Nat Commun; 2017 Jun 16; 8():15847. PubMed ID: 28621305
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  • 15. Nuclear insulin-like growth factor 1 receptor phosphorylates proliferating cell nuclear antigen and rescues stalled replication forks after DNA damage.
    Waraky A, Lin Y, Warsito D, Haglund F, Aleem E, Larsson O.
    J Biol Chem; 2017 Nov 03; 292(44):18227-18239. PubMed ID: 28924044
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  • 16. Smarcal1 and Zranb3 Protect Replication Forks from Myc-Induced DNA Replication Stress.
    Puccetti MV, Adams CM, Kushinsky S, Eischen CM.
    Cancer Res; 2019 Apr 01; 79(7):1612-1623. PubMed ID: 30610086
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  • 17. The ZATT-TOP2A-PICH Axis Drives Extensive Replication Fork Reversal to Promote Genome Stability.
    Tian T, Bu M, Chen X, Ding L, Yang Y, Han J, Feng XH, Xu P, Liu T, Ying S, Lei Y, Li Q, Huang J.
    Mol Cell; 2021 Jan 07; 81(1):198-211.e6. PubMed ID: 33296677
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  • 18. E3 ligase RFWD3 participates in replication checkpoint control.
    Gong Z, Chen J.
    J Biol Chem; 2011 Jun 24; 286(25):22308-13. PubMed ID: 21504906
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  • 19. The HIRAN domain of helicase-like transcription factor positions the DNA translocase motor to drive efficient DNA fork regression.
    Chavez DA, Greer BH, Eichman BF.
    J Biol Chem; 2018 Jun 01; 293(22):8484-8494. PubMed ID: 29643183
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  • 20. The E3 ligase RFWD3 stabilizes ORC in a p53-dependent manner.
    Hsu RYC, Giri S, Wang Y, Lin YC, Liu D, Wopat S, Chakraborty A, Prasanth KV, Prasanth SG.
    Cell Cycle; 2020 Nov 01; 19(21):2927-2938. PubMed ID: 33044890
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