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Summary Expression Phenotypes Gene Literature (51) GO Terms (14) Nucleotides (200) Proteins (50) Interactants (419) Wiki
XB-GENEPAGE-1016880

Papers associated with rad51



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BRCA2-HSF2BP oligomeric ring disassembly by BRME1 promotes homologous recombination., Ghouil R, Miron S, Sato K, Ristic D, van Rossum-Fikkert SE, Legrand P, Ouldali M, Winter JM, Ropars V, David G, Arteni AA, Wyman C, Knipscheer P, Kanaar R, Zelensky AN, Zinn-Justin S., Sci Adv. October 27, 2023; 9 (43): eadi7352.              

Water contamination by delorazepam induces epigenetic defects in the embryos of the clawed frog Xenopus laevis., Fogliano C, Motta CM, Acloque H, Avallone B, Carotenuto R., Sci Total Environ. October 20, 2023; 896 165300.          

POLθ prevents MRE11-NBS1-CtIP-dependent fork breakage in the absence of BRCA2/RAD51 by filling lagging-strand gaps., Mann A, Ramirez-Otero MA, De Antoni A, Hanthi YW, Sannino V, Baldi G, Falbo L, Schrempf A, Bernardo S, Loizou J, Costanzo V., Mol Cell. November 17, 2022; 82 (22): 4218-4231.e8.                              

N-terminal region of RecQ4 inhibits non-homologous end joining and chromatin association of the Ku heterodimer in Xenopus egg extracts., Tsuyama T, Fujita K, Sasaki R, Hamanaka S, Sotoyama Y, Ogawa A, Kusuzaki K, Azuma Y, Tada S., Gene. June 30, 2021; 787 145647.        

High nuclear TPX2 expression correlates with TP53 mutation and poor clinical behavior in a large breast cancer cohort, but is not an independent predictor of chromosomal instability., Matson DR, Denu RA, Zasadil LM, Burkard ME, Weaver BA, Flynn C, Stukenberg PT., BMC Cancer. February 23, 2021; 21 (1): 186.

Function and molecular mechanisms of APE2 in genome and epigenome integrity., Lin Y, McMahon A, Driscoll G, Bullock S, Zhao J, Yan S., Mutat Res Rev Mutat Res. January 1, 2021; 787 108347.

Review: Examining the Natural Role of Amphibian Antimicrobial Peptide Magainin., McMillan KAM, Coombs MRP., Molecules. November 20, 2020; 25 (22):           

HSF2BP negatively regulates homologous recombination in DNA interstrand crosslink repair., Sato K, Brandsma I, van Rossum-Fikkert SE, Verkaik N, Oostra AB, Dorsman JC, van Gent DC, Knipscheer P, Kanaar R, Zelensky AN., Nucleic Acids Res. March 18, 2020; 48 (5): 2442-2456.                    

Thermal Reduction of Graphene Oxide Mitigates Its In Vivo Genotoxicity Toward Xenopus laevis Tadpoles., Evariste L, Lagier L, Gonzalez P, Mottier A, Mouchet F, Cadarsi S, Lonchambon P, Daffe G, Chimowa G, Sarrieu C, Ompraret E, Galibert AM, Ghimbeu CM, Pinelli E, Flahaut E, Gauthier L., Nanomaterials (Basel). April 9, 2019; 9 (4):           

Mitotic CDK Promotes Replisome Disassembly, Fork Breakage, and Complex DNA Rearrangements., Deng L, Wu RA, Sonneville R, Kochenova OV, Labib K, Pellman D, Walter JC., Mol Cell. March 7, 2019; 73 (5): 915-929.e6.                              

Claspin - checkpoint adaptor and DNA replication factor., Smits VAJ, Cabrera E, Freire R, Gillespie DA., FEBS J. February 1, 2019; 286 (3): 441-455.

Nuclear ARP2/3 drives DNA break clustering for homology-directed repair., Schrank BR, Aparicio T, Li Y, Chang W, Chait BT, Gundersen GG, Gottesman ME, Gautier J., Nature. July 1, 2018; 559 (7712): 61-66.                              

Fanconi-Anemia-Associated Mutations Destabilize RAD51 Filaments and Impair Replication Fork Protection., Zadorozhny K, Sannino V, Beláň O, Mlčoušková J, Špírek M, Costanzo V, Krejčí L., Cell Rep. October 10, 2017; 21 (2): 333-340.                

Smarcal1-Mediated Fork Reversal Triggers Mre11-Dependent Degradation of Nascent DNA in the Absence of Brca2 and Stable Rad51 Nucleofilaments., Kolinjivadi AM, Sannino V, De Antoni A, Zadorozhny K, Kilkenny M, Técher H, Baldi G, Shen R, Ciccia A, Pellegrini L, Krejci L, Costanzo V., Mol Cell. September 7, 2017; 67 (5): 867-881.e7.                

Gamma-tubulin coordinates nuclear envelope assembly around chromatin., Rosselló CA, Lindström L, Glindre J, Eklund G, Alvarado-Kristensson M., Heliyon. September 24, 2016; 2 (9): e00166.                                        

Studying essential DNA metabolism proteins in Xenopus egg extract., Sannino V, Kolinjivadi AM, Baldi G, Costanzo V., Int J Dev Biol. January 1, 2016; 60 (7-8-9): 221-227.

Recovery capabilities of Xenopus laevis after exposure to Cadmium and Zinc., Mouchet F, Teaniniuraitemoana V, Baudrimont M, Daffe G, Gauthier L, Gonzalez P., Chemosphere. November 1, 2015; 139 117-25.

Magainin 2 induces bacterial cell death showing apoptotic properties., Lee W, Lee DG., Curr Microbiol. December 1, 2014; 69 (6): 794-801.

PCNA promotes processive DNA end resection by Exo1., Chen X, Paudyal SC, Chin RI, You Z., Nucleic Acids Res. November 1, 2013; 41 (20): 9325-38.              

The MCM8-MCM9 complex promotes RAD51 recruitment at DNA damage sites to facilitate homologous recombination., Park J, Long DT, Lee KY, Abbas T, Shibata E, Negishi M, Luo Y, Schimenti JC, Gambus A, Walter JC, Dutta A., Mol Cell Biol. April 1, 2013; 33 (8): 1632-44.

DNA2 and EXO1 in replication-coupled, homology-directed repair and in the interplay between HDR and the FA/BRCA network., Karanja KK, Cox SW, Duxin JP, Stewart SA, Campbell JL., Cell Cycle. November 1, 2012; 11 (21): 3983-96.              

Replication-independent repair of DNA interstrand crosslinks., Williams HL, Gottesman ME, Gautier J., Mol Cell. July 13, 2012; 47 (1): 140-7.        

Dynamic interactions of high Cdt1 and geminin levels regulate S phase in early Xenopus embryos., Kisielewska J, Blow JJ., Development. January 1, 2012; 139 (1): 63-74.              

RAD51- and MRE11-dependent reassembly of uncoupled CMG helicase complex at collapsed replication forks., Hashimoto Y, Puddu F, Costanzo V., Nat Struct Mol Biol. December 4, 2011; 19 (1): 17-24.          

Brca2, Rad51 and Mre11: performing balancing acts on replication forks., Costanzo V., DNA Repair (Amst). October 10, 2011; 10 (10): 1060-5.

Cdk1 uncouples CtIP-dependent resection and Rad51 filament formation during M-phase double-strand break repair., Peterson SE, Li Y, Chait BT, Gottesman ME, Baer R, Gautier J., J Cell Biol. September 5, 2011; 194 (5): 705-20.              

Mechanism of RAD51-dependent DNA interstrand cross-link repair., Long DT, Räschle M, Joukov V, Walter JC., Science. July 1, 2011; 333 (6038): 84-7.

Rad51 protects nascent DNA from Mre11-dependent degradation and promotes continuous DNA synthesis., Hashimoto Y, Ray Chaudhuri A, Lopes M, Costanzo V., Nat Struct Mol Biol. November 1, 2010; 17 (11): 1305-11.          

Identification of SMARCAL1 as a component of the DNA damage response., Postow L, Woo EM, Chait BT, Funabiki H., J Biol Chem. December 18, 2009; 284 (51): 35951-61.

PTIP/Swift is required for efficient PCNA ubiquitination in response to DNA damage., Göhler T, Munoz IM, Rouse J, Blow JJ., DNA Repair (Amst). May 3, 2008; 7 (5): 775-87.

ZNF143 interacts with p73 and is involved in cisplatin resistance through the transcriptional regulation of DNA repair genes., Wakasugi T, Izumi H, Uchiumi T, Suzuki H, Arao T, Nishio K, Kohno K., Oncogene. August 9, 2007; 26 (36): 5194-203.

Defining synphenotype groups in Xenopus tropicalis by use of antisense morpholino oligonucleotides., Rana AA, Collart C, Gilchrist MJ, Smith JC., PLoS Genet. November 17, 2006; 2 (11): e193.                                    

Xp54 and related (DDX6-like) RNA helicases: roles in messenger RNP assembly, translation regulation and RNA degradation., Weston A, Sommerville J., Nucleic Acids Res. June 12, 2006; 34 (10): 3082-94.          

Analysis of the Xenopus Werner syndrome protein in DNA double-strand break repair., Yan H, McCane J, Toczylowski T, Chen C., J Cell Biol. October 24, 2005; 171 (2): 217-27.              

Identification of the subunit-subunit interface of Xenopus Rad51.1 protein: similarity to RecA., Selmane T, Camadro JM, Conilleau S, Fleury F, Tran V, Prévost C, Takahashi M., J Mol Biol. January 23, 2004; 335 (4): 895-904.

Inactivation of Mre11 does not affect VSG gene duplication mediated by homologous recombination in Trypanosoma brucei., Robinson NP, McCulloch R, Conway C, Browitt A, Barry JD., J Biol Chem. July 19, 2002; 277 (29): 26185-93.

Perturbation of SUMOlation enzyme Ubc9 by distinct domain within nucleoporin RanBP2/Nup358., Saitoh H, Pizzi MD, Wang J., J Biol Chem. February 15, 2002; 277 (7): 4755-63.

Functional communication between endogenous BRCA1 and its partner, BARD1, during Xenopus laevis development., Joukov V, Chen J, Fox EA, Green JB, Livingston DM., Proc Natl Acad Sci U S A. October 9, 2001; 98 (21): 12078-83.                

Effect of ions and nucleotides on the interactions of yeast Rad51 protein with single-stranded oligonucleotides., Kim JM, Maraboeuf F, Kim SK, Shinohara A, Takahashi M., J Biochem. March 1, 2001; 129 (3): 469-75.

A cell cycle-specific requirement for the XRCC1 BRCT II domain during mammalian DNA strand break repair., Taylor RM, Moore DJ, Whitehouse J, Johnson P, Caldecott KW., Mol Cell Biol. January 1, 2000; 20 (2): 735-40.

Newt RAD51: cloning of cDNA and analysis of gene expression during spermatogenesis., Yamamoto T, Hikino T, Nakayama Y, Abé S., Dev Growth Differ. August 1, 1999; 41 (4): 401-6.

Nucleotide dependent structural and kinetic changes in Xenopus rad51.1-DNA complex stimulating the strand exchange reaction: destacking of DNA bases and restriction of their local motion., Maeshima K, Maraboeuf F, Morimatsu K, Horii T, Takahashi M., J Mol Biol. December 4, 1998; 284 (3): 689-97.

Topological complexity of different populations of pBR322 as visualized by two-dimensional agarose gel electrophoresis., Martín-Parras L, Lucas I, Martínez-Robles ML, Hernández P, Krimer DB, Hyrien O, Schvartzman JB., Nucleic Acids Res. July 15, 1998; 26 (14): 3424-32.

Nucleotide cofactor-dependent structural change of Xenopus laevis Rad51 protein filament detected by small-angle neutron scattering measurements in solution., Ellouze C, Kim HK, Maeshima K, Tuite E, Morimatsu K, Horii T, Mortensen K, Nordén B, Takahashi M., Biochemistry. November 4, 1997; 36 (44): 13524-9.

Purification and characterization of XRad51.1 protein, Xenopus RAD51 homologue: recombinant XRad51.1 promotes strand exchange reaction., Maeshima K, Morimatsu K, Horii T., Genes Cells. December 1, 1996; 1 (12): 1057-68.

RAD51 homologues in Xenopus laevis: two distinct genes are highly expressed in ovary and testis., Maeshima K, Morimatsu K, Shinohara A, Horii T., Gene. July 28, 1995; 160 (2): 195-200.

Rapid and apparently error-prone excision repair of nonreplicating UV-irradiated plasmids in Xenopus laevis oocytes., Hays JB, Ackerman EJ, Pang QS., Mol Cell Biol. July 1, 1990; 10 (7): 3505-11.

xlgv7: a maternal gene product localized in nuclei of the central nervous system in Xenopus laevis., Miller M, Kloc M, Reddy B, Eastman E, Dreyer C, Etkin L., Genes Dev. April 1, 1989; 3 (4): 572-83.                

Xenopus transcription factor IIIA-dependent DNA renaturation., Fiser-Littell RM, Hanas JS., J Biol Chem. November 15, 1988; 263 (32): 17136-41.

RecBC, sbcB independent, (AT)n-mediated deletion of sequences flanking a Xenopus laevis beta globin gene on propagation in E. coli., Greaves DR, Patient RK., Nucleic Acids Res. May 27, 1986; 14 (10): 4147-58.

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