| scholarly article | Q13442814 |
| P50 | author | Judy Lieberman | Q89574003 |
| P2093 | author name string | Dipanjan Chowdhury | |
| Craig L Peterson | |||
| Michael-Christopher Keogh | |||
| Stephen Buratowski | |||
| Haruhiko Ishii | |||
| P433 | issue | 5 | |
| P304 | page(s) | 801-809 | |
| P577 | publication date | 2005-11-28 | |
| P1433 | published in | Molecular Cell | Q3319468 |
| P1476 | title | gamma-H2AX dephosphorylation by protein phosphatase 2A facilitates DNA double-strand break repair | |
| P478 | volume | 20 |
| Q92420258 | A Drosophila cell-free system that senses DNA breaks and triggers phosphorylation signalling |
| Q24299264 | A PP4 phosphatase complex dephosphorylates RPA2 to facilitate DNA repair via homologous recombination |
| Q24626425 | A PP4-phosphatase complex dephosphorylates gamma-H2AX generated during DNA replication |
| Q48104450 | A Role for the Twins Protein Phosphatase (PP2A-B55) in the Maintenance of Drosophila Genome Integrity |
| Q33489221 | A genome-wide siRNA screen reveals diverse cellular processes and pathways that mediate genome stability |
| Q37350638 | A nonhomologous end-joining pathway is required for protein phosphatase 2A promotion of DNA double-strand break repair |
| Q24682800 | A novel histone exchange factor, protein phosphatase 2Cgamma, mediates the exchange and dephosphorylation of H2A-H2B |
| Q36016499 | A p53 axis regulates B cell receptor-triggered, innate immune system-driven B cell clonal expansion |
| Q27933727 | A phosphatase complex that dephosphorylates gammaH2AX regulates DNA damage checkpoint recovery |
| Q41198504 | A phosphorylation switch regulates the transcriptional activation of cell cycle regulator p21 by histone deacetylase inhibitors. |
| Q42262923 | A specific inhibitor of protein kinase CK2 delays gamma-H2Ax foci removal and reduces clonogenic survival of irradiated mammalian cells |
| Q35259213 | ASF1A and ATM regulate H3K56-mediated cell-cycle checkpoint recovery in response to UV irradiation |
| Q35946391 | ASY1 mediates AtDMC1-dependent interhomolog recombination during meiosis in Arabidopsis. |
| Q35865561 | ATP-dependent chromatin remodeling factors and DNA damage repair |
| Q38862365 | Absolute quantification of acetylation and phosphorylation of the histone variant H2AX upon ionizing radiation reveals distinct cellular responses in two cancer cell lines |
| Q28593756 | Alpha4 is an essential regulator of PP2A phosphatase activity |
| Q37121891 | An engineered bivalent neuregulin protects against doxorubicin-induced cardiotoxicity with reduced proneoplastic potential. |
| Q33948911 | Analysis of individual molecular events of DNA damage response by flow- and image-assisted cytometry |
| Q36065662 | Association of ATM activation and DNA repair with induced radioresistance after low-dose irradiation |
| Q37802011 | At the stem of youth and health |
| Q38610354 | Ataxia telangiectasia-mutated damage-signaling kinase- and proteasome-dependent destruction of Mre11-Rad50-Nbs1 subunits in Simian virus 40-infected primate cells |
| Q33589397 | Bcl2 negatively regulates DNA double-strand-break repair through a nonhomologous end-joining pathway |
| Q37875377 | Beyond ATM: the protein kinase landscape of the DNA damage response |
| Q39003035 | Biological effects of (125)i seeds radiation on A549 lung cancer cells: G2/M arrest and enhanced cell death |
| Q35597445 | Calibration of the γ-H2AX DNA double strand break focus assay for internal radiation exposure of blood lymphocytes |
| Q92636595 | Cell Cycle and DNA Repair Regulation in the Damage Response: Protein Phosphatases Take Over the Reins |
| Q37628726 | Cell signalling and radiation survival: the impact of protein phosphatases |
| Q52723382 | Cell-line dependent effects of hypoxia prior to irradiation in squamous cell carcinoma lines. |
| Q36447371 | Cellular defects caused by hypomorphic variants of the Bloom syndrome helicase gene BLM. |
| Q37600456 | Chapter 6. Application of new methods for detection of DNA damage and repair |
| Q45925903 | Characterization of the role of a trimeric protein phosphatase complex in recovery from cisplatin-induced versus noncrosslinking DNA damage. |
| Q37941374 | Checkpoint control and cancer. |
| Q38068091 | Chromatin and the genome integrity network. |
| Q33729186 | Chromatin at the intersection of viral infection and DNA damage |
| Q37760043 | Chromatin dynamics during repair of chromosomal DNA double-strand breaks |
| Q36676071 | Chromatin modifications and DNA double-strand breaks: the current state of play |
| Q38253643 | Chromatin modifications and DNA repair: beyond double-strand breaks |
| Q36558897 | Chromatin modulation and the DNA damage response |
| Q37321372 | Chromatin recruitment of DNA repair proteins: lessons from the fanconi anemia and double-strand break repair pathways. |
| Q36660520 | Chromatin remodeling and repair of DNA double-strand breaks |
| Q37128128 | Chromatin remodeling finds its place in the DNA double-strand break response |
| Q37961878 | Chromatin response to DNA double-strand break damage |
| Q40868345 | Chromosome territories reposition during DNA damage-repair response |
| Q34140001 | Cohesin protects genes against γH2AX Induced by DNA double-strand breaks |
| Q37398600 | Connection between histone H2A variants and chromatin remodeling complexes |
| Q35856903 | Contribution of the serine 129 of histone H2A to chromatin structure |
| Q28251838 | Counterbalance between RB inactivation and miR-17-92 overexpression in reactive oxygen species and DNA damage induction in lung cancers |
| Q27310439 | Cyclin G Functions as a Positive Regulator of Growth and Metabolism in Drosophila |
| Q33290461 | Cytometry of ATM activation and histone H2AX phosphorylation to estimate extent of DNA damage induced by exogenous agents |
| Q33873505 | DNA cross-linking, double-strand breaks, and apoptosis in corneal endothelial cells after a single exposure to mitomycin C. |
| Q38405830 | DNA damage checkpoint recovery and cancer development |
| Q64387140 | DNA damage in blood leucocytes of prostate cancer patients during therapy with Lu-PSMA |
| Q36011116 | DNA damage in blood lymphocytes in patients after (177)Lu peptide receptor radionuclide therapy. |
| Q48042018 | DNA damage in leukocytes after internal ex-vivo irradiation of blood with the α-emitter Ra-223. |
| Q28393323 | DNA damage response induced by tobacco smoke in normal human bronchial epithelial and A549 pulmonary adenocarcinoma cells assessed by laser scanning cytometry |
| Q26822413 | DNA damage signaling assessed in individual cells in relation to the cell cycle phase and induction of apoptosis |
| Q35381608 | DNA damage: a sensible mediator of the differentiation decision in hematopoietic stem cells and in leukemia. |
| Q34360500 | DNA double-strand break signaling and human disorders |
| Q80008501 | DNA profiling analysis of 100 consecutive de novo acute myeloid leukemia cases reveals patterns of genomic instability that affect all cytogenetic risk groups |
| Q33537400 | DNA-PKcs plays a dominant role in the regulation of H2AX phosphorylation in response to DNA damage and cell cycle progression |
| Q64091697 | Delayed γH2AX foci disappearance in mammary epithelial cells from aged women reveals an age-associated DNA repair defect |
| Q24313879 | Dephosphorylation of the C-terminal tyrosyl residue of the DNA damage-related histone H2A.X is mediated by the protein phosphatase eyes absent |
| Q37698587 | Dephosphorylation of γ-H2AX by WIP1: an important homeostatic regulatory event in DNA repair and cell cycle control |
| Q38023415 | Design stars: how small DNA viruses remodel the host nucleus |
| Q30431944 | Destabilization of TIP60 by human papillomavirus E6 results in attenuation of TIP60-dependent transcriptional regulation and apoptotic pathway |
| Q41780852 | Differences in Phosphorylated Histone H2AX Foci Formation and Removal of Cells Exposed to Low and High Linear Energy Transfer Radiation. |
| Q39148112 | Differential effect of hypoxia on etoposide-induced DNA damage response and p53 regulation in different cell types |
| Q47146141 | Digoxin enhances radiation response in radioresistant A549 cells by reducing protein phosphatase 2A. |
| Q55512207 | Double Strand Break DNA Repair occurs via Non-Homologous End-Joining in Mouse MII Oocytes. |
| Q37822707 | Double-strand breaks and the concept of short- and long-term epigenetic memory. |
| Q24608343 | Dynamics of DNA damage response proteins at DNA breaks: a focus on protein modifications |
| Q92596472 | Effect of the Large and Small T-Antigens of Human Polyomaviruses on Signaling Pathways |
| Q36743535 | Emerging roles of nuclear protein phosphatases |
| Q28749982 | Epigenetic mechanisms in mammals |
| Q24607287 | Epigenetic modifications in double-strand break DNA damage signaling and repair |
| Q64260686 | Escherichia Coli Outer Membrane Vesicles Induced DNA Double-Strand Breaks in Intestinal Epithelial Caco-2 Cells |
| Q60048083 | Evaluating Gamma-H2AX Expression as a Biomarker of DNA Damage after X-ray in Angiography Patients |
| Q39893311 | Explanation for excessive DNA single-strand breaks and endogenous repair foci in pluripotent mouse embryonic stem cells |
| Q41842719 | Expression and regulation of type 2A protein phosphatases and alpha4 signalling in cardiac health and hypertrophy |
| Q36579359 | Five repair pathways in one context: chromatin modification during DNA repair |
| Q36963162 | Focus on histone variant H2AX: to be or not to be. |
| Q37347174 | Formation of dynamic gamma-H2AX domains along broken DNA strands is distinctly regulated by ATM and MDC1 and dependent upon H2AX densities in chromatin. |
| Q37261069 | Gamma-H2AX in recognition and signaling of DNA double-strand breaks in the context of chromatin |
| Q36148914 | Gamma-H2AX upregulation caused by Wip1 deficiency increases depression-related cellular senescence in hippocampus |
| Q29614974 | GammaH2AX and cancer |
| Q36579390 | GammaH2AX and its role in DNA double-strand break repair |
| Q40042252 | Genetic variants in PPP2CA are associated with gastric cancer risk in a Chinese population |
| Q41660493 | Genome Instability and γH2AX. |
| Q80731900 | Genome scan implicates adhesion biological pathways in secondary leukemia |
| Q92477508 | Genomic Integrity Safeguards Self-Renewal in Embryonic Stem Cells |
| Q94686254 | Genotoxic stress triggers the activation of IRE1α-dependent RNA decay to modulate the DNA damage response |
| Q35132069 | H2AX chromatin structures and their response to DNA damage revealed by 4Pi microscopy |
| Q36001923 | H2AX phosphorylation at the sites of DNA double-strand breaks in cultivated mammalian cells and tissues |
| Q33847860 | H2AX phosphorylation screen of cells from radiosensitive cancer patients reveals a novel DNA double-strand break repair cellular phenotype |
| Q82452820 | HSP72 depletion suppresses gammaH2AX activation by genotoxic stresses via p53/p21 signaling |
| Q40068992 | Hepatitis C virus NS3/4A protein interacts with ATM, impairs DNA repair and enhances sensitivity to ionizing radiation. |
| Q42830844 | Hepatitis C virus-induced up-regulation of protein phosphatase 2A inhibits histone modification and DNA damage repair |
| Q37843473 | Heterochromatin and the DNA damage response: the need to relax |
| Q58609638 | Histone Modifications and the DNA Double-Strand Break Response |
| Q34121643 | Histone XH2AX is required for Xenopus anterior neural development: critical role of threonine 16 phosphorylation. |
| Q36994149 | Histone chaperones: an escort network regulating histone traffic |
| Q38716430 | Histone modifications in DNA damage response |
| Q34297533 | Histone phosphorylation: a chromatin modification involved in diverse nuclear events |
| Q38208178 | Histone variants: key players of chromatin |
| Q38355887 | Histone variants: the artists of eukaryotic chromatin |
| Q34134483 | Histone γH2AX and Poly(ADP-Ribose) as Clinical Pharmacodynamic Biomarkers |
| Q38903158 | Human JC virus small tumour antigen inhibits nucleotide excision repair and sensitises cells to DNA-damaging agents. |
| Q30441323 | Human Rvb1/Tip49 is required for the histone acetyltransferase activity of Tip60/NuA4 and for the downregulation of phosphorylation on H2AX after DNA damage |
| Q40199767 | Human cytomegalovirus disrupts both ataxia telangiectasia mutated protein (ATM)- and ATM-Rad3-related kinase-mediated DNA damage responses during lytic infection |
| Q21091196 | Hyperactivation of DNA-PK by double-strand break mimicking molecules disorganizes DNA damage response |
| Q47135345 | IER5 is involved in DNA Double-Strand Breaks Repair in Association with PAPR1 in Hela Cells |
| Q35472154 | Identification of a fragment-like small molecule ligand for the methyl-lysine binding protein, 53BP1. |
| Q34428739 | Increased γ-H2A.X intensity in response to chronic medium-dose-rate γ-ray irradiation |
| Q34121601 | Induction and repair of DNA double-strand breaks assessed by gamma-H2AX foci after irradiation with pulsed or continuous proton beams. |
| Q34777845 | Inhibition of protein phosphatase 2A radiosensitizes pancreatic cancers by modulating CDC25C/CDK1 and homologous recombination repair |
| Q34365755 | Inhibition of protein phosphatase 2A with a small molecule LB100 radiosensitizes nasopharyngeal carcinoma xenografts by inducing mitotic catastrophe and blocking DNA damage repair |
| Q36003205 | Initiation of DNA double strand break repair: signaling and single-stranded resection dictate the choice between homologous recombination, non-homologous end-joining and alternative end-joining |
| Q64883630 | Integrating the DNA damage and protein stress responses during cancer development and treatment. |
| Q37500155 | Interaction between viral proteins and hosts and its disturbance in the cellular responses to ionising radiation |
| Q37797693 | Interplay Between Different Epigenetic Modifications and Mechanisms |
| Q30032667 | Involvement of GLTSCR2 in the DNA Damage Response |
| Q36579347 | Is histone loss a common feature of DNA metabolism regulation? |
| Q59346828 | LNT: a never-ending story |
| Q39505755 | Leucine Carboxyl Methyltransferase 1 (LCMT-1) Methylates Protein Phosphatase 4 (PP4) and Protein Phosphatase 6 (PP6) and Differentially Regulates the Stable Formation of Different PP4 Holoenzymes |
| Q52981183 | Lipoic acid induces p53-independent cell death in colorectal cancer cells and potentiates the cytotoxicity of 5-fluorouracil. |
| Q34288868 | Loss of CCDC6, the first identified RET partner gene, affects pH2AX S139 levels and accelerates mitotic entry upon DNA damage. |
| Q37398637 | Marks to stop the clock: histone modifications and checkpoint regulation in the DNA damage response |
| Q36900909 | Meiotic roles of Mec1, a budding yeast homolog of mammalian ATR/ATM. |
| Q34328693 | Minichromosome maintenance 2 bound with retroviral Gp70 is localized to cytoplasm and enhances DNA-damage-induced apoptosis |
| Q37623815 | Modifying chromatin architecture during the response to DNA breakage |
| Q36892504 | Modulation of protein phosphatase 2A activity alters androgen-independent growth of prostate cancer cells: therapeutic implications |
| Q60301058 | Molecular and epigenetic regulatory mechanisms of normal stem cell radiosensitivity |
| Q33638864 | Monitoring drug-induced gammaH2AX as a pharmacodynamic biomarker in individual circulating tumor cells |
| Q91634061 | Multi-level Proteomics Identifies CT45 as a Chemosensitivity Mediator and Immunotherapy Target in Ovarian Cancer |
| Q34176919 | Multifunctional role of ATM/Tel1 kinase in genome stability: from the DNA damage response to telomere maintenance |
| Q36585497 | Mutations in String/CDC25 inhibit cell cycle re-entry and neurodegeneration in a Drosophila model of Ataxia telangiectasia |
| Q39738661 | Negative regulation of CHK2 activity by protein phosphatase 2A is modulated by DNA damage |
| Q38952935 | Nek7 Protects Telomeres from Oxidative DNA Damage by Phosphorylation and Stabilization of TRF1. |
| Q34493945 | Novel functions of the phosphatase SHP2 in the DNA replication and damage checkpoints |
| Q37122315 | Nucleosome dynamics as modular systems that integrate DNA damage and repair |
| Q38795194 | Oocyte exposure to ZnO nanoparticles inhibits early embryonic development through the γ-H2AX and NF-κB signaling pathways |
| Q38777487 | Opposing roles of RNF8/RNF168 and deubiquitinating enzymes in ubiquitination-dependent DNA double-strand break response signaling and DNA-repair pathway choice |
| Q34662254 | Orchestration of chromatin-based processes: mind the TRRAP. |
| Q55381199 | Organ preservation in rectal cancer - Challenges and future strategies. |
| Q38022938 | Overview for the histone codes for DNA repair |
| Q39672062 | Oxidative DNA damage contributes to the toxic activity of propylparaben in mammalian cells |
| Q37392383 | PIKK-dependent phosphorylation of Mre11 induces MRN complex inactivation by disassembly from chromatin |
| Q38746849 | PP2A as a master regulator of the cell cycle |
| Q28117742 | PP4 is a gamma H2AX phosphatase required for recovery from the DNA damage checkpoint |
| Q33617085 | Papillomaviruses: a systematic review. |
| Q35167161 | Paraspeckle protein 1 (PSPC1) is involved in the cisplatin induced DNA damage response--role in G1/S checkpoint |
| Q34326211 | Persistent DNA damage after high dose in vivo gamma exposure of minipig skin |
| Q56798186 | Phosphatase Type 2A-dependent and -independent Pathways for ATR Phosphorylation of Chk1 |
| Q34198570 | Phosphatases in the cellular response to DNA damage. |
| Q91958107 | Phosphoglycerate Mutase 1 Activates DNA Damage Repair via Regulation of WIP1 Activity |
| Q42182193 | Phosphoproteomic analysis reveals that PP4 dephosphorylates KAP-1 impacting the DNA damage response |
| Q35131775 | Phosphorylation of Chk1 by ATR is antagonized by a Chk1-regulated protein phosphatase 2A circuit |
| Q42738107 | Phosphorylation of the SQ H2A.X motif is required for proper meiosis and mitosis in Tetrahymena thermophila |
| Q53827263 | Post-Translational Modifications of H2A Histone Variants and Their Role in Cancer. |
| Q33829179 | Post-meiotic DNA double-strand breaks occur in Tetrahymena, and require Topoisomerase II and Spo11. |
| Q35836388 | Protein Phosphatase 2A Inhibition with LB100 Enhances Radiation-Induced Mitotic Catastrophe and Tumor Growth Delay in Glioblastoma. |
| Q34255369 | Protein phosphatase 1γ is responsible for dephosphorylation of histone H3 at Thr 11 after DNA damage |
| Q47420946 | Protein phosphatase 2A and tau: an orchestrated 'Pas de Deux'. |
| Q90339355 | Protein phosphatase 2A controls ongoing DNA replication by binding to and regulating cell division cycle 45 (CDC45) |
| Q36908131 | Protein phosphatase 2A has an essential role in the activation of gamma-irradiation-induced G2/M checkpoint response |
| Q34130984 | Protein phosphatase 2A mediates dormancy of glioblastoma multiforme-derived tumor stem-like cells during hypoxia |
| Q33496409 | Protein phosphatase 2A-dependent dephosphorylation of replication protein A is required for the repair of DNA breaks induced by replication stress |
| Q47109059 | Protein phosphatase 4 regulatory subunit 2 (PPP4R2) is recurrently deleted in acute myeloid leukemia and required for efficient DNA double strand break repair |
| Q39889904 | Protein phosphatase 5 regulates the function of 53BP1 after neocarzinostatin-induced DNA damage |
| Q33705076 | Protein phosphatase 6 interacts with the DNA-dependent protein kinase catalytic subunit and dephosphorylates gamma-H2AX. |
| Q83218848 | Protein phosphatase PP4 is overexpressed in human breast and lung tumors |
| Q35050820 | Protein phosphatase PP6 is required for homology-directed repair of DNA double-strand breaks |
| Q35530396 | Protein phosphatase Pph3 and its regulatory subunit Psy2 regulate Rad53 dephosphorylation and cell morphogenesis during recovery from DNA damage in Candida albicans |
| Q60922491 | Protein phosphatases in chromatin structure and function |
| Q47145144 | Protein-lysine methyltransferases G9a and GLP1 promote responses to DNA damage |
| Q38133962 | Push back to respond better: regulatory inhibition of the DNA double-strand break response |
| Q38214443 | Quality control of homologous recombination |
| Q35187338 | Quantification of gammaH2AX foci in response to ionising radiation. |
| Q39882034 | RAD18 promotes DNA double-strand break repair during G1 phase through chromatin retention of 53BP1. |
| Q51456781 | RHOB expression controls the activity of serine/threonine protein phosphatase PP2A to modulate mesenchymal phenotype and invasion in non-small cell lung cancers. |
| Q42924860 | RSC mobilizes nucleosomes to improve accessibility of repair machinery to the damaged chromatin |
| Q30435879 | RVB1/RVB2: running rings around molecular biology |
| Q37645037 | Radiation induces premature chromatid separation via the miR-142-3p/Bod1 pathway in carcinoma cells |
| Q39986158 | Rb function is required for E1A-induced S-phase checkpoint activation |
| Q39154755 | Recruitment of cyclin G2 to promyelocytic leukemia nuclear bodies promotes dephosphorylation of γH2AX following treatment with ionizing radiation |
| Q37823657 | Regulation of DNA fragmentation: the role of caspases and phosphorylation |
| Q39734421 | Repo-man controls a protein phosphatase 1-dependent threshold for DNA damage checkpoint activation |
| Q40227628 | Repression of RAD51 gene expression by E2F4/p130 complexes in hypoxia |
| Q43101429 | Response to DNA damage: why do we need to focus on protein phosphatases? |
| Q38986550 | RhoB promotes γH2AX dephosphorylation and DNA double-strand break repair |
| Q52688445 | Role of Protein Phosphatase 1 and Inhibitor of Protein Phosphatase 1 in Nitric Oxide-Dependent Inhibition of the DNA Damage Response in Pancreatic β-Cells. |
| Q50854241 | Role of a novel benzoxazine derivative in the chemosensitization of colon cancer. |
| Q92932427 | Role of protein phosphatases PP1, PP2A, PP4 and Cdc14 in the DNA damage response |
| Q41991740 | Roles of ATM and ATR-mediated DNA damage responses during lytic BK polyomavirus infection |
| Q24307960 | SUMOylation of the transcriptional co-repressor KAP1 is regulated by the serine and threonine phosphatase PP1 |
| Q37420110 | Ser1778 of 53BP1 Plays a Role in DNA Double-strand Break Repairs |
| Q37788536 | Serine/threonine phosphatases in the DNA damage response and cancer |
| Q37078672 | Stwl modifies chromatin compaction and is required to maintain DNA integrity in the presence of perturbed DNA replication. |
| Q36419741 | TRAIP promotes DNA damage response during genome replication and is mutated in primordial dwarfism |
| Q74441832 | Tails of histones lost |
| Q36544248 | Targeting MCM2 function as a novel strategy for the treatment of highly malignant breast tumors |
| Q58542302 | Targeting PP2A in cancer: Combination therapies |
| Q35597009 | Telomere shortening alters the kinetics of the DNA damage response after ionizing radiation in human cells |
| Q37384129 | Telomeres, histone code, and DNA damage response |
| Q28550106 | The Adenovirus E4orf4 Protein Provides a Novel Mechanism for Inhibition of the DNA Damage Response |
| Q24310746 | The F box protein Fbx6 regulates Chk1 stability and cellular sensitivity to replication stress |
| Q36512362 | The Flaxseed-Derived Lignan Phenolic Secoisolariciresinol Diglucoside (SDG) Protects Non-Malignant Lung Cells from Radiation Damage |
| Q28385968 | The HINT1 tumor suppressor regulates both gamma-H2AX and ATM in response to DNA damage |
| Q36908407 | The MYST family of histone acetyltransferases and their intimate links to cancer. |
| Q39663183 | The NF90/NF45 complex participates in DNA break repair via nonhomologous end joining |
| Q24309142 | The Rap80-BRCC36 de-ubiquitinating enzyme complex antagonizes RNF8-Ubc13-dependent ubiquitination events at DNA double strand breaks |
| Q92298797 | The Transmembrane Protein Semi1 Positions Gamete Nuclei for Reciprocal Fertilization in Tetrahymena |
| Q42492466 | The accumulation of un-repairable DNA damage in laminopathy progeria fibroblasts is caused by ROS generation and is prevented by treatment with N-acetyl cysteine |
| Q40195606 | The adenoviral E4orf6 protein induces atypical apoptosis in response to DNA damage. |
| Q37843633 | The cellular response to DNA damage: a focus on MDC1 and its interacting proteins |
| Q36340722 | The emerging role of nuclear architecture in DNA repair and genome maintenance |
| Q42416351 | The function and regulation of budding yeast Swe1 in response to interrupted DNA synthesis |
| Q37038673 | The gamma-H2A.X: is it just a surrogate marker of double-strand breaks or much more? |
| Q39852375 | The heat-induced gamma-H2AX response does not play a role in hyperthermic cell killing |
| Q48333891 | The initiator caspase Dronc plays a non-apoptotic role in promoting DNA damage signalling in D. melanogaster |
| Q34590928 | The many faces of ubiquitinated histone H2A: insights from the DUBs |
| Q39761186 | The p53-inducible gene 3 (PIG3) contributes to early cellular response to DNA damage |
| Q36019903 | The protein phosphatase 2A inhibitor LB100 sensitizes ovarian carcinoma cells to cisplatin-mediated cytotoxicity |
| Q34234762 | The role of DNA damage in laminopathy progeroid syndromes |
| Q40219964 | The tandem BRCT domain of 53BP1 is not required for its repair function |
| Q41130676 | Topoisomerase IIalpha-dependent induction of a persistent DNA damage response in response to transient etoposide exposure. |
| Q37041046 | Torin2 Suppresses Ionizing Radiation-Induced DNA Damage Repair |
| Q52715830 | Transient PP2A inhibition alleviates normal tissue stem cell susceptibility to cell death during radiotherapy. |
| Q61812011 | Transition from a meiotic to a somatic-like DNA damage response during the pachytene stage in mouse meiosis |
| Q90029400 | USP11 acts as a histone deubiquitinase functioning in chromatin reorganization during DNA repair |
| Q36118000 | Ultra-short laser-accelerated proton pulses have similar DNA-damaging effectiveness but produce less immediate nitroxidative stress than conventional proton beams |
| Q26827821 | What goes on must come off: phosphatases gate-crash the DNA damage response |
| Q38241194 | When genome integrity and cell cycle decisions collide: roles of polo kinases in cellular adaptation to DNA damage |
| Q24297983 | Wild-type p53-induced phosphatase 1 dephosphorylates histone variant gamma-H2AX and suppresses DNA double strand break repair |
| Q33994571 | Wip1 directly dephosphorylates gamma-H2AX and attenuates the DNA damage response |
| Q39747969 | Wip1 phosphatase is associated with chromatin and dephosphorylates gammaH2AX to promote checkpoint inhibition |
| Q36520720 | c-Myc suppression of DNA double-strand break repair |
| Q37687078 | gammaH2AX: a sensitive molecular marker of DNA damage and repair |
| Q35883840 | hMSH5 Facilitates the Repair of Camptothecin-induced Double-strand Breaks through an Interaction with FANCJ. |
| Q38255171 | p53 and the PWWP domain containing effector proteins in chromatin damage repair |
| Q38759968 | p53 induces formation of NEAT1 lncRNA-containing paraspeckles that modulate replication stress response and chemosensitivity |
| Q46369825 | γH2AX foci formation in the absence of DNA damage: mitotic H2AX phosphorylation is mediated by the DNA-PKcs/CHK2 pathway |
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