scholarly article | Q13442814 |
P50 | author | Shane A. Richards | Q59692914 |
Kai Rothkamm | Q39034555 | ||
Roy A Quinlan | Q56493450 | ||
P2093 | author name string | Ewa Markiewicz | |
Weiju Wu | |||
Simon Bouffler | |||
Margaret Coster | |||
Stephen Barnard | |||
Jackie Haines | |||
Elizabeth Ainsbury | |||
Orry van Geel | |||
P2860 | cites work | Evidence for a lack of DNA double-strand break repair in human cells exposed to very low x-ray doses | Q24677973 |
Megabase chromatin domains involved in DNA double-strand breaks in vivo | Q24680284 | ||
Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 | Q25938983 | ||
p53, the cellular gatekeeper for growth and division | Q27860990 | ||
A critical role for histone H2AX in recruitment of repair factors to nuclear foci after DNA damage | Q28144576 | ||
Knockout of the intermediate filament protein CP49 destabilises the lens fibre cell cytoskeleton and decreases lens optical quality, but does not induce cataract | Q28586175 | ||
Pathways of DNA double-strand break repair during the mammalian cell cycle | Q28608969 | ||
Double strand break repair functions of histone H2AX | Q28661754 | ||
53BP1 is a reader of the DNA-damage-induced H2A Lys 15 ubiquitin mark | Q29465773 | ||
DNA damage foci at dysfunctional telomeres | Q29614811 | ||
A DNA damage checkpoint response in telomere-initiated senescence | Q29615919 | ||
Genetic background influences age-related decline in visual and nonvisual retinal responses, circadian rhythms, and sleep | Q30422026 | ||
Visualizing lens epithelial cell proliferation in whole lenses | Q30986454 | ||
Quantitative analysis of animal model lens anatomy: accommodative range is related to fiber structure and organization | Q33255695 | ||
Ionizing irradiation not only inactivates clonogenic potential in primary normal human diploid lens epithelial cells but also stimulates cell proliferation in a subset of this population | Q33633252 | ||
Classification of radiation effects for dose limitation purposes: history, current situation and future prospects | Q33907164 | ||
Inducible response required for repair of low-dose radiation damage in human fibroblasts | Q34069451 | ||
Atm heterozygous mice are more sensitive to radiation-induced cataracts than are their wild-type counterparts. | Q34075889 | ||
New roles of cyclin D1. | Q34352513 | ||
Recovery of rat lens epithelial cells after total or partial X-irradiation | Q69421891 | ||
Cell population kinetics of the mouse lens epithelium | Q70829860 | ||
Hypophysectomy exerts a radioprotective effect on frog lens | Q72073581 | ||
G0/G1 arrest of cell proliferation in the ocular lens prevents development of radiation cataract | Q72111318 | ||
Effects of high-energy particles, X-rays, and aging on lens epithelium | Q73812018 | ||
The effects of radiation on the cytology of the eye | Q73962399 | ||
Experimental studies on early lens changes after roentgen irradiation. III. Effect of x-radiation on mitotic activity and nuclear fragmentation of lens epithelium in normal and cysteine-treated rabbits | Q75969093 | ||
Cell production and migration in the epithelial layer of the lens | Q78869131 | ||
Aspects of mitotic activity in relation to cell proliferation in the lens epithelium | Q79701614 | ||
Mrad9 and atm haploinsufficiency enhance spontaneous and X-ray-induced cataractogenesis in mice | Q81528596 | ||
Is the new ICRP eye dose limit justified? | Q82556861 | ||
Interventional cardiologists and risk of radiation-induced cataract: results of a French multicenter observational study | Q84169164 | ||
Emerging issues in radiogenic cataracts and cardiovascular disease | Q34366572 | ||
The optical structures of animal eyes | Q34557637 | ||
DNA damage signaling guards against perturbation of cyclin D1 expression triggered by low-dose long-term fractionated radiation | Q34766991 | ||
A function for cyclin D1 in DNA repair uncovered by protein interactome analyses in human cancers | Q35099578 | ||
CELLULAR PROLIFERATION IN THE LENS | Q35527041 | ||
MAPK1 is required for establishing the pattern of cell proliferation and for cell survival during lens development. | Q36682984 | ||
Are mouse lens epithelial cells more sensitive to γ-irradiation than lymphocytes? | Q36914993 | ||
Genotoxic stress-induced cyclin D1 phosphorylation and proteolysis are required for genomic stability | Q36994736 | ||
EphA2 and Src regulate equatorial cell morphogenesis during lens development | Q37209165 | ||
Risk of cataract after exposure to low doses of ionizing radiation: a 20-year prospective cohort study among US radiologic technologists | Q37305918 | ||
Radiation cataractogenesis: a review of recent studies. | Q37542300 | ||
Functions of the intermediate filament cytoskeleton in the eye lens | Q37545190 | ||
53BP1, BRCA1, and the choice between recombination and end joining at DNA double-strand breaks | Q37713592 | ||
Recognition, signaling, and repair of DNA double-strand breaks produced by ionizing radiation in mammalian cells: the molecular choreography | Q38022419 | ||
ICRP publication 118: ICRP statement on tissue reactions and early and late effects of radiation in normal tissues and organs--threshold doses for tissue reactions in a radiation protection context | Q38038330 | ||
The evolution of lenses | Q38051403 | ||
Radiation-induced cataracts: the Health Protection Agency's response to the ICRP statement on tissue reactions and recommendation on the dose limit for the eye lens | Q38063001 | ||
Occupational exposure to low doses of ionizing radiation and cataract development: a systematic literature review and perspectives on future studies | Q38117583 | ||
Role of 53BP1 in the regulation of DNA double-strand break repair pathway choice | Q38169747 | ||
Characterisation of TGF-beta2 signalling and function in a human lens cell line. | Q38342082 | ||
Accumulation of DNA damage in complex normal tissues after protracted low-dose radiation | Q39558631 | ||
Cyclin D1 in low-dose radiation-induced adaptive resistance. | Q39951699 | ||
NASCA report 2: Longitudinal study of relationship of exposure to space radiation and risk of lens opacity | Q40040643 | ||
Experimental Studies on Early Lens Changes after X-Ray Irradiation. | Q40582489 | ||
Complete Elimination of Mitosis and DNA Synthesis in the Lens of the Hypophysectomized Frog: Effects on Cell Migration and Fiber Growth | Q40733561 | ||
Hepatocyte growth factor function and c-Met expression in human lens epithelial cells | Q40839924 | ||
The first gamma-H2AX biodosimetry intercomparison exercise of the developing European biodosimetry network RENEB. | Q41960303 | ||
Defect of mitotic vimentin phosphorylation causes microophthalmia and cataract via aneuploidy and senescence in lens epithelial cells. | Q42117778 | ||
A cell polarity protein aPKClambda is required for eye lens formation and growth | Q42461436 | ||
The ocular lens: a classic model for development, physiology and disease | Q42701151 | ||
Comments on "Studies of the mortality of atomic bomb survivors, report 14, 1950-2003: an overview of cancer and noncancer diseases" (Radiat Res 2012; 177:229-43). | Q43151900 | ||
Laboratory intercomparison on the γ-H2AX foci assay | Q44058151 | ||
Integrin linked kinase (ILK) is required for lens epithelial cell survival, proliferation and differentiation | Q44597396 | ||
Statin expression associated with terminally differentiating and postreplicative lens epithelial cells. | Q51178251 | ||
Dosimetry for a study of low-dose radiation cataracts among Chernobyl clean-up workers. | Q51915873 | ||
Inter-individual variation in DNA double-strand break repair in human fibroblasts before and after exposure to low doses of ionizing radiation. | Q53304915 | ||
Distinct Initiation and Maintenance Mechanisms Cooperate to Induce G1 Cell Cycle Arrest in Response to DNA Damage | Q57188003 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 4 | |
P304 | page(s) | 150011 | |
P577 | publication date | 2015-04-01 | |
P1433 | published in | Open Biology | Q7095958 |
P1476 | title | Nonlinear ionizing radiation-induced changes in eye lens cell proliferation, cyclin D1 expression and lens shape | |
P478 | volume | 5 |
Q92816360 | A biologically based mathematical model for spontaneous and ionizing radiation cataractogenesis |
Q88613149 | Acute Effect of Low-Dose Space Radiation on Mouse Retina and Retinal Endothelial Cells |
Q92054489 | DNA damage in human skin and the capacities of natural compounds to modulate the bystander signalling |
Q35905315 | Fitness costs of increased cataract frequency and cumulative radiation dose in natural mammalian populations from Chernobyl. |
Q92003224 | Inverse dose-rate effect of ionising radiation on residual 53BP1 foci in the eye lens |
Q41136921 | Ionizing radiation response of primary normal human lens epithelial cells |
Q48732457 | Ionizing radiation sensitivity of the ocular lens and its dose rate dependence. |
Q48256251 | Lifetime study in mice after acute low-dose ionizing radiation: a multifactorial study with special focus on cataract risk |
Q46328761 | PARP-1/PAR Activity in Cultured Human Lens Epithelial Cells Exposed to Two Levels of UVB Light |
Q51045795 | THE IMPACT OF CIRCADIAN RHYTHMS ON MEDICAL IMAGING AND RADIOTHERAPY REGIMES FOR THE PAEDIATRIC PATIENT. |
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