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Effects of Low Dose Sulfur Mustard on Growth and DNA Damage in Human Cells in Culture
Alternative Toxicological Methods
◽
10.1201/9780203008799.ch26
◽
2003
◽
Author(s):
Janet Moser
◽
Offie Clark
◽
Bethany Toliver
◽
Eric Nealley
◽
William Smith
◽
...
Keyword(s):
Dna Damage
◽
Low Dose
◽
Sulfur Mustard
◽
Human Cells
◽
Cells In Culture
Download Full-text
Related Documents
Cited By
References
Effects of Low Dose Sulfur Mustard on Growth and DNA Damage in Human Cells in Culture
Alternative Toxicological Methods
◽
10.1201/9780203008799-36
◽
2003
◽
pp. 319-326
Keyword(s):
Dna Damage
◽
Low Dose
◽
Sulfur Mustard
◽
Human Cells
◽
Cells In Culture
Download Full-text
Sulfur Mustard-Induced Biochemical Alterations in Proliferating Human Cells in Culture
Journal of Toxicology Cutaneous and Ocular Toxicology
◽
10.3109/15569529209042723
◽
1992
◽
Vol 11
(4)
◽
pp. 293-304
◽
Cited By ~ 11
Author(s):
William J. Smith
◽
Kenneth M. Sanders
◽
James E. Caulfield
◽
Clark L. Gross
Keyword(s):
Sulfur Mustard
◽
Human Cells
◽
Biochemical Alterations
◽
Cells In Culture
Download Full-text
Low-dose energetic protons induce adaptive and bystander effects that protect human cells against DNA damage caused by a subsequent exposure to energetic iron ions
Journal of Radiation Research
◽
10.1093/jrr/rrv005
◽
2015
◽
Vol 56
(3)
◽
pp. 502-508
◽
Cited By ~ 20
Author(s):
Manuela Buonanno
◽
Sonia M. De Toledo
◽
Roger W. Howell
◽
Edouard I. Azzam
Keyword(s):
Dna Damage
◽
Low Dose
◽
Human Cells
◽
Iron Ions
◽
Bystander Effects
◽
Subsequent Exposure
Download Full-text
Low-Dose Formaldehyde Delays DNA Damage Recognition and DNA Excision Repair in Human Cells
PLoS ONE
◽
10.1371/journal.pone.0094149
◽
2014
◽
Vol 9
(4)
◽
pp. e94149
◽
Cited By ~ 13
Author(s):
Andreas Luch
◽
Flurina C. Clement Frey
◽
Regula Meier
◽
Jia Fei
◽
Hanspeter Naegeli
Keyword(s):
Dna Damage
◽
Low Dose
◽
Excision Repair
◽
Human Cells
◽
Dna Excision Repair
◽
Damage Recognition
◽
Dna Damage Recognition
Download Full-text
Neoplastic transformation of human cells in culture associated with deficient repair of light-induced chromosomal DNA damage
International Journal of Cancer
◽
10.1002/ijc.2910300205
◽
1982
◽
Vol 30
(2)
◽
pp. 153-159
◽
Cited By ~ 5
Author(s):
Ram Parshad
◽
Katherine K. Sanford
◽
Gary M. Jones
◽
Robert E. Tarone
Keyword(s):
Dna Damage
◽
Neoplastic Transformation
◽
Human Cells
◽
Chromosomal Dna
◽
Cells In Culture
Download Full-text
No Induction of p53 Phosphorylation and Few Focus Formation of Phosphorylated H2AX Suggest Efficient Repair of DNA Damage During Chronic Low-dose-rate Irradiation in Human Cells
Journal of Radiation Research
◽
10.1269/jrr.45.521
◽
2004
◽
Vol 45
(4)
◽
pp. 521-525
◽
Cited By ~ 37
Author(s):
Kanji ISHIZAKI
◽
Yuko HAYASHI
◽
Hideaki NAKAMURA
◽
Yoshihiro YASUI
◽
Kenshi KOMATSU
◽
...
Keyword(s):
Dna Damage
◽
Dose Rate
◽
Low Dose
◽
Human Cells
◽
Focus Formation
◽
Low Dose Rate
Download Full-text
Biochemical and Flow Cytometric Studies of the Mechanism of Action of Sulfur Mustard Using Human Cells In Culture
Advances In Animal Alternatives For Safety And Efficacy Testing
◽
10.1201/9781439805817-17
◽
1997
◽
pp. 119-122
Keyword(s):
Mechanism Of Action
◽
Sulfur Mustard
◽
Human Cells
◽
Cells In Culture
◽
Flow Cytometric
Download Full-text
Faculty Opinions recommendation of DNA damage during mitosis in human cells delays the metaphase/anaphase transition via the spindle-assembly checkpoint.
Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature
◽
10.3410/f.1010362.151807
◽
2002
◽
Author(s):
Orna Cohen-Fix
Keyword(s):
Dna Damage
◽
Spindle Assembly Checkpoint
◽
Spindle Assembly
◽
Human Cells
Download Full-text
Faculty Opinions recommendation of Translesion synthesis mechanisms depend on the nature of DNA damage in UV-irradiated human cells.
Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature
◽
10.3410/f.726298662.793520990
◽
2016
◽
Author(s):
Domenico Maiorano
Keyword(s):
Dna Damage
◽
Translesion Synthesis
◽
Human Cells
Download Full-text
Faculty Opinions recommendation of A genetic map of the response to DNA damage in human cells.
Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature
◽
10.3410/f.738284022.793577618
◽
2020
◽
Author(s):
Dana Branzei
Keyword(s):
Dna Damage
◽
Genetic Map
◽
Human Cells
Download Full-text
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