The roles of specific glycosylases in determining the mutagenic consequences of clustered DNA base damage.

The roles of specific glycosylases in determining the mutagenic consequences of clustered DNA base damage.

The potential for genetic change arising from specific single types of DNA lesion has been thoroughly explored, but much less is known about the mutagenic effects of DNA lesions present in clustered damage sites. Localized clustering of damage is a hallmark of certain DNA-damaging agents, particular...

Description complète

Détails bibliographiques
Auteurs principaux:	Shikazono, N, Pearson, C, O'Neill, P, Thacker, J
Format:	Journal article
Langue:	English
Publié:	2006

Documents similaires

Enhanced mutagenic potential of 8-oxo-7,8-dihydroguanine when present within a clustered DNA damage site.
par: Pearson, C, et autres
Publié: (2004)

Processing of thymine glycol in a clustered DNA damage site: mutagenic or cytotoxic.
par: Bellon, S, et autres
Publié: (2009)

Mitochondrial inhibition of uracil-DNA glycosylase is not mutagenic
par: Singh Keshav K, et autres
Publié: (2004-12-01)

Biological consequences of potential repair intermediates of clustered base damage site in Escherichia coli.
par: Shikazono, N, et autres
Publié: (2009)

Corrigendum to "Significance of DNA polymerase I in in vivo processing of clustered DNA damage" [Mut. Res.: Fundam. Mol. Mech. Mutagen. 749 (2013) 9-15]
par: Shikazono, N, et autres
Publié: (2013)

Corrigendum to "Significance of DNA polymerase I in in vivo processing of clustered DNA damage" [Mut. Res.: Fundam. Mol. Mech. Mutagen. 749 (2013) 9-15]
par: Shikazono, N, et autres
Publié: (2013)

Exploring the mutagenic consequences of inflammation and DNA damage
par: Kay, Jennifer Elizabeth, Ph. D. Massachusetts Institute of Technology
Publié: (2018)

The mutagenic potential of 8-oxoG/single strand break-containing clusters depends on their relative positions
par: Noguchi, M, et autres
Publié: (2012)

The mutagenic potential of 8-oxoG/single strand break-containing clusters depends on their relative positions.
par: Noguchi, M, et autres
Publié: (2012)

Accelerated repair and reduced mutagenicity of DNA damage induced by cigarette smoke in human bronchial cells transfected with E.coli formamidopyrimidine DNA glycosylase.
par: Mara Foresta, et autres
Publié: (2014-01-01)

Significance of DNA polymerase I in in vivo processing of clustered DNA damage
par: Shikazono, N, et autres
Publié: (2013)

Significance of DNA polymerase I in in vivo processing of clustered DNA damage.
par: Shikazono, N, et autres
Publié: (2013)

Significance of DNA polymerase I in in vivo processing of clustered DNA damage (vol 749, pg 9, 2013)
par: Shikazono, N, et autres
Publié: (2013)

The role of DNA polymerase I in tolerating single-strand breaks generated at clustered DNA damage in Escherichia coli
par: Naoya Shikazono, et autres
Publié: (2024-08-01)

Biological consequences of radiation-induced DNA damage: relevance to radiotherapy.
par: Lomax, M, et autres
Publié: (2013)

Biological consequences of radiation-induced DNA damage: Relevance to radiotherapy
par: Lomax, M, et autres
Publié: (2013)

8-OxoA inhibits the incision of an AP site by the DNA glycosylases Fpg, Nth and the AP endonuclease HAP1.
par: Lomax, M, et autres
Publié: (2005)

DNA damage induced by the direct effect of He ion particles.
par: Urushibara, A, et autres
Publié: (2006)

The structural basis of specific base-excision repair by uracil-DNA glycosylase.
par: Savva, R, et autres
Publié: (1995)

Repair of oxidative base lesions within clustered DNA damage
par: O'Neill, P, et autres
Publié: (2002)

Evolutionary Origins of DNA Repair Pathways: Role of Oxygen Catastrophe in the Emergence of DNA Glycosylases
par: Paulina Prorok, et autres
Publié: (2021-06-01)

Aag DNA Glycosylase Promotes Alkylation-Induced Tissue Damage Mediated by Parp1
par: Calvo, Jennifer A., et autres
Publié: (2013)

Aag DNA glycosylase promotes alkylation-induced tissue damage mediated by Parp1.
par: Jennifer A Calvo, et autres
Publié: (2013-04-01)

Alkyladenine DNA glycosylase (Aag)-dependent cell-specific responses to alkylating agents
par: Margulies, Carrie Marie
Publié: (2016)

Chemical aspects of clustered DNA damage induction by ionising radiation.
par: Lomax, M, et autres
Publié: (2002)

Crystal structure of mimivirus uracil-DNA glycosylase.
par: Eunju Kwon, et autres
Publié: (2017-01-01)

Dissecting Highly Mutagenic Processing of Complex Clustered DNA Damage in Yeast <i>Saccharomyces cerevisiae</i>
par: Stanislav G. Kozmin, et autres
Publié: (2021-09-01)

Delayed repair of radiation induced clustered DNA damage: Friend or foe?
par: Eccles, L, et autres
Publié: (2011)

Delayed repair of radiation induced clustered DNA damage: friend or foe?
par: Eccles, L, et autres
Publié: (2011)

An engineered cell line lacking OGG1 and MUTYH glycosylases implicates the accumulation of genomic 8-oxoguanine as the basis for paraquat mutagenicity
par: Tajai, Preechaya, et autres
Publié: (2021)

Computational Study on DNA Repair: The Roles of Electrostatic Interactions Between Uracil-DNA Glycosylase (UDG) and DNA
par: Yixin Xie, et autres
Publié: (2021-08-01)

Direct measurement of the substrate preference of uracil-DNA glycosylase.
par: Panayotou, G, et autres
Publié: (1998)

The effect of sequence context on the activity of cytosine DNA glycosylases.
par: Kimber, S, et autres
Publié: (2015)

Potent pollen gene regulation by DNA glycosylases in maize
par: Yibing Zeng, et autres
Publié: (2024-09-01)

Uracil-DNA glycosylase efficiency is modulated by substrate rigidity
par: Paul B. Orndorff, et autres
Publié: (2023-03-01)

Computational and Experimental Druggability Assessment of Human DNA Glycosylases
par: Maurice Michel, et autres
Publié: (2019-07-01)

Radiation-induced damage in DNA
par: O'Neill, P
Publié: (2001)

A thermophilic 8-oxoguanine DNA glycosylase from Thermococcus barophiluss Ch5 is a new member of AGOG DNA glycosylase family
par: Wang Lei, et autres
Publié: (2022-06-01)

DNA repair glycosylase hNEIL1 triages damaged bases via competing interaction modes
par: Menghao Liu, et autres
Publié: (2021-07-01)

Contribution of base lesions to radiation-induced clustered DNA damage: implication for models of radiation response.
par: Jenner, T, et autres
Publié: (2001)