The QPCR assay for analysis of mitochondrial DNA damage, repair, and relative copy number.
about
Mitochondrial DNA damage and its consequences for mitochondrial gene expressionOpa1 is required for proper mitochondrial metabolism in early developmentPCR-Based Analysis of Mitochondrial DNA Copy Number, Mitochondrial DNA Damage, and Nuclear DNA DamageCaenorhabditis elegans generates biologically relevant levels of genotoxic metabolites from aflatoxin B1 but not benzo[a]pyrene in vivoQPCR: a tool for analysis of mitochondrial and nuclear DNA damage in ecotoxicology.Poisoning of mitochondrial topoisomerase I by lamellarin DMitochondrial topoisomerase I (top1mt) is a novel limiting factor of doxorubicin cardiotoxicity.Effects of early life exposure to ultraviolet C radiation on mitochondrial DNA content, transcription, ATP production, and oxygen consumption in developing Caenorhabditis elegansExposure to mitochondrial genotoxins and dopaminergic neurodegeneration in Caenorhabditis elegansThe Uve1 endonuclease is regulated by the white collar complex to protect cryptococcus neoformans from UV damage.Developmental toxicity and DNA damage from exposure to parking lot runoff retention pond samples in the Japanese medaka (Oryzias latipes)PCR based determination of mitochondrial DNA copy number in multiple speciesGenotoxicity in Atlantic killifish (Fundulus heteroclitus) from a PAH-contaminated Superfund site on the Elizabeth River, Virginia.Detection of DNA damage in peripheral blood mononuclear cells from pancreatic cancer patientsTRNA mutations that affect decoding fidelity deregulate development and the proteostasis network in zebrafishMitochondrial dynamics and autophagy aid in removal of persistent mitochondrial DNA damage in Caenorhabditis elegans.Therapeutic Targeting of the Mitochondria Initiates Excessive Superoxide Production and Mitochondrial Depolarization Causing Decreased mtDNA IntegrityAflatoxin B₁-Induced Developmental and DNA Damage in Caenorhabditis elegans.Mitochondrial DNA-depleted A549 cells are resistant to bleomycin.In vivo repair of alkylating and oxidative DNA damage in the mitochondrial and nuclear genomes of wild-type and glycosylase-deficient Caenorhabditis elegans.Partitioning of Respiration in an Animal-Algal Symbiosis: Implications for Different Aerobic Capacity between Symbiodinium spp.Mitochondria as a target of environmental toxicants.Effects of Antioxidant N-acetylcysteine Against Paraquat-Induced Oxidative Stress in Vital Tissues of Mice.Mitochondrial DNA exhibits resistance to induced point and deletion mutations.Deletion of Sirt3 does not affect atherosclerosis but accelerates weight gain and impairs rapid metabolic adaptation in LDL receptor knockout mice: implications for cardiovascular risk factor development.Mitochondrial DNA maintenance: an appraisal.LORD-Q: a long-run real-time PCR-based DNA-damage quantification method for nuclear and mitochondrial genome analysis.Simple and fast quantification of DNA damage by real-time PCR, and its application to nuclear and mitochondrial DNA from multiple tissues of aging zebrafish.Caenorhabditis elegans as a powerful alternative model organism to promote research in genetic toxicology and biomedicine.Quantitative PCR-based measurement of nuclear and mitochondrial DNA damage and repair in mammalian cells.Altered Glycolysis and Mitochondrial Respiration in a Zebrafish Model of Dravet SyndromeAnalysis of DNA damage and repair in nuclear and mitochondrial DNA of animal cells using quantitative PCR.Effects of 5'-fluoro-2-deoxyuridine on mitochondrial biology in Caenorhabditis elegansProtection against renal ischemia-reperfusion injury in vivo by the mitochondria targeted antioxidant MitoQRECA plays a dual role in the maintenance of chloroplast genome stability in Physcomitrella patens.Loss of pdr-1/parkin influences Mn homeostasis through altered ferroportin expression in C. elegans.On the Stability of Deinoxanthin Exposed to Mars Conditions during a Long-Term Space Mission and Implications for Biomarker Detection on Other Planets.Caenorhabditis elegans neuron degeneration and mitochondrial suppression caused by selected environmental chemicalsChanges in DNA damage, molecular integrity, and copy number for plastid DNA and mitochondrial DNA during maize development.Long Oskar Controls Mitochondrial Inheritance in Drosophila melanogaster.
P2860
Q27001150-CEA8413B-1E6E-4F2B-91D3-790899F4FC14Q27334237-FE962537-7C10-4D1B-A6CF-462D91DDF649Q27343125-B8B6AD93-FCB0-48D6-BB29-C1AF4D23D129Q28748299-C8292A3B-30F0-4EFC-9DFA-21AD4D9EDED5Q33751267-3E82319E-0208-4522-9B52-C5329AC80565Q34024641-D3AA7A2B-FFAC-45F6-AE10-E85FE1B55218Q34203187-0176E698-A26D-4916-BFF5-DB7A2C8DF9EFQ34572221-FB62D6E0-75D8-4EFC-83DC-0D1819E65E43Q34653802-F2641DB9-9948-4841-A3D7-BE630DB975DEQ34988067-557EF222-F0A7-4550-ACA5-CD5E85B4ED82Q35023445-7E2FDA1F-0A2D-4C4A-A6A9-5F475198DE7FQ35034159-9840D808-B0EC-4188-A299-8610FA2D2CD4Q35467414-76E3004C-5D9F-4EB7-B40B-EC838BF86D94Q35772892-0D066F1F-3F48-45FC-9B26-75F5B03D4EDCQ36191817-E55237EB-EC40-4E55-9FF5-7CA1D8369DCAQ36228588-2A1DCFC1-A195-406D-9F9C-1BE46D54759CQ36234714-31DB9CBA-3820-4E2D-AEAE-3E274B31FE60Q36236213-45E6AA1C-9F4D-4E96-9C1E-11BB3FDF96ACQ36309181-5FBCBA7A-CE16-4F35-A08E-8F14792D3B1AQ36356915-4E3954F4-5352-48E6-A803-74CAE944869FQ36805809-59A6E8D7-B912-4130-B1E9-DFBE0CB57159Q36956066-5C1A7A7C-1072-40DE-9D54-EA7E3669E34AQ37074991-BE3A8AF8-802B-4DA8-A362-846D340C4E3FQ37336970-AC6AECC1-2E2A-48E0-8656-46ACCEA073B8Q37501981-BC4E5347-02AA-4A66-B3FF-B49C25DE831EQ38569294-DD49969A-0638-4688-B844-90C47041D76AQ38593910-506DFBA1-2BE8-4EB4-92A3-CC3FD1F2A55CQ38685811-CD9BCC5D-DF33-40D7-A733-A81035F79FEDQ38904492-12EEE1E8-1957-4796-872D-450861AF6677Q39016138-424AA917-6B8D-4E7A-951C-E8687279DD5BQ39867543-AFEC6F08-1852-4D7D-BA82-08EB3D069D0EQ40360920-D7742901-993F-471E-90A6-BF377F5D1177Q40417979-7E9B6E5E-D73C-49EE-BE3F-D6337A08D78EQ40544872-567A379A-8412-4F02-8900-4A1F39BE4F48Q40573315-E19132C5-D2CD-4DA1-90F3-73AE5DFC0028Q40668798-51CA334B-BAFC-41B8-BF8D-ED5BFD2FC8D4Q41665310-11E2E452-D864-4266-A3C0-8E52B0287E8FQ42786093-979590B2-95F0-486C-96F1-C9C5B3934A20Q43041522-3B1393FA-20DC-483E-B02B-C2AD1F505EA1Q46449818-B82FE778-BBC0-4FBA-8832-800A48A9FA92
P2860
The QPCR assay for analysis of mitochondrial DNA damage, repair, and relative copy number.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
The QPCR assay for analysis of ...... air, and relative copy number.
@ast
The QPCR assay for analysis of ...... air, and relative copy number.
@en
type
label
The QPCR assay for analysis of ...... air, and relative copy number.
@ast
The QPCR assay for analysis of ...... air, and relative copy number.
@en
prefLabel
The QPCR assay for analysis of ...... air, and relative copy number.
@ast
The QPCR assay for analysis of ...... air, and relative copy number.
@en
P2093
P2860
P1433
P1476
The QPCR assay for analysis of ...... air, and relative copy number.
@en
P2093
Joel N Meyer
Richard T Di Giulio
Senyene E Hunter
P2860
P304
P356
10.1016/J.YMETH.2010.01.033
P50
P577
2010-02-01T00:00:00Z