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DNA Repair

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https://www.readbyqxmd.com/read/28641943/template-switching-during-replication-fork-repair-in-bacteria
#1
REVIEW
Susan T Lovett
Replication forks frequently are challenged by lesions on the DNA template, replication-impeding DNA secondary structures, tightly bound proteins or nucleotide pool imbalance. Studies in bacteria have suggested that under these circumstances the fork may leave behind single-strand DNA gaps that are subsequently filled by homologous recombination, translesion DNA synthesis or template-switching repair synthesis. This review focuses on the template-switching pathways and how the mechanisms of these processes have been deduced from biochemical and genetic studies...
June 13, 2017: DNA Repair
https://www.readbyqxmd.com/read/28623093/the-role-of-smarcal1-in-replication-fork-stability-and-telomere-maintenance
#2
REVIEW
Natalia Lugli, Sotirios K Sotiriou, Thanos D Halazonetis
SMARCAL1 (SWI/SNF Related, Matrix Associated, Actin Dependent Regulator Of Chromatin, Subfamily A-Like 1), also known as HARP, is an ATP-dependent annealing helicase that stabilizes replication forks during DNA damage. Mutations in this gene are the cause of Schimke immune-osseous dysplasia (SIOD), an autosomal recessive disorder characterized by T-cell immunodeficiency and growth dysfunctions. In this review, we summarize the main roles of SMARCAL1 in DNA repair, telomere maintenance and replication fork stability in response to DNA replication stress...
June 10, 2017: DNA Repair
https://www.readbyqxmd.com/read/28641942/the-top1-paradox-friend-and-foe-of-the-eukaryotic-genome
#3
REVIEW
Nayun Kim, Sue Jinks-Robertson
Topoisomerases manage the torsional stress associated with the separation of DNA strands during transcription and DNA replication. Eukaryotic Topoisomerase I (Top1) is a Type IB enzyme that nicks and rejoins only one strand of duplex DNA, and it is especially important during transcription. By resolving transcription-associated torsional stress, Top1 reduces the accumulation of genome-destabilizing R-loops and non-B DNA structures. The DNA nicking activity of Top1, however, can also initiate genome instability in the form of illegitimate recombination, homologous recombination and mutagenesis...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28641941/role-of-recombination-and-replication-fork-restart-in-repeat-instability
#4
REVIEW
Erica J Polleys, Nealia C M House, Catherine H Freudenreich
Eukaryotic genomes contain many repetitive DNA sequences that exhibit size instability. Some repeat elements have the added complication of being able to form secondary structures, such as hairpin loops, slipped DNA, triplex DNA or G-quadruplexes. Especially when repeat sequences are long, these DNA structures can form a significant impediment to DNA replication and repair, leading to DNA nicks, gaps, and breaks. In turn, repair or replication fork restart attempts within the repeat DNA can lead to addition or removal of repeat elements, which can sometimes lead to disease...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28641940/dormant-origins-as-a-built-in-safeguard-in-eukaryotic-dna-replication-against-genome-instability-and-disease-development
#5
REVIEW
Naoko Shima, Kayla D Pederson
DNA replication is a prerequisite for cell proliferation, yet it can be increasingly challenging for a eukaryotic cell to faithfully duplicate its genome as its size and complexity expands. Dormant origins now emerge as a key component for cells to successfully accomplish such a demanding but essential task. In this perspective, we will first provide an overview of the fundamental processes eukaryotic cells have developed to regulate origin licensing and firing. With a special focus on mammalian systems, we will then highlight the role of dormant origins in preventing replication-associated genome instability and their functional interplay with proteins involved in the DNA damage repair response for tumor suppression...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28641126/dna-requirements-for-interaction-of-the-c-terminal-region-of-ku80-with-the-dna-dependent-protein-kinase-catalytic-subunit-dna-pkcs
#6
Sarvan Kumar Radhakrishnan, Susan P Lees-Miller
Non-homologous end joining (NHEJ) is the major pathway for the repair of ionizing radiation induced DNA double strand breaks (DSBs) in human cells. Critical to NHEJ is the DNA-dependent interaction of the Ku70/80 heterodimer with the DNA-dependent protein kinase catalytic subunit (DNA-PKcs) to form the DNA-PK holoenzyme. However, precisely how Ku recruits DNA-PKcs to DSBs ends to enhance its kinase activity has remained enigmatic, with contradictory findings reported in the literature. Here we address the role of the Ku80 C-terminal region (CTR) in the DNA-dependent interaction of Ku70/80 with DNA-PKcs using purified components and defined DNA structures...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28629777/mechanistic-insights-into-transcription-coupled-dna-repair
#7
REVIEW
Bibhusita Pani, Evgeny Nudler
Transcription-coupled DNA repair (TCR) acts on lesions in the transcribed strand of active genes. Helix distorting adducts and other forms of DNA damage often interfere with the progression of the transcription apparatus. Prolonged stalling of RNA polymerase can promote genome instability and also induce cell cycle arrest and apoptosis. These generally unfavorable events are counteracted by RNA polymerase-mediated recruitment of specific proteins to the sites of DNA damage to perform TCR and eventually restore transcription...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28629776/unveiling-the-non-repair-face-of-the-base-excision-repair-pathway-in-rna-processing-a-missing-link-between-dna-repair-and-gene-expression
#8
REVIEW
Giulia Antoniali, Matilde Clarissa Malfatti, Gianluca Tell
The Base Excision Repair (BER) pathway, initially studied as a mere DNA repair pathway, has been later found to be implicated in the expression of cancer related genes in human. For several years, this intricate involvement in apparently different processes represented a mystery, which we now are starting to unveil. The BER handles simple alkylation and oxidative lesions arising from both endogenous and exogenous sources, including cancer therapy agents. Surprisingly, BER pathway involvement in transcriptional regulation, immunoglobulin variability and switch recombination, RNA metabolism and nucleolar function is astonishingly consolidating...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28629775/8-oxo-7-8-dihydroguanine-friend-and-foe-epigenetic-like-regulator-versus-initiator-of-mutagenesis
#9
REVIEW
Aaron M Fleming, Cynthia J Burrows
A high flux of reactive oxygen species during oxidative stress results in oxidative modification of cellular components including DNA. Oxidative DNA "damage" to the heterocyclic bases is considered deleterious because polymerases may incorrectly read the modifications causing mutations. A prominent member in this class is the oxidized guanine base 8-oxo-7,8-dihydroguanine (OG) that is moderately mutagenic effecting G→T transversion mutations. Recent reports have identified that formation of OG in G-rich regulatory elements in the promoters of the VEGF, TNFα, and SIRT1 genes can increase transcription via activation of the base excision repair (BER) pathway...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28629774/genome-instabilities-arising-from-ribonucleotides-in-dna
#10
REVIEW
Hannah L Klein
Genomic DNA is transiently contaminated with ribonucleotide residues during the process of DNA replication through misincorporation by the replicative DNA polymerases α, δ and ε, and by the normal replication process on the lagging strand, which uses RNA primers. These ribonucleotides are efficiently removed during replication by RNase H enzymes and the lagging strand synthesis machinery. However, when ribonucleotides remain in DNA they can distort the DNA helix, affect machineries for DNA replication, transcription and repair, and can stimulate genomic instabilities which are manifest as increased mutation, recombination and chromosome alterations...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28629773/bering-the-burden-of-damage-pathway-crosstalk-and-posttranslational-modification-of-base-excision-repair-proteins-regulate-dna-damage-management
#11
REVIEW
Kristin L Limpose, Anita H Corbett, Paul W Doetsch
DNA base damage and non-coding apurinic/apyrimidinic (AP) sites are ubiquitous types of damage that must be efficiently repaired to prevent mutations. These damages can occur in both the nuclear and mitochondrial genomes. Base excision repair (BER) is the frontline pathway for identifying and excising damaged DNA bases in both of these cellular compartments. Recent advances demonstrate that BER does not operate as an isolated pathway but rather dynamically interacts with components of other DNA repair pathways to modulate and coordinate BER functions...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28624372/taming-tricky-dsbs-atm-on-duty
#12
REVIEW
Thomas Clouaire, Aline Marnef, Gaëlle Legube
Ataxia Telangiectasia Mutated (ATM) has been known for decades as the main kinase mediating the DNA Double-Strand Break Response (DDR). Extensive studies have revealed its dual role in locally promoting detection and repair of DSBs as well as in activating global DNA damage checkpoints. However, recent studies pinpoint additional unanticipated functions for ATM in modifying both the local chromatin landscape and the global chromosome organization, more particularly at persistent breaks. Given the emergence of a novel and unexpected class of DSBs prevalently arising in transcriptionally active genes and intrinsically difficult to repair, a specific role of ATM at refractory DSBs could be an important and so far overlooked feature of Ataxia Telangiectasia (A-T) a severe disorder associated with ATM mutations...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28624371/histone-ubiquitination-in-the-dna-damage-response
#13
REVIEW
Michael Uckelmann, Titia K Sixma
DNA double strand breaks need to be repaired in an organized fashion to preserve genomic integrity. In the organization of faithful repair, histone ubiquitination plays a crucial role. Recent findings suggest an integrated model for DNA repair regulation through site-specific histone ubiquitination and crosstalk to other posttranslational modifications. Here we discuss how site-specific histone ubiquitination is achieved on a molecular level and how different multi-protein complexes work together to integrate different histone ubiquitination states...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28623094/structural-and-functional-relationships-of-fan1
#14
REVIEW
Hyeonseok Jin, Yunje Cho
FANCD2/FANCI-associated nuclease (FAN1) is a 5' flap structure-specific endonuclease and 5' to 3' exonuclease. This nuclease can resolve interstrand cross-links (ICLs) independently of the Fanconi anemia (FA) pathway and controls the progression of stalled replication forks in an FA-dependent manner, thereby maintaining chromosomal stability. Several FAN1 mutations are observed in various cancers and degenerative diseases. Recently, several crystal structures of the FAN1-DNA complexes have been reported, and to date, these represent the only structures for a DNA bound ICL-repair nuclease...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28623092/ctip-ctp1-sae2-molecular-form-fit-for-function
#15
REVIEW
Sara N Andres, R Scott Williams
Vertebrate CtIP, and its fission yeast (Ctp1), budding yeast (Sae2) and plant (Com1) orthologs have emerged as key regulatory molecules in cellular responses to DNA double strand breaks (DSBs). By modulating the nucleolytic 5'-3' resection activity of the Mre11/Rad50/Nbs1 (MRN) DSB repair processing and signaling complex, CtIP/Ctp1/Sae2/Com1 is integral to the channeling of DNA double strand breaks through DSB repair by homologous recombination (HR). Nearly two decades since its discovery, emerging new data are defining the molecular underpinnings for CtIP DSB repair regulatory activities...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28623091/dna-repair-and-systemic-lupus-erythematosus
#16
REVIEW
Rithy Meas, Matthew J Burak, Joann B Sweasy
Systemic lupus erythematosus (SLE) is a chronic autoimmune disease with no known cure that affects at least five million people worldwide. Monozygotic twin concordance and familial aggregation studies strongly suggest that lupus results from genetic predisposition along with environmental exposures including UV light. The majority of the common risk alleles associated with genetic predisposition to SLE map to genes associated with the immune system. However, evidence is emerging that implicates a role for aberrant DNA repair in the development of lupus...
June 9, 2017: DNA Repair
https://www.readbyqxmd.com/read/28605670/ssb-recruitment-of-exonuclease-i-aborts-template-switching-in-escherichia-coli
#17
Laura T Laranjo, Stephen J Gross, Danna M Zeiger, Susan T Lovett
Misalignment of a nascent strand and the use of an alternative template during DNA replication, a process termed "template-switching", can give rise to frequent mutations and genetic rearrangements. Mutational hotspots are frequently found associated with imperfect inverted repeats ("quasipalindromes" or "QPs") in many organisms, including bacteriophage, bacteria, yeast and mammals. Evidence suggests that QPs mutate by a replication template-switch whereby one copy of the inverted repeat templates synthesis of the other...
June 3, 2017: DNA Repair
https://www.readbyqxmd.com/read/28605669/dna-polymerases-eta-and-kappa-exchange-with-the-polymerase-delta-holoenzyme-to-complete-common-fragile-site-synthesis
#18
Ryan P Barnes, Suzanne E Hile, Marietta Y Lee, Kristin A Eckert
Common fragile sites (CFSs) are inherently unstable genomic loci that are recurrently altered in human tumor cells. Despite their instability, CFS are ubiquitous throughout the human genome and associated with large tumor suppressor genes or oncogenes. CFSs are enriched with repetitive DNA sequences, one feature postulated to explain why these loci are inherently difficult to replicate, and sensitive to replication stress. We have shown that specialized DNA polymerases (Pols) η and κ replicate CFS-derived sequences more efficiently than the replicative Pol δ...
June 3, 2017: DNA Repair
https://www.readbyqxmd.com/read/28554039/mechanistic-insights-into-how-cmg-helicase-facilitates-replication-past-dna-roadblocks
#19
REVIEW
Michael A Trakselis, Michael M Seidman, Robert M Brosh
Before leaving the house, it is a good idea to check for road closures that may affect the morning commute. Otherwise, one may encounter significant delays arriving at the destination. While this is commonly true, motorists may be able to consult a live interactive traffic map and pick an alternate route or detour to avoid being late. However, this is not the case if one needs to catch the train which follows a single track to the terminus; if something blocks the track, there is a delay. Such is the case for the DNA replisome responsible for copying the genetic information that provides the recipe of life...
May 20, 2017: DNA Repair
https://www.readbyqxmd.com/read/28544931/role-for-rif1-interacting-partner-ddx1-in-blm-recruitment-to-dna-double-strand-breaks
#20
Lei Li, Ho-Yin Poon, Matthew R Hildebrandt, Elizabeth A Monckton, Devon R Germain, Richard P Fahlman, Roseline Godbout
Human Rap1-interacting factor 1 (RIF1) is an important player in the repair of DNA double strand breaks (DSBs). RIF1 acts downstream of 53BP1, with well-documented roles in class switch recombination in B-cells and inhibition of end resection initiation in BRCA1-defective cells. Here, we report that DEAD Box 1 (DDX1), a RNA helicase also implicated in DSB repair, interacts with RIF1, with co-localization of DDX1 and RIF1 observed throughout interphase. Recruitment of DDX1 to DSBs is dependent on RIF1, with RIF1 depletion abolishing DDX1-mediated facilitation of homologous recombination at DSBs...
May 13, 2017: DNA Repair
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