AUTOTRAINER: An Automatic DNN Training Problem Detection and Repair System

The effect of aryl hydrocarbon receptor agonists (FICZ and ITE), as well as lipopolysaccharide under the toxic action of benzo(a)pyrene in HepaRG human hepatoma cells was evaluated. Active forms of the key stress-activated kinase cascades and DNA repair system proteins were used as markers of the genotoxic action of benzo(a)pyrene. A mixture of lipopolysaccharide with benzo(a)pyrene increases benzo(a)pyrene cytotoxicity and reduces the activation of DNA repair system proteins below the control level. Aryl hydrocarbon receptor agonists (FICZ and ITE) exhibit a cytoprotective effect against benzo(a) pyrene, enhance Akt1 kinase activation, and downregulate activation of the p53 protein and Chk1 and Chk2 checkpoint kinases. Thus, FICZ and ITE reduce the genotoxicity of benzo(a)pyrene.

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IN VITRO SHEAR BOND STRENGTH ASSESSMENT BETWEEN CERAMIC REPAIR SYSTEM AND TWO BILAYERED CERAMICS HAVING DIFFERENT PERCENTAGES OF REMAINING CERAMIC VENEERS

Egyptian Dental Journal ◽

10.21608/edj.2017.75188 ◽

2017 ◽

Vol 63 (2) ◽

pp. 1995-2005

Author(s):

Maha Taymour ◽

Ashraf Kheireldin

Keyword(s):

Bond Strength ◽

Shear Bond Strength ◽

Repair System ◽

Strength Assessment

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Socio-Technological Aspects of Automation in Public Works Activities

Water Science & Technology ◽

10.2166/wst.1987.0243 ◽

1987 ◽

Vol 19 (3-4) ◽

pp. 633-643

Author(s):

William F. Garber

Keyword(s):

Industrial Revolution ◽

Work Force ◽

Public Works ◽

Human Society ◽

Training Problem ◽

Total Employment ◽

The Usa ◽

History Of ◽

Complete Automation ◽

The Impact

The history of human society is replete with examples of advances in technology overrunning the ability of societal organizations to efficiently handle the resulting massive societal dislocations. The social impacts of the “Industrial Revolution of the 18th and 19th Centuries” illustrate how profound such effects can be. The automation-computer-robotics revolution now underway also has the potential for serious societal changes. In this regard public works activities are subject to increasing amounts of automation with impacts upon current and net total employment and training needs. To evaluate the present status of automation in the USA, questionnaires were sent to public works authorities in 110 cities or agencies. The current degree of automation, the impact upon employment and the skills now needed by public works employers were queried. It was found that in most cases automation was just starting; but that as complete automation as was possible was inevitable given the increasing complexity of the tasks, the demands of the public and the long term prospects for public works funding. In many cases the candidates now in the work force were not properly trained for automation needs. Retraining and changes in the educational system appeared necessary if the employees now needed were to be continuously available. Public works management as well as several labor organizations appeared to be aware of this need and were organizing to handle the training problem and the changes in employment qualifications now necessary. It appeared to be a consensus that the larger societal effects of automation should be handled by society as a whole.

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Functional Specifics of the MutL Protein of the DNA Mismatch Repair System in Different Organisms

Russian Journal of Bioorganic Chemistry ◽

10.1134/s1068162020060217 ◽

2020 ◽

Vol 46 (6) ◽

pp. 875-890

Author(s):

M. V. Monakhova ◽

M. A. Milakina ◽

R. M. Trikin ◽

T. S. Oretskaya ◽

E. A. Kubareva

Keyword(s):

Mismatch Repair ◽

Dna Mismatch Repair ◽

Repair System ◽

Dna Mismatch ◽

Dna Mismatch Repair System ◽

Mismatch Repair System

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Design of Pipeline Composite Repairs: From Lab Scale Tests to FEA and Full Scale Testing

Volume 2: Pipeline Integrity Management ◽

10.1115/ipc2014-33201 ◽

2014 ◽

Author(s):

Remy Her ◽

Jacques Renard ◽

Vincent Gaffard ◽

Yves Favry ◽

Paul Wiet

Keyword(s):

Finite Element ◽

Full Scale ◽

Combined Loading ◽

Material Strength ◽

Repair System ◽

Loading Conditions ◽

Original Design ◽

Composite Repair ◽

Repair Systems ◽

Composite Properties

Composite repair systems are used for many years to restore locally the pipe strength where it has been affected by damage such as wall thickness reduction due to corrosion, dent, lamination or cracks. Composite repair systems are commonly qualified, designed and installed according to ASME PCC2 code or ISO 24817 standard requirements. In both of these codes, the Maximum Allowable Working Pressure (MAWP) of the damaged section must be determined to design the composite repair. To do so, codes such as ASME B31G for example for corrosion, are used. The composite repair systems is designed to “bridge the gap” between the MAWP of the damaged pipe and the original design pressure. The main weakness of available approaches is their applicability to combined loading conditions and various types of defects. The objective of this work is to set-up a “universal” methodology to design the composite repair by finite element calculations with directly taking into consideration the loading conditions and the influence of the defect on pipe strength (whatever its geometry and type). First a program of mechanical tests is defined to allow determining all the composite properties necessary to run the finite elements calculations. It consists in compression and tensile tests in various directions to account for the composite anisotropy and of Arcan tests to determine steel to composite interface behaviors in tension and shear. In parallel, a full scale burst test is performed on a repaired pipe section where a local wall thinning is previously machined. For this test, the composite repair was designed according to ISO 24817. Then, a finite element model integrating damaged pipe and composite repair system is built. It allowed simulating the test, comparing the results with experiments and validating damage models implemented to capture the various possible types of failures. In addition, sensitivity analysis considering composite properties variations evidenced by experiments are run. The composite behavior considered in this study is not time dependent. No degradation of the composite material strength due to ageing is taking into account. The roadmap for the next steps of this work is to clearly identify the ageing mechanisms, to perform tests in relevant conditions and to introduce ageing effects in the design process (and in particular in the composite constitutive laws).

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Poorly Repaired Mismatches in Heteroduplex DNA are Hyper-Recombinagenic in Saccharomyces cerevisiae

Genetics ◽

10.1093/genetics/142.2.407 ◽

1996 ◽

Vol 142 (2) ◽

pp. 407-416 ◽

Cited By ~ 3

Author(s):

P Manivasakam ◽

Susan M Rosenberg ◽

P J Hastings

Keyword(s):

Saccharomyces Cerevisiae ◽

Mismatch Repair ◽

Genetic Markers ◽

Meiotic Recombination ◽

Repair System ◽

Normal Allele ◽

Heteroduplex Dna ◽

Mismatch Repair System ◽

Postmeiotic Segregation ◽

System Operating

Abstract In yeast meiotic recombination, alleles used as genetic markers fall into two classes as regards their fate when incorporated into heteroduplex DNA. Normal alleles are those that form heteroduplexes that are nearly always recognized and corrected by the mismatch repair system operating in meiosis. High PMS (postmeiotic segregation) alleles form heteroduplexes that are inefficiently mismatch repaired. We report that placing any of several high PMS alleles very close to normal alleles causes hyperrecombination between these markers. We propose that this hyperrecombination is caused by the high PMS allele blocking a mismatch repair tract initiated from the normal allele, thus preventing corepair of the two alleles, which would prevent formation of recombinants. The results of three point crosses involving two PMS alleles and a normal allele suggest that high PMS alleles placed between two alleles that are normally corepaired block that corepair.

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Idiopathic Infertility as a Feature of Genome Instability

Life ◽

10.3390/life11070628 ◽

2021 ◽

Vol 11 (7) ◽

pp. 628

Author(s):

Agrita Puzuka ◽

Baiba Alksere ◽

Linda Gailite ◽

Juris Erenpreiss

Keyword(s):

Life Expectancy ◽

Male Infertility ◽

Genome Instability ◽

Repair System ◽

Environmental Aspects ◽

Strand Breaks ◽

Testicular Dysfunction ◽

Infertile Men ◽

Dna Strand ◽

Dynamic Mutations

Genome instability may play a role in severe cases of male infertility, with disrupted spermatogenesis being just one manifestation of decreased general health and increased morbidity. Here, we review the data on the association of male infertility with genetic, epigenetic, and environmental alterations, the causes and consequences, and the methods for assessment of genome instability. Male infertility research has provided evidence that spermatogenic defects are often not limited to testicular dysfunction. An increased incidence of urogenital disorders and several types of cancer, as well as overall reduced health (manifested by decreased life expectancy and increased morbidity) have been reported in infertile men. The pathophysiological link between decreased life expectancy and male infertility supports the notion of male infertility being a systemic rather than an isolated condition. It is driven by the accumulation of DNA strand breaks and premature cellular senescence. We have presented extensive data supporting the notion that genome instability can lead to severe male infertility termed “idiopathic oligo-astheno-teratozoospermia.” We have detailed that genome instability in men with oligo-astheno-teratozoospermia (OAT) might depend on several genetic and epigenetic factors such as chromosomal heterogeneity, aneuploidy, micronucleation, dynamic mutations, RT, PIWI/piRNA regulatory pathway, pathogenic allelic variants in repair system genes, DNA methylation, environmental aspects, and lifestyle factors.

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Saturation of DNA Mismatch Repair and Error Catastrophe by a Base Analogue in Escherichia coli

Genetics ◽

10.1093/genetics/161.4.1363 ◽

2002 ◽

Vol 161 (4) ◽

pp. 1363-1371

Author(s):

Kazuo Negishi ◽

David Loakes ◽

Roel M Schaaper

Keyword(s):

Escherichia Coli ◽

Mismatch Repair ◽

Dna Mismatch Repair ◽

Repair System ◽

Mutagenic Action ◽

Wild Type ◽

Dna Mismatch ◽

Cell Counts ◽

Error Catastrophe ◽

Mismatch Repair System

Abstract Deoxyribosyl-dihydropyrimido[4,5-c][1,2]oxazin-7-one (dP) is a potent mutagenic deoxycytidine-derived base analogue capable of pairing with both A and G, thereby causing G · C → A · T and A · T → G · C transition mutations. We have found that the Escherichia coli DNA mismatch-repair system can protect cells against this mutagenic action. At a low dose, dP is much more mutagenic in mismatch-repair-defective mutH, mutL, and mutS strains than in a wild-type strain. At higher doses, the difference between the wild-type and the mutator strains becomes small, indicative of saturation of mismatch repair. Introduction of a plasmid containing the E. coli mutL+ gene significantly reduces dP-induced mutagenesis. Together, the results indicate that the mismatch-repair system can remove dP-induced replication errors, but that its capacity to remove dP-containing mismatches can readily be saturated. When cells are cultured at high dP concentration, mutant frequencies reach exceptionally high levels and viable cell counts are reduced. The observations are consistent with a hypothesis in which dP-induced cell killing and growth impairment result from excess mutations (error catastrophe), as previously observed spontaneously in proofreading-deficient mutD (dnaQ) strains.

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