274 research outputs found
Prediction of Rebound Amount in Dry Mix Shotcrete by a Fast Adaboosting Neural Network
In this study, a new machine learning approach has been proposed to predict the rebound causing loss of material in shotcrete using the ensemble learning method. In shotcrete application, the amount of rebound material was obtained for use in a dataset. In this study, the shotcrete mixes that contain an additive of fly-ash, silica fume, and polypropylene fiber were produced besides simple shotcrete. Each mix was sprayed onto 2 wooden panels measuring 45 × 45 × 15 cm in size. The rebound material resulting from the spraying process was collected, weighed and recorded as data. The highest rebound was observed for the plain sample and the lowest for samples with substituted silica fume. Dependent and independent parameters were identified in the dataset produced as a result of experimental studies. Hyperparameters producing optimum results in the training of the model were identified for the model and boosting method. The dataset was split into training and testing sets by 80% and 20%, respectively. As a result, the model achieved a prediction performance of 84.25%. To test the performance of the proposed model, traditional machine learning algorithms were compared on the same dataset. Consequently, the proposed model was observed to have the highest accuracy
Exact Microsatellite Density Differences among Capsicum Tissues and Development Stages
Density and position differences of microsatellites in genomes may indicate important roles of microsatellites in
genetic development and regulation of gene expression. However, there is no or limited study on microsatellite
density differences among tissues of development stages. In the present study, exact microsatellite densities and
motifs among 7 different tissues and development stages were determined using Capsicum annuum L. expressed
sequence tags (ESTs), which were reassembled into in silico libraries. Results indicated that densities of exact
microsatellites (1 to 6 bp repeats) in housekeeping and tissue specific ESTs of anther, flower bud, and placenta
specific ESTs were statistically different, being low in comparison to that of leaf, fruit, early and hairy root. Further
analyses also indicated that exact microsatellite density of anther and placenta was significantly low while exact
microsatellite density of flower bud, early and hairy root was significantly higher. There were density differences
among mono-, di-, tri- and hexa-nucleotides between housekeeping and tissue specific ESTs. Density of tri- and
penta-nucleotides was not statistically significant. Overall results of the present study indicated that since the
microsatellite densities differed between housekeeping and tissue specific genes, genes containing microsatellites
may differ among tissues and development stages
Serum levels of anti-carbonic anhydrase antibodies and erythrocyte oxidative stress markers in endometriosis
Aim: To evaluate the serum levels of anti-carbonic anhydrase I-II antibodies and erythrocyte oxidative stress markers in endometriosis.
Method: This case-control laboratory investigation was performed in the obstetrics and gynecology department of a tertiary center. Serum anti-carbonic anhydrase I and II antibodies and erythrocyte oxidative stress markers (superoxide dismutase, malondialdehyde, glutathione peroxidase and catalase) were compared with control group (n = 30) in the endometriosis group (n = 33). Correlation between carbonic anhydrase autoantibodies and oxidative stress markers were tested.
Results: Serum levels of anti-carbonic anhydrase II antibodies were found to be significantly increased in the endometriosis group compared to controls. The erythrocyte antioxidant enzyme activities (superoxide dismutase, glutathione peroxidase and catalase) and malondialdehyde levels in erythrocytes were increased in endometriosis group; but only glutathione peroxidase activity and malondialdehyde levels were significantly higher in endometriosis group. No correlation was detected between anti-carbonic anhydrase antibodies and oxidative stress markers.
Conclusions: Our results indicate that erythrocyte oxidative stress and anti-carbonic anhydrase antibodies may be involved in the pathophysiology of endometriosis
It isn't over ‘till it’s over: A continuing concern of the SARS-CoV-2 variants, and miRNAs targeting the S protein as a probable absolute cure
The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) outbreak which still continues to affect the general population, has mutated day by day and new variants have emerged. More than 40 variants, usually caused by mutations in the spike (S) protein, have been recorded. Observation of S protein mutations in the development of t herapeutic agents will increase success rates. As we identify the three-dimensional (3D) conformation of viruses, it is more and more possible to work on models for understanding molecular interactions. Development of agents for arrays and 3D sequencing of proteins paves the way for potential therapeutic studies against variants. MicroRNAs (miRNAs) seemingly act as a potentially important group of biomolecules in combating uncontrolled cytokine release. Besides antiviral response, miRNAs promise to be powerful therapeutic agents against infections. Studies have shown that miRNAs are able to inhibit the genome directly by miRNA-based treatments as they are sprecific to the SARS-CoV-2 genome. In order to expose this potential, in silico studies before continuing with lab studies are helpful. In our bioinformatics analysis, we proposed to compare the S protein similarities of Delta and Omicron, two of the most common variants, and to detect miRNAs targeting the S protein. The S proteins and coding sequences were compared between the two variants, and differences were determined. Within our analysis, 105 and 109 miRNAs for the Delta and Omicron variants, respectively, were detected.
We believe that our study will be a potential guide for deciding on the miRNAs that may most likely have an effect on the management of the infection caused by both variants
The relationship between carbonic anhydrase-III expression and oxidative stress in brown adipose tissue
Objective: High-fat foods increase adipose tissue size, and induce obesity. Although carbonic anhydrase III is abundantly found in brown adipose tissue, its function is not fully defined. In this study, we investigated the relationship between carbonic anhydrase III enzyme mRNA expression and malondialdehyde, oxidative
stress marker, in brown adipose tissue of rats that were fed high-fat diets. In addition, we investigated potential effect of N-acetylcysteine as an antioxidant in this relationship.
Methods: In our study three experimental groups were formed and each contained 6 rats (control, obese, and antioxidant groups). The experimental groups were fed for a duration of 85 days with high fat diets. In these groups, carbonic anhydrase III mRNA expression, total carbonic anhydrase hydratase activitie, and malondialdehyde levels were measured in brown adipose tissues dissected from rat scapula regions.
Results: According to our findings, carbonic anhydrase III mRNA expression was higher in the obese group than in the control group (p = 0.004), and malondialdehyde levels were lower in the obese group than in the control group (p =0.03). It was observed that carbonic anhydrase III mRNA expression was higher in the antioxidant group than in the control group (p = 0.006), and malondialdehyde levels were lower in the antioxidant group than in the control group (p = 0.006). In addition, in the obese group carbonic anhydrase III mRNA expression was higher than in the
antioxidant group (p=0.01).
Conclusion: In brown adipose tissue of rats that were fed high-fat diets, this study showed that the carbonic anhydrase III mRNA expression increased and the malondialdehyde level decreased
Association of b7-h4 gene polymorphisms in urothelial bladder cancer
Background/aim: We aimed to study polymorphisms of the B7-H4 gene in order to evaluate a possible association in urothelial carcinoma, as it is highly expressed in cancer tissues. Materials and methods: In this study B7-H4 gene rs10754339, rs10801935, and rs3738414 SNPs were studied by PCR-RFLP method in paraffin-embedded tumor specimens from 62 urothelial carcinoma patients and in a control group including 30 patients without bladder cancer. Results: We detected that the rs10754339 polymorphism was more frequent in the cancer patients when compared with the control group (P < 0.05). Only the rs3738414 polymorphism showed a statistically significant difference in frequency between pathologic diagnostic groups. Conclusion: The rs10754339 AA genotype distribution was found to have a higher frequency whereas the rs3738414 AG genotype distribution was lower in the bladder cancer group (P < 0.05). None of the genotype distributions showed a significant difference from the control group for the rs10801935 polymorphism. We conclude that B7-H4 has the potential to be a useful prognostic marker in urothelial carcinoma
Construction and Evaluation of The Wind Tunnel Technique for Estimating Ammonia Volatilization from Land
Agriculture is mainly responsible for ammonia (NH3) volatilization. Among all agricultural activities, livestock and especially animal manures are the most important sources of NH3 emissions. Manure application which not only exacerbate greenhouse gas emissions, but also leads to eutrophication of water bodies. Many studies have shown that surface application of manure can lead to large ammonia losses and run off, on the other hand that tillage can substantially reduce these losses. It is necessary to determine ammonia flux from manure-amended soils to improve management manure handling practices for minimizing agriculture’s impact on the environment. From this point of view, one of the direct measured method was used to determine this volatilization. The objections of this work were: i) The design, construction, physical calibration, and operation of the little wind tunnels. ii) Recover ammonia loss from bovine slurry by little wind tunnel method. iii) Determine the effect of slurry application depth on ammonia emission. The little wind tunnel system consisted of plastic canopy covering the treatment area (2 m long by 0.5 m wide). By was using a fan, it was imitated the natural wind speed in the test area (1-1.5 m/s). Nitrogen losses were measured with this method in surface application, 50 mm and 100 mm subsurface. In the surface application, the highest ammonia emission was observed. It was approximately 68% higher in compared to another methods. There is significantly (P=0.05) different in the ammonia emission, between the surface apply method and injection manure in soil methods. But There isn’t any significantly different between ammonia emission amount in injection subsurface methods (100 mm and 50 mm deep)
Coastal Archaeological and Natural Sites of Turkiye Threatened by Sea Level Rise
Throughout history, humanity preferred to live near the water. Therefore, the coasts have become the centers of trade and cultural exchange. Turkiye has numerous cultural heritage sites on the coast under the threat of sea level rise due to climate change. The Scientific and Technological Research Council of Turkiye (TUBITAK) funded project “Vulnerability of Coastal Cultural Heritage Areas to Sea Level Rise and Its Impacts” (No: 122M613) focuses on Turkish coastal cultural heritage sites protected by law. The project aims to quantify coastal vulnerability by using the Fuzzy Coastal Vulnerability Assessment Model (Ozyurt, 2010) and integrating this information into a specific module that will be developed for the cultural heritage context
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