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Permanent URI for this collectionhttps://hdl.handle.net/20.500.14288/6

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    PublicationOpen Access
    The epidemiological and molecular characterization of vancomycin-resistant enterococci Isolated from rectal swab samples of hospitalized patients in Turkey
    (Clinical Laboratory, 2014) Çakırlar, Fatma Köksal; Karakullukçu, Asiye; Sirekbasan, Serhat; Bağdatlı, Yaşar; Department of Chemical and Biological Engineering; Barış, İbrahim; Kavaklı, İbrahim Halil; Teaching Faculty; Department of Chemical and Biological Engineering; College of Engineering; 111629; 40319
    Background: Vancomycin-resistant enterococci (VRE) are a serious problem all over the world. The present study was conducted to investigate antimicrobial resistance patterns, genotypes, clonal relationship, and virulence factors of VRE species isolated from rectal swab samples of hospitalized patients, patient's relatives, and medical staff at Istanbul University Cerrahpasa Medical School hospital. Methods: The VRE isolates were typed with an automated VITEK system and their antibiotic sensibilities were analysed by disc diffusion and Etest (R) method. The molecular characterization and clonal relationships were performed using a PCR method and virulence genes by sequence typing. Results: A total of 100 (10.3%) of the 971 patients were colonized with VRE. None of the investigated 25 patient's relatives and 45 medical staff carried VRE. All VRE strains were identified as E. faecium. They were vanA geno-type and originated from a single clone. VRE strains exhibited multi-drug resistance. High-level gentamicin-resistance was 93%. However, lower resistance rates were found for linezolid (40%) and quinopristin-dalfopristin (11%). The enterococcal surface protein gene esp was found positive in 87 of 100 isolates, and four strains were positive for the cylB (cytolysin) gene. Conclusions: The identification of VRE strains to the species level and detection of virulence genes will assist in infection control practices.
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    PublicationOpen Access
    Birt-Hogg-Dube syndrome: diagnostic journey of three cases from skin to gene
    (Korean Dermatological Association, 2022) Hasal, Eda; Başkan, Emel Bülbül; Dilektaşlı, Aslı Görek; Sağ, Şebnem Özemri; Adird, Saduman Balaban; Temel, Şehime Gülsün; Department of Chemical and Biological Engineering; Gül, Şeref; Researcher; Department of Chemical and Biological Engineering; College of Engineering
    Birt-Hogg-Dube syndrome (BHDS) is a rare disorder characterized by the triad of cutaneous lesions, renal tumors, lung cysts and inactivation of the gene folliculin (FLCN). Here, we present three female patients diagnosed with BHDS. First case a 55-year-old female had flesh moles histopathology compatible with angiofibroma, multiple cysts in the lung and kidneys, FLCN gene mutations ('c.1285dupC [p.His429Profs*]' 11th exon and 'c.653G>A [p.Arg258His]' 7th exon). The second case a 76-year-old female had trichodiscoma on her skin, multiple cysts in the lung, spontaneous pneumothorax, FLCN gene mutation 'c.1285dupC (p.His429Profs*27) 11th exon' and, her son had renal carcinoma history under 50 years of age. Our third case, also the daughter of case 2, had dermal papules histopathology compatible with trichodiscoma, spontaneous pneumothorax, FLCN gene mutation 'c.1285dupC (p.His429Profs*27) 11th exon' and, parotid oncocytoma. Through our cases, we document the first case of two mutations ('c.1285dupC [p.His429Profs*]' 11th exon and 'c.653G>A [p.Arg258His]' 7th exon) in the same FLCN gene and the 11th known case of parotid oncocytoma associated with BHDS in the light of the literature.
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    PublicationOpen Access
    ModiBodies: a computational method for modifying nanobodies in nanobody-antigen complexes to improve binding affinity and specificity
    (Springer, 2020) Department of Chemical and Biological Engineering; Hacısüleyman, Aysima; Erman, Burak; Faculty Member; Department of Chemical and Biological Engineering; Graduate School of Sciences and Engineering; College of Engineering; N/A; 179997
    Nanobodies are special derivatives of antibodies, which consist of single domain fragments. They have become of considerable interest as next-generation biotechnological tools for antigen recognition. They can be easily engineered due to their high stability and compact size. Nanobodies have three complementarity-determining regions, CDRs, which are enlarged to provide a similar binding surface to that of human immunoglobulins. Here, we propose a benchmark testing algorithm that uses 3D structures of already existing protein-nanobody complexes as initial structures followed by successive mutations on the CDR domains. The aim is to find optimum binding amino acids for hypervariable residues of CDRs. We use molecular dynamics simulations to compare the binding energies of the resulting complexes with that of the known complex and accept those that are improved by mutations. We use the MDM4-VH9 complex, (PDB id 2VYR), fructose-bisphosphate aldolase from Trypanosoma congolense (PDB id 5O0W) and human lysozyme (PDB id 4I0C) as benchmark complexes. By using this algorithm, better binding nanobodies can be generated in a short amount of time. We suggest that this method can complement existing immune and synthetic library-based methods, without a need for extensive experimentation or large libraries.
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    PublicationOpen Access
    CO2 absorption into primary and secondary amine aqueous solutions with and without copper ions in a bubble column
    (TÜBİTAK, 2022) Güler, Cansu; Uzunlar, Erdal; Department of Chemical and Biological Engineering; Erkey, Can; Yousefzadeh, Hamed; Faculty Member; Researcher; Department of Chemical and Biological Engineering; College of Engineering; 29633; N/A
    Chemical absorption of CO2 into aqueous amine solutions using a nonstirred bubble column was experimentally investigated. The performance of CO2 absorption of four different primary and secondary amines including monoethanolamine (MEA), piperazine (PZ), 2-piperidineethanol (2PE), and homopiperazine (HPZ) were compared. The effects of initial concentration of amine, the inlet mole fraction of CO2, and solution temperature on the rate of CO2 absorption and CO2 loading (mol CO2/mol amine) were studied in the range of 0.02–1 M, 0.10–0.15, and 25–40 °C, respectively. The effect of the presence of copper ions in the amine solution on CO2 loading was also studied. By comparison of the breakthrough curves of the amines at different operational conditions, it was revealed that the shortest and longest time for the appearance of the breakthrough point was observed for MEA and HPZ solutions, respectively. CO2 loading of MEA, 2PE, PZ, and HPZ aqueous solutions at 25 °C, 0.2 M of initial concentration of amine, and 0.15 of inlet mole fraction of CO2 were 1.06, 1.14, 1.13, and 1.18 mol CO2/mol amine, respectively. By decreasing the inlet mole fraction of CO2 from 0.15 to 0.10, CO2 loading slightly decreased. As the initial concentration of amine and temperature decreased, CO2 loading increased. Also, the presence of copper ions in the absorbent solution resulted in a decrease in the CO2 loading of MEA and HPZ aqueous solutions. In case of PZ and 2PE amines, adding copper ions led to precipitation even at low copper ion concentrations.
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    PublicationOpen Access
    Investigation of performances of commercial diesel oxidation catalysts for CO, C3H6, and NO oxidation
    (TÜBİTAK, 2021) Yıldız, Deniz Şanlı; Özener, Hüseyin Barkın; Hisar, Gökhan; Department of Chemical and Biological Engineering; Güneş, Hande; Bozbağ, Selmi Erim; Erkey, Can; Researcher; Faculty Member; Department of Chemical and Biological Engineering; College of Engineering; N/A; N/A; 29633
    Four commercial monolithic diesel oxidation catalysts (DOCs) with two different platinum group metal (PGM) loadings and Pt:Pd ratios of 1:0, 2:1, 3:1 (w/w) were investigated systematically for CO, C3H6, and NO oxidation, CO-C3H6 co-oxidation, and CO-C3H6-NO oxidation reactions via transient activity measurements in a simulated diesel engine exhaust environment. As PGM loading increased, light-off curves shifted to lower temperatures for individual and co-oxidation reactions of CO and C3H6. CO and C3H6 were observed to inhibit the oxidation of themselves and each other. Addition of Pd to Pt was found to enhance CO and C3H6 oxidation performance of the catalysts while the presence and amount of Pd was found to increase the extent of self-inhibition of NO oxidation. NO inhibited CO and C3H6 oxidation reactions while NO oxidation performance was enhanced in the presence of CO and C3H6 probably due to the occurrence of reduced Pt and Pd sites during CO and C3H6 oxidations. The optimum Pt:Pd ratio for individual and co-oxidations of CO, C3H6, and NO was found to be Pt:Pd = 3:1 (w/w) in the range of experimental conditions investigated in this study.
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    PublicationOpen Access
    Experimental and theoretical study of NH3 adsorption and desorption over a Cu-chabazite NH3-SCR catalyst
    (TÜBİTAK, 2018) Şimşek, Mutlu; Demir, Onur; Yıldız, Deniz Şanlı; Özener, Hüseyin Barkın; Hisar, Gökhan; Department of Chemical and Biological Engineering; Erkey, Can; Bozbağ, Selmi Erim; Faculty Member; Researcher; Department of Chemical and Biological Engineering; Graduate School of Sciences and Engineering; 29633; N/A
    NH3 adsorption and desorption behavior of a commercial Cu-chabazite (CHA) NH3 selective catalytic reduction (NH3-SCR) catalyst was studied in the presence and absence of H2O. NH3 uptake values at various adsorption temperatures were obtained during various steps of the adsorption and temperature-programmed desorption (TPD) experiments. Total NH3 uptake decreased from 4.6 to 1.6 g NH3/L catalyst when the adsorption temperature was increased from 50 to 300 degrees C. Three major adsorption sites for NH(3)adsorption could be identified and quantified using TPD experiments, namely loosely, moderately, and strongly bound NH3 with peak centers at around 147, 266, and 447 degrees C. The total NH3 uptake was significantly affected by the presence of H2O in the feed. This resulted in a significant uptake loss (nearly 60%) for the loosely bound NH3. Three single-site and one three-site model were developed and compared in terms of NH3 uptake and release. The effects of site density values and thermodynamic restrictions in one-site models were investigated. The model using site density values obtained during the TPD phase resulted in the best fit among one-site models. The three-site model, which uses site density values obtained using dry adsorption of NH3, best represented the experimental data.
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    PublicationOpen Access
    Effects of timolol treatment on pancreatic antioxidant enzymes in streptozotocin-induced diabetic rats: an experimental and computational study
    (Sciendo, 2019) Gök, Müslüm; Turan, Belma; N/A; Department of Chemical and Biological Engineering; Ulusu, Nuriye Nuray; Erman, Burak; Faculty Member; Faculty Member; Department of Chemical and Biological Engineering; School of Medicine; College of Engineering; 6807; 179997
    Background: the study aimed to investigate whether timolol-treatment has a beneficial effect on pentose phosphate pathway enzyme activities such as glucose-6-phosphate dehydrogenase (G6PD), 6-phosphogluconate dehydrogenase (6PGDH) enzyme activities and cAMP level in streptozotocin-induced diabetic rats in pancreatic tissues. Methods: diabetes was induced by streptozotocin (STZ) in 3-month old male Wistar rats. The diabetic rats were treated with timolol (5 mg/kg body weight, for 12 weeks) while the control group received saline. Enzyme activities were determined in pancreas tissue. To support our results, we performed in silico calculations, using Protein Data Bank structures. Results: timolol treatment of STZ-induced diabetic rats had no noteworthy effect on high blood-glucose levels. However, this treatment induced activities of G6PD and 6PGDH in diabetic rats. Timolol treatment significantly increased cAMP level in diabetic pancreatic tissue. We found that timolol cannot bind strongly to either G6PD or 6PGD, but there is a relatively higher binding affinity to adenylyl cyclase, responsible for cAMP production, serving as a regulatory signal via specific cAMP-binding proteins. Conclusions: our data point out that timolol treatment has beneficial effects on the antioxidant defence mechanism enzymes in the pancreas of STZ-induced diabetic rats. / Uvod: cilj istrazivanja je bio da se utvrdi da li tretman timololom ima pozitivan efekat na aktivnosti enzima pentoze fosfata, kao sto su aktivnosti glukoze-6-fosfat dehidrogenaze (G6PD), enzimske aktivnosti 6-fosfoglukonat dehidrogenaze i cAMP nivo u tkivu pankreasa kod pacova kojima je dijabetes izazvan streptozotocionom. Metode: dijabetes je izazvan streptozotocionom (STZ) kod tromesecnih muzjaka vistar pacova. Pacovi sa dijabetesom su tretirani timololom (5 mg/kg telesne tezine tokom 12 nedelja), dok je kontrolna grupa primila fizioloski rastvor. Enzimske aktivnosti su utvrivane u tkivu pankreasa. Da bismo potkrepili nase rezultate, sproveli smo in silico racunanja koristeci strukture Proteinske baze podataka. Rezultati: tretman timololom na pacovima kojima je dijabetes izazvan putem STZ-a nije imao znacajan uticaj na visoke nivoe glukoze u krvi. Medutim, kod takvih pacova ovaj tretman je indukovao aktivnosti G6PD i 6PGDH. Lecenje timololom znacajno je povecalo nivo cAMP-a u dijabeticnom tkivu pankreasa. Utvrdili smo da se timolol ne moze snazno vezati ni za G6PD, ni za 6PGD, ali da postoji relativno veci afinitet vezivanja za adenilil ciklazu, odgovornu za proizvodnju cAMP, koja sluzi kao regulatorni signal putem odredenih cAMP vezivnih proteina. Zakljucak: nasi podaci ukazuju da tretman timololom ima pozitivne efekte na antioksidantne enzime od brambenog sistema u pankreasu pacova sa dijebetesom izazvanim putem STZ-a.
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    PublicationOpen Access
    PRISM-EM: template interface-based modelling of multi-protein complexes guided by cryo-electron microscopy density maps
    (International Union of Crystallography, 2016) Nussinov, Ruth; Department of Chemical and Biological Engineering; Kuzu, Güray; Keskin, Özlem; Gürsoy, Attila; Faculty Member; Department of Chemical and Biological Engineering; College of Engineering; Graduate School of Sciences and Engineering; N/A; 26605; 8745
    The structures of protein assemblies are important for elucidating cellular processes at the molecular level. Three-dimensional electron microscopy (3DEM) is a powerful method to identify the structures of assemblies, especially those that are challenging to study by crystallography. Here, a new approach, PRISM-EM, is reported to computationally generate plausible structural models using a procedure that combines crystallographic structures and density maps obtained from 3DEM. The predictions are validated against seven available structurally different crystallographic complexes. The models display mean deviations in the backbone of <5 angstrom. PRISM-EM was further tested on different benchmark sets; the accuracy was evaluated with respect to the structure of the complex, and the correlation with EM density maps and interface predictions were evaluated and compared with those obtained using other methods. PRISM-EM was then used to predict the structure of the ternary complex of the HIV-1 envelope glycoprotein trimer, the ligand CD4 and the neutralizing protein m36.