Şanlı Mohamed, Gülşah
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Sanli-Mohamed, G.
Sanli Mohamed, Gulsah
Sanli-Mohamed, Gulsah
Şanlı, G.
Şanlı, Gülşah
Şanlı-Mohamed, G.
Şanlı-Mohamed, Gülşah
Sanli, Gulsah
Sanli, G.
Sanli Mohamed, Gulsah
Sanli-Mohamed, Gulsah
Şanlı, G.
Şanlı, Gülşah
Şanlı-Mohamed, G.
Şanlı-Mohamed, Gülşah
Sanli, Gulsah
Sanli, G.
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gulsahsanli@iyte.edu.tr
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04.01. Department of Chemistry
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Current Staff
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Sustainable Development Goals
1NO POVERTY
0
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2ZERO HUNGER
5
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3GOOD HEALTH AND WELL-BEING
21
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4QUALITY EDUCATION
2
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5GENDER EQUALITY
0
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6CLEAN WATER AND SANITATION
9
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7AFFORDABLE AND CLEAN ENERGY
11
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8DECENT WORK AND ECONOMIC GROWTH
3
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9INDUSTRY, INNOVATION AND INFRASTRUCTURE
20
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10REDUCED INEQUALITIES
0
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11SUSTAINABLE CITIES AND COMMUNITIES
0
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12RESPONSIBLE CONSUMPTION AND PRODUCTION
7
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13CLIMATE ACTION
11
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14LIFE BELOW WATER
3
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15LIFE ON LAND
0
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16PEACE, JUSTICE AND STRONG INSTITUTIONS
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Documents
37
Citations
557
h-index
16
Documents
32
Citations
364
Scholarly Output
69
Articles
39
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158305/25463
Supervised MSc Theses
25
Supervised PhD Theses
2
WoS Citation Count
407
Scopus Citation Count
474
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0
Projects
10
WoS Citations per Publication
5.90
Scopus Citations per Publication
6.87
Open Access Source
52
Supervised Theses
27
| Journal | Count |
|---|---|
| Biotechnology and Applied Biochemistry | 5 |
| ACS Omega | 4 |
| International Journal of Biological Macromolecules | 2 |
| Biotechnology and Bioengineering | 1 |
| Chemical Biology and Drug Design | 1 |
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69 results
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Master Thesis Purification and Biochemical Characterization of Xylanase Expressed in Thermophilic Geobacillus Sp.(Izmir Institute of Technology, 2015) Algan, Müge; Köksal, Mustafa; Şanlı Mohamed, Gülşah; Şanlı Mohamed, Gülşah; Köksal, MustafaXylanase is an enzyme that catalyzes the degradation of the linear polysaccharide β-1,4-xylan into xylose and breaks down the hemicellulose structure of plant cell wall. The xylanolytic property of the enzyme makes it preferable for many biotechnological applications in industry. This enzyme is possibly produced by some bacterial and fungal microorganisms. In this study, briefly, xylanase enzyme was expressed in thermophillic Geobacillus sp. and purified by cold acetone precipitation and gel filtration chromatography. Molecular weight of our xylanase was found as 40.1 kDa by SDS-PAGE and this protein band was verified by Native-PAGE activity staining. Finally, it was characterized using biochemical methods. For characterization studies, Km and Vmax values were calculated from Lineweaver-Burk plot as 10.2 mg/ml and 31.7 U/ml, respectively. The optima temperature and pH for enzyme activity were investigated using beechwood xylan as substrate and found as 55°C and 8.0, respectively. Furthermore, effects of some metal ions, various chemical reagents and organic solvents on enzyme activity were also determined and we observed that Ca2+, Mn2+ and Co2+ affected the activity positively while Zn2+, Cd2+, Fe3+, EDTA, SDS, CHAPS and DTT shielded the activity. And only β-mercaptoethanol caused a significant change amoung organic solvents. Lastly, that the enzyme has a long shelf-life was confirmed assaying the samples taken from enzyme stocks stored at +4°C and room temperature for six weeks.Article Citation - WoS: 3Citation - Scopus: 3Structural and Functional Analyses of Gh51 Alpha-L of Geobacillus Vulcani Gs90 Reveal Crucial Residues for Catalytic Activity and Thermostability(Wiley, 2022) Sürmeli, Yusuf; Şanlı Mohamed, GülşahAlpha-L-arabinofuranosidase (Abf) is of big interest in various industrial areas. Directed evolution is a powerful strategy to identify significant residues underlying Abf properties. Here, six active variants from GH51 Abf of Geobacillus vulcani GS90 (GvAbf) by directed evolution were overproduced, extracted, and analyzed at biochemical and structural levels. According to the activity and thermostability results, the most-active and the least-active variants were found as GvAbf51 and GvAbf52, respectively. GvAbf63 variant was more active than parent GvAbf by 20% and less active than GvAbf51. Also, the highest thermostability belonged to GvAbf52 with 80% residual activity after 1 h. Comparative sequence and structure analyses revealed that GvAbf51 possessed L307S displacement. Thus, this study suggested that L307 residue may be critical for GvAbf activity. GvAbf63 had H30D, Q90H, and L307S displacements, and H30 was covalently bound to E29 catalytic residue. Thus, H30D may decrease the positive effect of L307S on GvAbf63 activity, preventing E29 action. Besides, GvAbf52 possessed S215N, L307S, H473P, and G476C substitutions and S215 was close to E175 (acid–base residue). S215N may partially disrupt E175 action. Overall effect of all substitutions in GvAbf52 may result in the formation of the C–C bond between C171 and C213 by becoming closer to each other.Article Citation - WoS: 7Citation - Scopus: 7Regio- and Stereo-Chemical Ring-Opening Reactions of the 2,3-Epoxy Alcohol Derivative With Nucleophiles: Explanation of the Structures and C-2 Selectivity Supported by Theoretical Computations(Elsevier, 2022) Gündoğdu, Özlem; Atalay, Abdurrahman; Çelebioğlu, Neslihan; Anıl, Barış; Şahin, Ertan; Şanlı Mohamed, Gülşah; Bozkaya, Uğur; Kara, YunusThe ring-opening reactions of (1aS,2S,6bR)-5-ethyl-2-hydroxyhexahydro-4H-oxireno[2,3-e]isoindole-4,6(5H)-dione were investigated under very mild and nonchelated conditions. C-2 selective ring-opening products were obtained with nucleophilic additions such as Cl−, Br− and N3−. The exact configuration of (3aS,4R,5R,6S,7aS)-5-chloro-2-ethyl-4,6-dihydroxyhexahydro-1H-isoindole-1,3(2H)-dione was determined by X-Ray diffraction analysis which was obtained from the reaction of epoxy alcohol with HCl. On the other hand, theoretical computations were carried out to explain the regioselectivity in the ring opening reaction of epoxy alcohols. The results showed that the ring-opening reaction of both epoxy alcohols proceeds in a kinetically controlled manner and regioselectivity occurs depending on the transition state.Master Thesis Cloning of Novel Sericin Like Proteins and Optimization of Their Expression(Izmir Institute of Technology, 2022) Gürerk, Gamze; Şanlı Mohamed, Gülşah; Şanlı Mohamed, GülşahSericin is a protein that helps fibroin fibers link together to create the cocoon, and it forms silk with fibroin. Fibroin is used in textile production as well as in biomaterial applications. Sericin has essential biocompatibility, biodegradability, cryoprotection, antioxidant properties, and a multi-component structure. Thanks to these properties, its use in biomaterial and biomedical fields is expanding and also used in cosmetic research and wound healing, and drug delivery thanks to its high fiber structure. Sericin can be obtained from silkworm cocoons by degumming method but changes the structure of the obtained protein since the protein is exposed to high temperatures. Sericin produced in different batches is obtained in different quantities and these create inconsistencies in the quality of the biomaterials obtained from the sericin, limiting the use of the sericin as a biomaterial. Besides, obtaining protein by recombinant production provides the advantage that the repetitive chain length can adjust as desired and the protein can be standardized. In this thesis, recombinantly generated and optimized a novel sericin-like protein (Ser-12mer) with the native sericin sequence encoding twelve repeats of recombinantly conserved 38 amino acid motifs in Escherichia coli and characterized its structural properties. In addition, the effects of induction cell density and cell culture media on the expression of the previously produced sericin-like protein (Ser-4mer) was investigated and its expression and concentration were increased by optimization. Recombinant production of a sericin-like protein will provide an understanding of the sequence-structure relationships and significantly expand their applications as biomaterials.Article Citation - WoS: 18Citation - Scopus: 23A Thermophilic ?-L From Geobacillus Vulcani Gs90: Heterologous Expression, Biochemical Characterization, and Its Synergistic Action in Fruit Juice Enrichment(Springer, 2018) İlgü, Hüseyin; Sürmeli, Yusuf; Şanlı Mohamed, Gülşahα-l-Arabinofuranosidases with an orchestral action of xylanolytic enzymes degrades the xylan in plant cell wall. In this study, heterologous expression, biochemical characterization, and synergistic action of α-l-Arabinofuranosidase from previously identified.Geobacillus vulcani GS90 (GvAbf) was investigated. The recombinant α-l-Arabinofuranosidase was overexpressed in Escherichia coli BL21 (λDE) and purified via His-tag Ni-affinity and size-exclusion chromatography. Optimum activity of the purified α-l-Arabinofuranosidase was obtained at pH 5 and at 70 °C. The GvAbf was active in a broad pH and temperature ranges; pH 4–9 and 30–90 °C, respectively. In addition, it retained most of its activity after an hour incubation at 70 °C and remained relatively stable at pH 3–6. GvAbf was quite stable against various metal ions. The kinetic parameters of GvAbf was obtained as Vmax and Km; 200 U/mg and 0.2 mM with p-nitrophenyl-α-l-arabinofuranoside and 526 U/mg and 0.1 mM with sugar beet arabinan, respectively. The synergistic action of GvAbf was studied with commercially available xylanase on juice enrichment of apples, grapes, oranges, and peaches. The best juice enrichment in terms of clarity, reducing sugar content, and yield, was achieved with GvAbf and xylanase together compared to treatment with xylanase and GvAbf alone in all fruits. The treatment with GvAbf and xylanase together lead to an increased juice yield by 26.56% (apple), 30.88% (grape), 40.00% (orange) and 32.20% (peach) as well as having a significant effect on juice clarity by an increase of % transmittance 47.26, 25.98, 41.77, and 44.97, respectively. The highest reducing sugar level of fruit juices also obtained with GvAbf and xylanase together compared to treatment with xylanase and GvAbf alone in all types of fruits. GvAbf and xylanase together as simultaneous synergistic manner may have an exciting potential for application in fruit juice processing.Article Citation - WoS: 15Citation - Scopus: 17Improved Activity of Alpha-L From Geobacillus Vulcani Gs90 by Directed Evolution: Investigation on Thermal and Alkaline Stability(John Wiley and Sons Inc., 2019) Sürmeli, Yusuf; İlgü, Hüseyin; Şanlı Mohamed, Gülşahalpha-L-Arabinofuranosidase (Abf) is a potential enzyme because of its synergistic effect with other hemicellulases in agro-industrial field. In this study, directed evolution was applied to Abf from Geobacillus vulcani GS90 (GvAbf) using one round error-prone PCR and constructed a library of 73 enzyme variants of GvAbf. The activity screening of the enzyme variants was performed on soluble protein extracts using p-nitrophenyl alpha-L-arabinofuranoside as substrate. Two high activity displaying variants (GvAbf L307S and GvAbf Q90H/L307S) were selected, purified, partially characterized, and structurally analyzed. The specific activities of both variants were almost 2.5-fold more than that of GvAbf. Both GvAbf variants also exhibited higher thermal stability but lower alkaline stability in reference to GvAbf. The structural analysis of GvAbf model indicated that two mutation sites Q90H and L307S in both GvAbf variants are located in TIM barrel domain, responsible for catalytic action in many Glycoside Hydrolase Families including GH51. The structure of GvAbf model displayed that the position of L307S mutation is closer to the catalytic residues of GvAbf compared with Q90H mutation and also L307S mutation is conserved in both variants of GvAbf. Therefore, it was hypothesized that L307S amino acid substitution may play a critical role in catalytic activity of GvAbf. (C) 2018 International Union of Biochemistry and Molecular Biology, Inc.Master Thesis Molecular Cloning, Overexpression and Biochemical Characterization of Bacterial Amylase for Biotechnological Processes(Izmir Institute of Technology, 2012) Burhanoğlu, Tülin; Karakaya, Hüseyin Çağlar; Şanlı Mohamed, GülşahAmylases are the enzymes that act on glycosidic bond of starch and related polysaccarides. They comprise 25% of enzyme utilised in a variety of industry. It is used to obtain maltose, glucose and maltodextrins in various lenghts during industrial processes. Amylases are widely distributed enzymes in bacteria, fungi, higher plants and animals. Thermophilic enzymes are widely demanded in order to be stable at harsh process conditions. Isolating these enzymes from thermophilic microorganism is increasing trend because of ease of enzyme production. In this study α-amylase gene region from a thermophilic Bacillus sp. isolated from Balçova Geotermal region in İzmir was cloned to compotent E. coli BL 21 cells. Additionally protein expression was reinforced with pKJE7 chaperone plasmid. Cloned gene was sequenced and found as 1542 bp in length. Thermophilic amylase that has a 59.9 kD molecular weight was expressed and purified from this recombinant strain. Mass spectrometric analysis were performed and the enzyme was matched with α-amylase family protein of Geobacillus thermodenitrificans NG80-2 using NCBInr database. The aminoacid sequence of this enzyme was seen to be similar 92% with our obtained enzyme. According to the results of characterization studies, the amylase enzyme was seen to have highest activity at pH 8.0 and 60°C. The enzyme was also showed to have resonable activity between pH5 and 9. 85% of the enzyme activity was retained at 70°C. Furthermore, amylase activities at 65 and 85°C were observed to remain stable for 5 and 2 hours, respectively. It was also showed that the activity was stable and pH7 and 9 for 6 hours. The effects of some metal ions, chemical agents and organic solvents on enzyme activity were examined so, Co+2, Mg+2,Ca+2 was determined to be as inducer for the enzyme activity. Conversely the activity was inhibited by Cu+2. Furthermore methanol, DDT and Triton X-100 was found to have no effect on the enzyme activity.Master Thesis Chitosan-Plasmid Dna Nanoparticles: Cytotoxic and Cytostatic Effects on Human Cell Lines(Izmir Institute of Technology, 2015) Bor, Gizem; Şanlı Mohamed, Gülşah; Demir, Mustafa MuammerAlthough chitosan nanoparticles (CNs) became a promising tool for several biological and medical applications owing to their inherent biocompatibility and biodegrability, studies regarding their effects on cytotoxicity and cytostatic properties still remain insufficient. Therefore, in the present study, we decided to perform comprehensive analysis of the interactions between CNs – pKindling-Red-Mito (pDNA) and different cell line models derived from blood system and human solid tissues cancers. The resulting CNs-pDNA was investigated with regard to their physical-chemical properties, cellular uptake and transfection efficiency, cytotoxic and cytostatic properties. The nanoparticles showed high encapsulation efficiency and physical stability even after 2 days for various formulations. Moreover, high gene expression levels were observed already 96 h after transfection. CNs-pDNA treatment, despite the absence of oxidative stress induction, caused cell cycle arrest in G0/G1 phase and as consequence led to premature senescence, which turned out to be both, p21-dependent and p21-independent. Also, observed DNMT2 upregulation may suggest the activation of different pathways protecting from the resulting CNs-mediated stress. In conclusion, treatment of different cell lines with CNs-pDNA showed that their biocompatibility was limited and effects were cell type-dependent.Master Thesis Design, Construction and Expression of a Synthetic Gene for Metal Binding Proteins(Izmir Institute of Technology, 2009) Bal, Erhan; Şanlı Mohamed, Gülşah; Şanlı Mohamed, GülşahConstruction of synthetic genes is today the most elegant way to optimize the heterologous expression of a recombinant protein. The availability of sequences of entire genome has significantly increased the number of protein targets which many of them will need to be overexpressed in cells other than the original source of DNA. Gene synthesis often provides a fast and economically efficient approach. In this study we have optimized a two-step polymerase chain reaction (2-step PCR) method for the fast and extremely accurate synthesis of a 186 bp CUP1 gene encoding yeast Saccharomyces cerevisiae copper metallothionein. A total of the six overlapping oligonucleotides ranged from 43 to 49 in length, designed with the unique restriction sites, were assembled in a single step PCR. The assembly was then further amplified by second PCR to produce a synthetic gene which has been cloned into the pET28a(+) vector to allow the expression of CUP1 gene in E. coli BL21 (DE3) host cell. In order to compare the difference in expression level of the gene with optimized codon usage for E. coli, CUP1gene was redesigned according to codon bias of host cell. A significant increase of expression level of codon optimized gene was obtained compared to original sequence of CUP1 gene of copper metallothionein in yeast Saccharomyces cerevisiae.Article Citation - WoS: 3Citation - Scopus: 4Enhanced Thermostability of the Immobilized Thermoalkalophilic Esterase Onto Magnetic-Cornstarch Nanoparticle(Wiley, 2022) Öz, Yasin; Sürmeli, Yusuf; Şanlı Mohamed, GülşahThe immobilization of the biocatalysts onto magnetic nanoparticles has been extensively applied as the external magnetic field facilitates the enzyme recovery from the reaction mixture. In the present study, glutaraldehyde-modified magnetite-cornstarch nanoparticles (MCNs) were successfully synthesized, elaborately characterized by ZetaSizer and surface-enhanced Raman spectroscopy, and used for the immobilization of a thermoalkalophilic esterase from Geobacillus sp. The optimal immobilization conditions were obtained at 65 degrees C, 2:3 molar ratios of Fe2+:Fe3+, and 1 g cornstarch resulted in approximately 90 nm magnetic particles in size. Also, immobilization yield and immobilization efficiency of the esterase were found as 74% and 82%, respectively. Scanning electron microscopy micrographs showed that MCNs were uniform, spherical in shape, and well dispersed and esterase immobilized MCNs displayed similar morphology as free MCNs. The maximum activity of free and immobilized esterase was obtained at 65 degrees C and pH 9. Immobilization onto glutaraldehyde-modified MCNs significantly enhanced the esterase thermostability. Additionally, the immobilized esterase kept its residual activity of 75% after three sequential cycles, suggesting that it has favorable operational stability.