Work Experience

  • Todate 2015

    Internship Sub-Rating Board Member

    Near East University, Faculty of Veterinary Medicine

  • Todate 2014

    Lecturer

    NEU Faculty of Veterinary Medicine, Department of Biochemistry

  • Todate 2014

    Board Member (Observer)

    Near East University, Faculty of Veterinary Medicince

  • Todate 2014

    Laboratory Chief

    NEU Animal Hospital, Diagnostic Laboratory

  • 2014 2011

    General Manager

    Bilim Laboratories, Quality Management Unit

  • 2010 2010

    Veterinarian

    Saha-Vet Veterinary Polyclinic,

  • 2014 2010

    Laboratory Manager

    Bilim Laboratories, Veterinary Diagnostic and Analysis Laboratory

Education & Training

  • Ph.D. 2010

    Veterinary Biochemistry

    Ankara University

  • Master...

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    -

  • Bachelor2004

    Faculty of Veterinary Medicine

    Ankara University

Honors, Awards and Grants

Research Projects

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    Monitoring of antioxidative blood parameters of cow in different stages of pregnancy.

    Metabolic status of different pregnancy periods in cows will be presented in Turkish Republic of Northern Cyprus (TRNC) and the problems arising from the lack of such parameters will be revealed. These results will accompanied by references in the TRNC and what measures should be taken towards improving both nutrition and pregnancy will be determined. Thus, Near East University Animal Hospital diagnostic will be put out the limits of these data which will be a reference for cows raised in TRNC.

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    Effects of frying oil on spermatozoon parameters and protective effects of probiotics

    possible negative of the frying oil effects on sperm parameters, to investigate the possibilities of reducing the possible negative impact by using probiotics, establishing a relationship between fast-food-style diet with male infertility, to reveal the potential benefits of the use of probiotics in humans.

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    The comparison of Transrectal palpation and ultrasonography with serum progesterone (P4), pregnancy-specific protein B (PSP-B) and pregnancy associated glycoprotein (PAG) in order diagnose early pregnancy in cows

    In this study, progesterone, pregnancy PSP-B and PAG measurement methods of pregnancy will be compared with each other and also with transrectal palpation and ultrasonography findings in order to determine the highest reliability of the test. The tests will be conducted in different consequent days.

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    Determination of Some Vitamin and Mineral Levels of forages, animal feeds and heifers in Turkish Republic of Northern Cyprus

    In this experiment, blood and feed samples were collected from eight livestock region (Nicosia, Gecitkale, Vadili, Famagusta, İskele, Ziyamet, Güzelyurt, Kyrenia) in two different season, that’s are July – August 2008 and December 2008 – January 2009. Total Blood Selenium, serum Ca, Mg, P, Feed Selenium and Plasma Vitamin E and A levels were analyzed. According to the results, differences between regions in a season and differences between seasons in a region were evaluated.

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Tissue Selenium Levels of Toxocara canis Infected Mice Given Nigella sative

Conference Paper International Selenium in Health & Disease Symposium, Volume -, Issue ., 2006, Pages -

Abstract

Nigella sativa (NS) has protective effect on cellular damage caused by oxidative stress. Selenium is included in the structure of Glutathione peroxidase which has an antioxidative effect. Toxacara canis is one of the nematodes causing visceral larva migrans. Men infected with this parasite ingesting embrionic egg. It is more common in children between 1-4 years than adults. From the ingested embrionic egg the larvae released in the small intestine and they migrate to so many organs such as liver, spleen, kidney, lung, brain, retina of the eye, pancreas and causing lesions. In this study mice with Toxocara canis infection were administered Nigella sativa in prophylactic and treatment doses and selenium levels were determined in their kidney tissues. In healthy control group kidney selenium levels were 980,46±236,68 ng/g and in mice infected with Toxocara canis 1240,15±315,77 ng/g. Nigella sativa was given in two different doses for prophylaxis and treatment(100 and 200 mg/kg bw). Kidney tissue Se levels of mice given Nigella sativa in two different doses for treatment and prophylaxis respectively are 1297,95±354,37; 1361,29±410,46 ng/g; 1148,55±240,28 ng/g and 1465,81±450,25 ng/g. In both groups of mice for treatment and prophylaxia given Nigella sativa kidney tissue Selenium levels were higher.


Özet

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The effects of Epigallocatechin gallate and N-Acetylcysteine on mobile phone-induced oxidative stress in Guinea pigs

Conference Paper 32nd Congress of the Federation-of-European-Biochemical-Societies (FEBS) - FEBS Journal, Volume 274, Issue Suppl1, 2007, Pages 369

Abstract

It has been reported that mobile phones induce free radical formation. Epigallocatechin gallate(EGCG) and N-acetylcysteine(NAC) were recently found to be potent antioxidants.This study was carried out to determine the protective effects of these antioxidants against the mobile phone-induced oxidative stress.Three-month-old male Guinea pigs were randomized into 6 groups;sham group,-NAC group(300 mg/kg ip,7 days),10 min. mobile phone-exposed, group with NAC,10 min. mobile phone-exposed group,EGCG, group(25 mg/kg ip,7days) and 10 min. mobile phone-exposed, group with EGCG.External E fields were measured by NARDA EMR 300 and type 8.3 probe.Guinea pigs were exposed to RFR averaged as 11.2±0.5 V/m for 10 min/day/7days.Malondialdehyde (MDA,an index of lipid peroxidation) were analysed as markers of oxidative stress.Plasma MDA levels increased in mobile phone exposed guinea pigs while EGCG causes a significant reduction of MDA levels,whereas NAC caused a significant increase in MDA levels.Also,MDA levels in mobile phone exposure group significantly increased with respect to sham exposure group. The increase of the lipid peroxidation at the treatment dose of NAC in guinea pigs may possibly be due to pro-oxidant behaviour. Besides,this study expressed that mobile phone exposure affect the level of lipid peroxidation of plasma.


Özet

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The effects of Epigallocatechin gallate and N-Acetylcysteine on serum testosterone levels in mobile phone-exposed Guinea pigs

Conference Paper 32nd Congress of the Federation-of-European-Biochemical-Societies (FEBS) - FEBS Journal, Volume 274, Issue Suppl1, 2007, Pages 369

Abstract

Recently there has been a few information on the effects of mobile phone-exposed on reproduction. The aim of this study to determine the effects of antioxidants namely EGCG and NAC on the serum testosteron levels in the mobile phone-exposed guinea pigs. Three-month-old male Guinea pigs were randomized into 6 groups; sham group, not exposed to mobile phone, NAC administration group (300 mg/kg ip during 7 days), 20 minutes mobile phone-exposed group with NAC administration, 20 minutes mobile phone-exposed group, EGCG administration group (25 mg/kg ip during 7 days) and 20 minutes mobile phone-exposed group with EGCG administration. During the exposure of every guinea prg, external E fields were measured by NARDA EMR 300 and type 8.3 probe. Guinea pigs were exposed to RFR averaged as 11.2±0.5 V/m for 20 minutes a day during 7 days. Serum testosterone levels were analysed by ELISA. The serum testosterone levels were found insignificantly increased in mobile phone-exposed group compared to the control and the other groups(p>0.05). Likewise, the serum testosterone levels were not found significantly different in the N-acetyl L-cysteine (NAC) and epigallocatechin-gallate (EGCG) administrated groups compared to the sham group.


Özet

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BLOOD SELENIUM AND VITAMIN E LEVELS IN HEIFERS: REGIONAL AND SEASONAL DIFFERENCES IN TURKISH REPUBLIC OF NORTHERN CYPRUS

Conference Paper INTERNATIONAL CONGRESS ON ADVANCES IN VETERINARY SCIENCES & TECHNICS BOOK of ABSTRACTS, Volume -, Issue -, 2016, Pages 47

Abstract

The aim of this study was to establish the current state of blood selenium (Se) and vitamin E levels in heifers, together with roughage Se levels in eight livestock regions of Turkish Republic of Northern Cyprus (TRNC) from two different seasons. We also evaluated whether these concentrations were adequate. Blood samples were collected from at least 30 heifers for each region. It was found that there are significant seasonal differences for each region and regional differences in each season were due to different feeding conditions. Heifer blood Se and plasma vitamin E levels were generally found within adequate ranges in all regions for both seasons. We suggest that feed supplements containing Se should be added for the Iskele region during the winter months. For the Morphou region we advise that feed supplements should be added during summer due to low levels of Se found in roughages.


Özet

General Publication The Effects of Vitamin E on Antioxidant Enzyme Activity in HepG2 Cells, 2016

Abstract


Özet

http://scholar.google.com/scholar?cluster=4566860904108622437&hl=en&oi=scholarr

General Publication The effects of Epigallocatechin gallate and N-Acetylcysteine on serum testosterone levels in mobile phone-exposed Guinea pigs, 2016

Abstract


Özet

http://www.biyokimya.vet/sites/default/files/docs/ELISA.pdf

General Publication ELISA, 2016

Abstract


Özet

http://www.medwelljournals.com/fulltext/?doi=javaa.2009.959.961

General Publication The effects of epigallocatechin gallate and N-acetylcysteine on mobile phone-induced oxidative stress in guinea pigs, 2016

Abstract


Özet

http://www.medwelljournals.com/fulltext/?doi=javaa.2009.1149.1151

General Publication The evaluation of epigallocatechin gallate and N-acetylcysteine on serum testosterone levels in male guinea pigs expose to cell phone microwave, 2016

Abstract


Özet

http://e-dergi.atauni.edu.tr/ataunivbd/article/view/5000173052

General Publication Koenzim Q ve Hastalıklar ile İlişkisi, 2016

Abstract


Özet

http://www.biyokimya.vet/sites/default/files/docs/Klinik_Biyokimya_Giris_Biyolojik_Materyaller_Analitik_S%C3%BCrecler.pdf

General Publication Fizyopatoloji, 2016

Abstract


Özet

http://scholar.google.com/scholar?cluster=10541047930488782915&hl=en&oi=scholarr

General Publication The effects of Epigallocatechin gallate and N-Acetylcysteine on mobile phone-induced oxidative stress in Guinea pigs, 2016

Abstract


Özet

http://www.biyokimya.vet/sites/default/files/docs/Asit-Baz_Dengesi.pdf

General Publication Asit-Baz Dengesi, 2016

Abstract


Özet

http://www.biyokimya.vet/sites/default/files/docs/Vitaminler_ve_Koenzim_Fonksiyonlari.pdf

General Publication Vitaminler ve Koenzim Fonksiyonları, 2016

Abstract


Özet

http://www.biyokimya.vet/sites/default/files/docs/Veteriner_Klinik_Enzimoloji.pdf

General Publication Klinik Enzimoloji, 2016

Abstract


Özet

The Effects of Epigallocatechin gallate and N-Acetylcysteine on Mobile Phone-induced Oxidative Stress in Guinea pigs

Original Article Journal of Animal and Veterinary Advances, Volume 8, Issue 5, 2009, Pages 959-961

Abstract

It has been reported that mobile phones induce free radical formation. Epigallocatechin Gallate (EGCG) and N-Acetylcysteine (NAC) were recently found to be potent antioxidants. The present study was carried out to determine the protective effects of antioxidants namely EGCG and NAC against the mobile phone-induced oxidative stress. Three-month-old male Guinea pigs were randomized into 6 groups; sham group, not exposed to mobile phone, NAC group (300 mg kg-1 ip, 7 days), 10 min mobile phone-exposed group with NAC, 10 min mobile phone-exposed group, EGCG group (25 mg kg-1 ip, 7 days) and 10 min mobile phone-exposed group with EGCG. During the exposure external E fields were measured by NARDA EMR 300 and type 8.3 probe. Guinea pigs were exposed to RFR averaged as 11.2±0.5 V m-1 for 10 min/day/7days. Malondialdehyde (MDA, an index of lipid peroxidation) were analysed as markers of oxidative stress. Plasma MDA levels increased in mobile phone exposed guinea pigs while EGCG causes a significant reduction of MDA levels, whereas NAC caused a significant increase in MDA levels. Also, MDA levels in mobile phone exposure group significantly increased with respect to sham exposure group. A number of studies have identified antioxidant species which show antioxidant effect in low-dose and pro-oxidant behaviour in high-dose. The increase of the lipid peroxidation at the treatment dose of NAC in guinea pigs may possibly be due to pro-oxidant behaviour. Besides, this study expressed that mobile phone exposure affect the level of lipid peroxidation of plasma.


Özet

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The Evaluation of Epigallocatechin Gallate and N-Acetylcysteine on Serum Testosterone Levels in Male Guinea Pigs Expose to Cell Phone Microwave

Original Article Journal of Animal and Veterinary Advances, Volume 8, Issue 6, 2009, Pages 1149-1151

Abstract

Recently, there has been a few information on the effects of mobile phone-exposed on reproduction. The aim of this study to determine the effects of antioxidants namely EGCG and NAC on the serum testosteron levels in the cell phone-exposed guinea pigs. Three-months-old male Guinea pigs were randomized into 6 groups; sham group, not exposed to mobile phone, NAC administration group (300 mg kg-1 i.p. during 7 days), 20 min mobile phone-exposed group with NAC administration, 20 min mobile phone-exposed group, EGCG administration group (25 mg kg-1 i.p. during 7 days) and 20 min mobile phone-exposed group with EGCG administration. During the exposure of every guinea pig, external E fields were measured by NARDA EMR 300 and type 8.3 probe. Guinea pigs were exposed to RFR averaged as 11.2±0.5 V m-1 for 20 min a day during 7 days. Serum testosterone levels were analysed by ELISA. The serum testosterone levels were found insignificantly increased in mobile phone-exposed group compared to the control and the other groups (p>0.05). Likewise, the serum testosterone levels were not found significantly different in the N-Acetyl L-Cysteine (NAC) and Epigallocatechin Gallate (EGCG) administrated groups compared to the sham group.


Özet

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The Effects of Vitamin E on Antioxidant Enzyme Activity in HepG2 Cells

Original Article Kafkas Univ Vet Fak Derg, Volume 22, Issue 6, 2016, Pages 865-869

Abstract

It is aimed to investigate the effect of vitamin E, powerful antioxidant (alpha-tocopherol succinate) on antioxidant enzyme activities in hepatocellular carcinoma (HepG2) cells. The hepatocellular carcinoma cell line HepG2 was used and the cells were cultured in the absence (control) or presence of different dose of vitamin E (50 mM, 50 µM and 10 µM vitamin E) for 24 h. The effect of vitamin E (alpha-tocopherol succinate) on catalase (CAT), superoxide dismutase (SOD) and glutathione peroxidase (GPx) enzyme activities in hepatocarcinoma cells were measured by spectrophotometry. A significant decrease in GPx activity was detected in 50 mM vitamin E treated HepG2 cells. However a significant decrease occurred in 10 µM and 50µM vitamin E applied HepG2 cells. SOD activity in study groups were lower than in control cells. In addition to this, the decrease in SOD activity in 50 mM vitamin E applied cells was significant. CAT enzyme activity in 50 µm vitamin E applied HepG2 cells was higher and, in 10 µM and 50 mM vitamin E applied HepG2 cells were lower than in control group. It was determined that vitamin E has a dose-dependent effect on antioxidant enzyme activity in HepG2 cells.


Özet

Güçlü bir antioksidan olan vitamin E’nin (alfa-tokoferolsüksinat) HepG2 hücrelerinde antioksidan enzim aktiviteleri üzerine etkisinin araştırılması amaçlanmıştır. Çalışma materyali olarak HepG2 hücre hattı kullanılmıştır. Vitamin E uygulanan hücreler çalışma grubunu vitamin E uygulaması yapılmayan hücreler kontrol grubunu oluşturmuştur. Çalışma grubu hücrelerine 10 µM, 50 µM, 50 mM dozlarda vitamin E uygulaması yapılarak, 24 saat sonunda HepG2 hücrelerinde antioksidan enzimlerden katalaz (CAT), süperoksitdismutaz (SOD) ve glutasyonperoksidaz (GPx) aktiviteleri spektrofotometrik olarak ölçülmüştür. 50 mM vitamin E uygulanan HepG2 hücrelerinde GPx enzim aktivitesinde anlamlı bir artış saptanmıştır. Ancak, 10 µM ve 50 µM vitamin E uygulanan HepG2 hücrelerinde ise anlamlı bir azalma meydana gelmiştir. Vitamin E uygulaması yapılan hücrelerdeki SOD aktivitesi vitamin E uygulaması yapılmayan kontrol grubuna göre daha düşük ölçülürken, 50 µM vitamin E uygulanan HepG2 hücrelerinde SOD aktivitesinde anlamlı azalma tespit edilmiştir. 50 µM vitamin E uygulanan HepG2 hücrelerindeki CAT enzim aktivitesi kontrol grubuna göre daha yüksek bulunurken, 10 µM ve 50 mM vitamin E uygulanan hücrelerdeki CAT enzim aktivitesi kontrol grubuna göre daha düşük tespit edilmiştir. Vitamin E’nin HepG2 hücrelerinde antioksidan enzim aktiviteleri üzerinde doz-bağımlı etkisinin olduğu belirlenmiştir.

Coenzyme Q and Relation with Diseases

Review Atatürk Üniversitesi Veteriner Bilimleri Dergisi, Volume 11, Issue 2, 2016, Pages 247-253

Abstract

Coenzyme Q (2- methyl - 5, 6 dimethoxy- 1, 4 -benzoquinone, KoQ, Ubiquinone, UQ) is present in all cells and cellular membranes and plays a key role in the mitochondrial respiratory chain and a vital molecule for cellular metabolism. Coenzyme Q has strong lipophilic antioxidant properties which enables this coenzyme to protect lipoproteins and cellular membranes. The earliest studies mainly focused on the redox function of Coenzyme Q; however, for the last 20 years, various functions have now been identified. The latest research has investigated its various additional roles which include: the antioxidative system, effects on monocytes and lymphocytes, endothelial function, cell signalling and gene expression. Coenzyme Q levels vary depending on the age and diseases status of the organism. Its importance during disease diagnosis and in the treatment process has been highlighted. Coenzyme Q is mostly associated with diseases such as cardiovascular diseases, degenerative muscle diseases, bone diseases, cancer, diabetes and neurodegenerative diseases (Huntington's disease, Parkinson’s disease, Alzheimer disease). It is therefore a very important parameter which is associated with an organism health or disease state. In this review, up-to-date data regarding the known functions of coenzyme Q and its connection with various diseases are presented.


Özet

Koenzim Q (2-metil-5, 6 dimetoksi-1, 4-benzokinon, KoQ, Ubikinon, UQ) tüm hücrelerde ve membranlarda bulunan, başlıca mitokondriyal solunum zincirinde kilit rol oynayan ve hücre metabolizması için son derece önemli bir moleküldür. Koenzim Q, güçlü lipofilik bir antioksidan olarak lipoproteinleri ve hücre membranlarını korumaktadır. İlk zamanlar ağırlıklı olarak redoks fonksiyonu üzerinde koenzim Q ile ilgili çalışmalar yapılmış olup, son 20 yıldır farklı fonksiyonları da tespit edilmiştir. Bunlar arasında antioksidatif sistemdeki rolü, lenfosit ve monositler üzerindeki etkisi, endotelyal fonksiyonu, hücre sinyali ve gen ifadesindeki rolü yer almakta ve bu fonksiyonları üzerinde de çalışmalar yapılmaktadır. Koenzim Q düzeyleri yaşlanma ve hastalık durumlarına bağlı olarak değişiklik göstermektedir. Günümüzde beşeri alanda gerek tanı, gerekse tedavi süreci konusunda ilişkili olduğu hastalıklar üzerinde yapılan çalışmalar yoğunluk kazanmıştır. Koenzim Q ile en çok ilişkilendirilen hastalıklar arasında kardiyovasküler hastalıklar, dejeneratif kas hastalıkları, kemik hastalıkları, kanserler, diabetes mellitus ve nörodejeneratif hastalıklar (Huntington hastalığı, Parkinson hastalığı, Alzheimer hastalığı) sayılabilir. Sağlık veya hastalık durumu ile koenzim Q’ nun ilişkilendirilmesi önemlidir. Bu derlemede, koenzim Q’ nun bilinen fonksiyonları ve hastalıkları ile olan ilişkisi ile ilgili güncel bilgiler sunulmuştur.

Currrent Teaching

  • 2019 Bahar

    BIOCHEMISTRY

    -

  • 2019 Bahar

    BIOCHEMISTRY I

    -

  • 2019 Bahar

    BIOCHEMISTRY II

    -

  • 2019 Bahar

    PHYSIOPATHOLOGY

    -

  • 2019 Bahar

    ORGANIC CHEMISTRY

    -

Teaching History

  • 2018 GÜZ

    BIOCHEMISTRY I

    Form the basis of teorical and clinical courses to gain the basic biochemistry informations that are necessary to determine the structure, properties and functions of molecules which play the role on continuity of life.

  • 2016 BAHAR

    BIOCHEMISTRY II

    -

  • 2017 BAHAR

    BIOCHEMISTRY

    -

  • 2018 BAHAR

    BIOCHEMISTRY

    -

  • 2015 GÜZ

    BIOCHEMISTRY

    -

  • 2016 GÜZ

    BIOCHEMISTRY I

    Form the basis of teorical and clinical courses to gain the basic biochemistry informations that are necessary to determine the structure, properties and functions of molecules which play the role on continuity of life.

  • 2017 GÜZ

    ORGANIC CHEMISTRY

    Organik moleküllerin yapısını, işlevselliğini ve tepkinirliğini anlayabilmek.Organik kimyanın temel deney teknikleri hakkındaki bilgileri hayata geçirebilmek.Birçok yaygın organik reaksiyonu anlamak.Makromoleküllerdeki fonksiyonel grupları tanımak.Petrokimya, ecza ve polimer sanayileri gibi birçok alanda hayati önem taşıyan kimyasal tepkimeleri anlamak için organik kimya bilgisine başvurabilme.

  • 2018 GÜZ

    ORGANIC CHEMISTRY

    Organik moleküllerin yapısını, işlevselliğini ve tepkinirliğini anlayabilmek.Organik kimyanın temel deney teknikleri hakkındaki bilgileri hayata geçirebilmek.Birçok yaygın organik reaksiyonu anlamak.Makromoleküllerdeki fonksiyonel grupları tanımak.Petrokimya, ecza ve polimer sanayileri gibi birçok alanda hayati önem taşıyan kimyasal tepkimeleri anlamak için organik kimya bilgisine başvurabilme.

  • 2017 GÜZ

    VETERINARY LABORATORY TECHNIQUES

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  • 2018 GÜZ

    VETERINARY LABORATORY TECHNIQUES

    -

  • 2015 BAHAR

    ORGANIC CHEMISTRY

    --

  • 2016 GÜZ

    BIOCHEMISTRY I

    -

  • 2017 BAHAR

    PHYSIOPATHOLOGY

    -

  • 2018 BAHAR

    PHYSIOPATHOLOGY

    -

  • 2017 GÜZ

    ORGANIC CHEMISTRY

    -

  • 2018 GÜZ

    ORGANIC CHEMISTRY

    -

  • 2018 YAZ

    ORGANIC CHEMISTRY

    -

  • 2017 YAZ

    PHYSIOPATHOLOGY

    -

  • 2016 GÜZ

    ORGANIC CHEMISTRY

  • 2016 GÜZ

    ORGANIC CHEMISTRY

    -

  • 2016 BAHAR

    PHYSIOPATHOLOGY

    -

  • 2017 GÜZ

    BIOCHEMISTRY I

    -

  • 2018 GÜZ

    BIOCHEMISTRY I

    -

  • 2019 GÜZ

    VETERINARY LABORATORY TECHNIQUES

    -

  • 2016 GÜZ

    VETERINARY LABORATORY TECHNIQUES

    -

  • 2019 GÜZ

    BIOCHEMISTRY I

    -

  • 2016 BAHAR

    BIOCHEMISTRY

    -

  • 2019 GÜZ

    ORGANIC CHEMISTRY

    -

  • 2019 GÜZ

    ORGANIC CHEMISTRY

    Organik moleküllerin yapısını, işlevselliğini ve tepkinirliğini anlayabilmek.Organik kimyanın temel deney teknikleri hakkındaki bilgileri hayata geçirebilmek.Birçok yaygın organik reaksiyonu anlamak.Makromoleküllerdeki fonksiyonel grupları tanımak.Petrokimya, ecza ve polimer sanayileri gibi birçok alanda hayati önem taşıyan kimyasal tepkimeleri anlamak için organik kimya bilgisine başvurabilme.

  • 2015 BAHAR

    BIOCHEMISTRY II

    -

  • 2018 YAZ

    BIOCHEMISTRY II

    -

  • 2017 BAHAR

    BIOCHEMISTRY II

    -

  • 2018 BAHAR

    BIOCHEMISTRY II

    -

  • 2017 YAZ

    BIOCHEMISTRY I

    -

  • 2018 YAZ

    BIOCHEMISTRY I

    -

  • 2015 BAHAR

    PHYSIOPATHOLOGY

    -

  • 2016 GÜZ

    ORGANIC CHEMISTRY

    Organik moleküllerin yapısını, işlevselliğini ve tepkinirliğini anlayabilmek.Organik kimyanın temel deney teknikleri hakkındaki bilgileri hayata geçirebilmek.Birçok yaygın organik reaksiyonu anlamak.Makromoleküllerdeki fonksiyonel grupları tanımak.Petrokimya, ecza ve polimer sanayileri gibi birçok alanda hayati önem taşıyan kimyasal tepkimeleri anlamak için organik kimya bilgisine başvurabilme.

At My Office

You can find me either at 5th floor of faculty or Diagnostic Laboratory of Animal Hospital during office hours (09:00-18:00).