Araştırma Makalesi
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Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi

Yıl 2021, Cilt: 32 Sayı: 1, 13 - 17, 25.03.2021
https://doi.org/10.36483/vanvetj.800895

Öz

Bu araştırma, nitrik oksidin (NO’nun) ekzojen donörü sodyum nitroprussid (SNP) ve NO inhibitörü N-nitro-L-Arjinin metil esterin (L-NAME’in) yumurtaya enjeksiyon yapılarak kanatlı embriyonal gelişimi üzerinde oluşturduğu etkisini belirlemek amacıyla yapıldı. Araştırmada toplam 210 adet kuluçkalık döllü tavuk yumurtası her biri 30 yumurtadan oluşan kontrol, Sham kontrol (SK), serum fizyolojik (SF) ve deneme gruplarında kullanıldı. Kontrol grubundaki yumurtalara hiçbir uygulama yapılmazken (negatif kontrol), geri kalan yumurtaların kuluçka başlangıcında hava kamarası delindi. Delinen yumurtalardan SK grubu hemen parafinle kapatıldı. SF grubu pozitif kontrol olarak adlandırıldıktan sonra geriye kalan yumurtaların oluşturduğu deneme gruplarına sırasıyla 50 ve 200 mg/kg SNP ve aynı düzeylerde L-NAME solüsyonları hava kamarasına açılan deliğe enjekte edildi. Embriyonik dönemin 7 ve 14. günlerinde yumurtalar açılarak gruplarda rölatif embriyo ağırlığı ve embriyo uzunluğu (7. ve 14. günlerde) ile çıkım ağırlığı, çıkım uzunluğu, çıkım oranı ve embriyonal ölümler (21. günde) belirlendi. Kuluçkanın 7. ve 14. günlerindeki rölatif embriyo ağırlığı ve embriyo uzunluğu değerleri ile 21. güne ait çıkım ağırlığının SNP ve L-NAME enjeksiyonundan etkilenmediği görüldü (P>0.05). Araştırmada 21. gününe ait çıkım oranı L-NAME50 grubunda en yüksek iken, SNP200 grubunda en düşük olarak belirlendi (P<0.05). Çıkım uzunluğunun L-NAME200 grubunda arttığı tespit edildi (P<0.05). Sonuç olarak, NO’nun kanatlılarda embriyonal gelişimde fonksiyonel olmakla birlikte metabolizmasındaki artışın embriyonel ölümü artırarak kuluçka çıkım oranını azalttığı görüldü.

Destekleyen Kurum

AKU-BAPK

Proje Numarası

18.KARİYER.253

Kaynakça

  • Blashkiv TV, Korniichuk AN, Voznesenskaya TY, Pornichenko AG. Role of nitric oxide in ovulation, meiotic maturation of oocytes, and implantation in mice. B Exp Biol Med. 2001: 132(5):1034–1036.
  • Bulbul T, Akosman MS, Yılmaz O, Ulutas E, Bulbul A. Supplementary dietary nitric oxide donor (sodium nitroprusside) or inhibitor (NG-nitro-l-arginine methyl ester) depressed growth performance and ovarian primordial and primary follicles in Japanese quail (Coturnix coturnix japonica) in a dose-dependent manner. Br Poult Sci. 2015a; 56(1):113-120.
  • Bulbul A, Bulbul T, Ozdemir V, Akosman MS, Ulutas E, Yilmaz O. Biphasic effect of nitric oxide on development of ovarian primordial and primary follicles in laying quail. Eur Poultry Sci. 2015b; 79-90.
  • Chen HW, Jiang WS, Tzeng CR. Nitric oxide as a regulator in preimplantation embryo development and apoptosis. Fertil Steril. 2001; 75:1163-1171.
  • Choi YH, Ohno N, Okumura J, Furuse M. Effects of pheripheral nitric oxide on food intake in the chick. J Poult Sci. 1996; 33(5):286-291.
  • Curran RD, Billiar TR, Stuehr DJ, Ochoa JB, Harbrecht BG, Flint SG, Simmons RL. Multiple cytokines are required to induce hepatocyte nitric oxide production and inhibit total protein synthesis. Ann Surg. 1990; 212:462-71.
  • Celik I, Oguz H, Demet O, Boydak M, Donmez HH, Sur E, Nizamlıoglu F. Emryotoxicity assay of aflatoxin produced by Aspergillus parasiticus Nrrl 2999. Br Poult Sci. 2000; 41:401-409.
  • Cetinkal A, Colak A, Topuz K, Demircan MN, Simsek N, Berber U, Umur AS, Selcuk M, Vatansever HS. The effects of meloxicam on neural tube development in the early stage of chick embryos. Turk Neurosurg. 2010; 20:111-116.
  • Ensminger, ME. (1992). Poultry Science. Interstate Publishers, Inc. 510 North Vermilion Street. P.O. Box 50. Printed in USA: Chapter. 3: 43–63.
  • Gouge RC, Marshburn P, Gordon BE, Nunley W, Huet-Hudson YM. Nitric oxide as a regulator of embryonic development. Biol Reprod. 1998; 58:875–879.
  • Haddad EB, Liu SF, Salmon M, Robichaud A, Barnes PJ, Chung KF. Expression of inducible nitric oxide synthase mRNA in Brown Norway rats exposed to ozone: effect of dexamethasone. Eur J Pharmacol. 1995; 293:287-290.
  • Hamburger V, Hamilton HL. A series of normal stages in the development of chick embryo. J Morphol. 1951; 88:49-92.
  • Heinrich-Hirsch B, Neuberti D. Effect of aciclovir on the development of the chick embryo in ovo. Arch Toxicol. 1991; 65:402-408.
  • Jelinek R, Marhan O. Validation of chick embryotoxicity screening test (CHEST). A comparative study. Funct Dev Morphol. 1994; 4:317-323.
  • Jelinek R, Peterka M, Rychter Z. Chick embryotoxicity screening test-130 substances tested. Indian Exp Biol. 1985; 23:588-595.
  • Kim PK, Zamora R, Petrosko P, Billiar TR. The regulatory role of nitric oxide in apoptosis. Int Immunopharmacol. 2001; 1:1421–1441.
  • Knowles RG, Moncada, S. Nitric oxide synthases in mammals. Biochem J. 1994; 298(2):249-258.
  • Kucera P, Burnand MB. Routine teratogenicity test that uses chick embryos in vitro. Teratog Carcinog Mutagen; 1987; 7:427-447.
  • Lepiller S, Laurens V, Bouchot A, Herbomel P, Solary E, Chluba J. Imaging of nitric oxide in a living vertebrate using a diamino-fluorescein probe. Free Radic Biol Med. 2007; 43:619-627.
  • Manwar SJ, Moudgal RP, Sastry KVH, Mohan J, Tyagi JBS, Raina R. Role of nitric oxide in ovarian follicular development and egg production in Japanese quail (Coturnix coturnix japonica). Theriogenology 2006; 65:1392–1400.
  • Moncoda S, Higgs A. The L-arjinine-nitric oxide pathway. N Engl J Med. 1993; 329:2002-2012.
  • Öznurlu M, Öznurlu Y. Erken dönemde yumurtaya enjekte edilen fluniksin megluminin embriyotoksik ve teratojenik etkilerinin belirlenmesi. Eurasian Journal of Veterinary Sciences 2016; 32:260-267.
  • Prelusky DB, Hamilton RMG, Foster BC, Trenholm HL, Thompson BK. Optimization of chick embryotoxicity bioassay for testing toxicity potential of fungal metabolites. J Assoc Off Anal Chem. 1987; 70:1049-1055.
  • Reppert EJ, Kleinhenz MD, Montgomery SR, Heiman J, Sura A, Bornheim HN, Magnin G, Sidhu PK, Zhang Y, Joo H, Coetzee JF. Pharmacokinetics and pharmacodynamics of intravenous and transdermal flunixin meglumine in alpacas. J Vet Pharmacol Ther. 2019; 42(5):572-579.
  • Tona K, Onagbesan O, De Ketelaere B, Decuypere E, Bruggemen V. Effects of age of broiler breeders and egg storage on egg quality, hatchability, chick quality, chick weight and chick posthatch growth to forty-two days. J Appl Poultry Res. 2004; 13:10-18.
  • Ubeda A, Trillo MA, Chacon I, Blanco MJ, Jocelyne I. Chick embryo development can be irreversibly altered by early exposure to weak extremely-low-frequency magentic fields. Bioelectromagnetics 1994; 15:385–398.
  • Unlu A. Methods of developmental research. Acta Neurochir (Wien). 2002; 83:71-78.

Morphological Determination of the Effect of Nitric Oxide on Egg Embryo Development

Yıl 2021, Cilt: 32 Sayı: 1, 13 - 17, 25.03.2021
https://doi.org/10.36483/vanvetj.800895

Öz

This study was carried out to determine the effect of sodium nitroprusside (SNP), a nitric oxide (NO) exogenous donor, and NG-nitro-L-arginine methyl ester (L-NAME), a NO inhibitor, on the development of chicken embryos by injected into the egg. A total of 210 hatching fertilized chicken eggs used into control, Sham control (SC), serum physiological (SP) and treatment groups containing 30 eggs. The air space of the remaining eggs was pierced at the beginning of the incubation, whereas the eggs in the control group were not subjected to any application (negative control). The SC group of the drilled eggs was immediately closed with paraffin. After the SP group was called a positive control, 50 and 200 mg/kg SNP respectively and L-NAME solutions at the same levels were injected into the hole opened to the air space into the experimental groups consisting of the remaining eggs. The eggs were opened on some days 7th and 14th of the embryonic period and the following parameters of each group were determined: Relative embryo weights, weights and lengths of the embryos (on days 7th and 14th), hatching weight, hatching length, hatching rate and embryonal deaths (on day 21st). The results showed that the relative embryo weight and embryo length on the days 7th and 14th of the hatching and the hatching weight on the day 21st of the hatching were not affected by injection of SNP and L-NAME (P>0.05). Hatching rate on the day 21st was highest in the L-NAME50 group, whereas this rate was lowest in the SNP200 group (P<0.05). Hatching length increased in the L-NAME200 group (P<0.05). It was observed that NO was functional in embryonic development of poultry, and the increase in its metabolism decreased in the hatching rate increasing embryonal death.

Proje Numarası

18.KARİYER.253

Kaynakça

  • Blashkiv TV, Korniichuk AN, Voznesenskaya TY, Pornichenko AG. Role of nitric oxide in ovulation, meiotic maturation of oocytes, and implantation in mice. B Exp Biol Med. 2001: 132(5):1034–1036.
  • Bulbul T, Akosman MS, Yılmaz O, Ulutas E, Bulbul A. Supplementary dietary nitric oxide donor (sodium nitroprusside) or inhibitor (NG-nitro-l-arginine methyl ester) depressed growth performance and ovarian primordial and primary follicles in Japanese quail (Coturnix coturnix japonica) in a dose-dependent manner. Br Poult Sci. 2015a; 56(1):113-120.
  • Bulbul A, Bulbul T, Ozdemir V, Akosman MS, Ulutas E, Yilmaz O. Biphasic effect of nitric oxide on development of ovarian primordial and primary follicles in laying quail. Eur Poultry Sci. 2015b; 79-90.
  • Chen HW, Jiang WS, Tzeng CR. Nitric oxide as a regulator in preimplantation embryo development and apoptosis. Fertil Steril. 2001; 75:1163-1171.
  • Choi YH, Ohno N, Okumura J, Furuse M. Effects of pheripheral nitric oxide on food intake in the chick. J Poult Sci. 1996; 33(5):286-291.
  • Curran RD, Billiar TR, Stuehr DJ, Ochoa JB, Harbrecht BG, Flint SG, Simmons RL. Multiple cytokines are required to induce hepatocyte nitric oxide production and inhibit total protein synthesis. Ann Surg. 1990; 212:462-71.
  • Celik I, Oguz H, Demet O, Boydak M, Donmez HH, Sur E, Nizamlıoglu F. Emryotoxicity assay of aflatoxin produced by Aspergillus parasiticus Nrrl 2999. Br Poult Sci. 2000; 41:401-409.
  • Cetinkal A, Colak A, Topuz K, Demircan MN, Simsek N, Berber U, Umur AS, Selcuk M, Vatansever HS. The effects of meloxicam on neural tube development in the early stage of chick embryos. Turk Neurosurg. 2010; 20:111-116.
  • Ensminger, ME. (1992). Poultry Science. Interstate Publishers, Inc. 510 North Vermilion Street. P.O. Box 50. Printed in USA: Chapter. 3: 43–63.
  • Gouge RC, Marshburn P, Gordon BE, Nunley W, Huet-Hudson YM. Nitric oxide as a regulator of embryonic development. Biol Reprod. 1998; 58:875–879.
  • Haddad EB, Liu SF, Salmon M, Robichaud A, Barnes PJ, Chung KF. Expression of inducible nitric oxide synthase mRNA in Brown Norway rats exposed to ozone: effect of dexamethasone. Eur J Pharmacol. 1995; 293:287-290.
  • Hamburger V, Hamilton HL. A series of normal stages in the development of chick embryo. J Morphol. 1951; 88:49-92.
  • Heinrich-Hirsch B, Neuberti D. Effect of aciclovir on the development of the chick embryo in ovo. Arch Toxicol. 1991; 65:402-408.
  • Jelinek R, Marhan O. Validation of chick embryotoxicity screening test (CHEST). A comparative study. Funct Dev Morphol. 1994; 4:317-323.
  • Jelinek R, Peterka M, Rychter Z. Chick embryotoxicity screening test-130 substances tested. Indian Exp Biol. 1985; 23:588-595.
  • Kim PK, Zamora R, Petrosko P, Billiar TR. The regulatory role of nitric oxide in apoptosis. Int Immunopharmacol. 2001; 1:1421–1441.
  • Knowles RG, Moncada, S. Nitric oxide synthases in mammals. Biochem J. 1994; 298(2):249-258.
  • Kucera P, Burnand MB. Routine teratogenicity test that uses chick embryos in vitro. Teratog Carcinog Mutagen; 1987; 7:427-447.
  • Lepiller S, Laurens V, Bouchot A, Herbomel P, Solary E, Chluba J. Imaging of nitric oxide in a living vertebrate using a diamino-fluorescein probe. Free Radic Biol Med. 2007; 43:619-627.
  • Manwar SJ, Moudgal RP, Sastry KVH, Mohan J, Tyagi JBS, Raina R. Role of nitric oxide in ovarian follicular development and egg production in Japanese quail (Coturnix coturnix japonica). Theriogenology 2006; 65:1392–1400.
  • Moncoda S, Higgs A. The L-arjinine-nitric oxide pathway. N Engl J Med. 1993; 329:2002-2012.
  • Öznurlu M, Öznurlu Y. Erken dönemde yumurtaya enjekte edilen fluniksin megluminin embriyotoksik ve teratojenik etkilerinin belirlenmesi. Eurasian Journal of Veterinary Sciences 2016; 32:260-267.
  • Prelusky DB, Hamilton RMG, Foster BC, Trenholm HL, Thompson BK. Optimization of chick embryotoxicity bioassay for testing toxicity potential of fungal metabolites. J Assoc Off Anal Chem. 1987; 70:1049-1055.
  • Reppert EJ, Kleinhenz MD, Montgomery SR, Heiman J, Sura A, Bornheim HN, Magnin G, Sidhu PK, Zhang Y, Joo H, Coetzee JF. Pharmacokinetics and pharmacodynamics of intravenous and transdermal flunixin meglumine in alpacas. J Vet Pharmacol Ther. 2019; 42(5):572-579.
  • Tona K, Onagbesan O, De Ketelaere B, Decuypere E, Bruggemen V. Effects of age of broiler breeders and egg storage on egg quality, hatchability, chick quality, chick weight and chick posthatch growth to forty-two days. J Appl Poultry Res. 2004; 13:10-18.
  • Ubeda A, Trillo MA, Chacon I, Blanco MJ, Jocelyne I. Chick embryo development can be irreversibly altered by early exposure to weak extremely-low-frequency magentic fields. Bioelectromagnetics 1994; 15:385–398.
  • Unlu A. Methods of developmental research. Acta Neurochir (Wien). 2002; 83:71-78.
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Veteriner Cerrahi
Bölüm Araştırma Makaleleri
Yazarlar

Tuba Bülbül 0000-0002-8610-362X

Mustafa Tatar Bu kişi benim 0000-0002-9527-9993

Mehmet Aydın Akalan 0000-0001-9924-2920

Hülya Atik 0000-0002-9723-0413

Murat Sırrı Akosman 0000-0001-6675-8840

Aysun Çevik Demirkan 0000-0002-5824-5831

İsmail Türkmenoğlu 0000-0002-0775-2622

Vural Özdemir 0000-0001-6591-7774

Proje Numarası 18.KARİYER.253
Yayımlanma Tarihi 25 Mart 2021
Gönderilme Tarihi 28 Eylül 2020
Kabul Tarihi 16 Aralık 2020
Yayımlandığı Sayı Yıl 2021 Cilt: 32 Sayı: 1

Kaynak Göster

APA Bülbül, T., Tatar, M., Akalan, M. A., Atik, H., vd. (2021). Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi. Van Veterinary Journal, 32(1), 13-17. https://doi.org/10.36483/vanvetj.800895
AMA Bülbül T, Tatar M, Akalan MA, Atik H, Akosman MS, Çevik Demirkan A, Türkmenoğlu İ, Özdemir V. Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi. Van Vet J. Mart 2021;32(1):13-17. doi:10.36483/vanvetj.800895
Chicago Bülbül, Tuba, Mustafa Tatar, Mehmet Aydın Akalan, Hülya Atik, Murat Sırrı Akosman, Aysun Çevik Demirkan, İsmail Türkmenoğlu, ve Vural Özdemir. “Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi”. Van Veterinary Journal 32, sy. 1 (Mart 2021): 13-17. https://doi.org/10.36483/vanvetj.800895.
EndNote Bülbül T, Tatar M, Akalan MA, Atik H, Akosman MS, Çevik Demirkan A, Türkmenoğlu İ, Özdemir V (01 Mart 2021) Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi. Van Veterinary Journal 32 1 13–17.
IEEE T. Bülbül, M. Tatar, M. A. Akalan, H. Atik, M. S. Akosman, A. Çevik Demirkan, İ. Türkmenoğlu, ve V. Özdemir, “Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi”, Van Vet J, c. 32, sy. 1, ss. 13–17, 2021, doi: 10.36483/vanvetj.800895.
ISNAD Bülbül, Tuba vd. “Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi”. Van Veterinary Journal 32/1 (Mart 2021), 13-17. https://doi.org/10.36483/vanvetj.800895.
JAMA Bülbül T, Tatar M, Akalan MA, Atik H, Akosman MS, Çevik Demirkan A, Türkmenoğlu İ, Özdemir V. Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi. Van Vet J. 2021;32:13–17.
MLA Bülbül, Tuba vd. “Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi”. Van Veterinary Journal, c. 32, sy. 1, 2021, ss. 13-17, doi:10.36483/vanvetj.800895.
Vancouver Bülbül T, Tatar M, Akalan MA, Atik H, Akosman MS, Çevik Demirkan A, Türkmenoğlu İ, Özdemir V. Nitrik Oksidin Yumurta Embriyosu Gelişimi Üzerine Etkisinin Morfolojik Olarak Belirlenmesi. Van Vet J. 2021;32(1):13-7.

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