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İnci kefali Chalcalburnus tarichi Pallas, 1811 postovulasyon foliküllerinde apoptoz.

Year 2006, Volume: 23 Issue: 3, 263 - 267, 01.09.2006

Abstract

References

  • Billig, H., I. Furuta, and A.J.W. Hsueh, 1993. Estrogens inhibit and androgens enhance ovarian granulosa cell apoptosis. Endocrinol., 133: 2204-2212.
  • Chun, S.-Y. and A.J.W. Hsueh, 1998. Paracrine mechanisms of ovarian follicle apoptosis. J. of Rep. Immunol., 39: 63-67.
  • Drummond, C.D., N. Bazzoli, E. Rizzo and Y. Sato, 2000. Postovulatory follicle: A model for experimental studies of programmed cell death or apoptosis in teleosts. J. Exp. Zool., 287: 176-182.
  • Goodman, S.B., K. Kugu, , S.H. Chen, S. Preutthipan, K.I. Tilly and J.L. Tilly, 1998. Estradiol-mediated suppression of apoptosis in the rabbit corpus luteum is associated with a shift in exspression of bcl-2 family members favoring cellular survival. Biol. Reprod., 59: 820-827.
  • Hsueh, A.J.W., H. Billig and A. Tsafriri, 1994. Ovarian follicle atresia: A hormonally controlled apoptotic process. Endocrinol. Rev. 15: 707-723.
  • Janz, D.M. and G. Van Der Kraak, 1997. Suppression of apoptosis by gonadotropin, 17β-estradiol, and epidermal growth factor in rainbow trout preovulatory ovarian follicles. Gen. Comp. Endocrinol., 105: 186-193.
  • Jennifer, L., J.L. Juengel, , H.A. Garverick, A.L. Johnson, R.S. Younquist, and M.F. Smith, 1993. Apoptosis during luteal regression in cattle. Endocrinol., 132: 249-254.
  • Kagawa, H., K. Takano and Y. Nagahama, 1981. Correlation of plasma estradiol-17β and progesteron levels with ultrastructure and histochemistry of ovarian follicles in the white-spotted char, Salvenius leucomaenis. Cell Tis. Res., 218: 315-329.
  • Kagawa, H., G. Young, and Y. Nagahama, 1983. Relatioship between seasonal plasma estradiol-17β and testosteron levels and in vitro production by ovarian follicles of amago salmon (Oncorhynchus rhodurus). Biol. Reprod., 29: 301-309.
  • Kerr, J.F.R., A.H. Wyllie, and A.R. Currie, 1972. Apoptosis: A basic biological phenomenon with wide-implications in tissue kinetics. Br. J. Cancer, 26: 239-257.
  • Matsuyama, S., K.T. Chang, H. Kanuka, M. Ohnishi, A. Ikeda, M. Nishihara and M. Takahashi, 1996. Occurrence of deoxyribonucleic acid fragmentation during prolactin-induced structural luteolysis in cycling rats. Biol. Reprod., 54: 1245-1251.
  • McCormarck, J.T., M.G. Friederichs, S.D. Limback and G.S. Greenwald, 1998. Apoptosis during spontaneous luteolysis in the cyclic golden hamster: biochemical and morphological evidence. Biol. Reprod., 58: 255-260.
  • Schwartzman, R.A. and J.A. Cidlowski, 1993. Apoptosis: The biochemistry and molecular biology of programmed cell death. Endocrinol., 14: 133- 151.
  • Scott, A.P., D.S. MacKenzie and N.E. Stacey, 1984. Endocrine changes during natural spawning in the white sucker, Catostomus commersani. II. steroid hormones. Gen. Com. Endocrinol., 56: 349-359.
  • Shimizu, A., K. Aida, and I. Hanyu, 1985. Endocrine profiles during the short reproductive cycle of an autumn-spawning bitterling, Acheilognathus rhombea. Gen. Com. Endocrinol., 60: 361-371.
  • Tilly, J.L., K.I. Kowalski, A.L. Johnson, and A.J.W. Hsueh, 1991. Involvement of apoptosis in ovarian follicular atresia and postovulatory regression. Endocrinol., 129: 2799--2801.
  • Tilly, J.L., 1996. Apoptosis and ovarian function. Rev. Reprod., 1: 162-172.
  • Ünal, G., H. Karakişi, M. Elp, 2005. Ovarian Follicle Ultrastructure and Changes in Levels of Ovarian Steroids during Oogenesis in Chalcalburnus tarichi Pallas, 1811. Turk. J. Vet. Anim. Sci., 29: 645-653.
  • Wood, A.W., and G. Van Der Kraak, 2001. Apoptosis and ovarian function: novel perspectives from the teleosts. Biol. Reprod., 64: 264-271.
  • Wood, A.W., and G. Van Der Kraak, 2002. Inhibition of apoptosis in vitellogenic ovarian follicles of rainbow trout (Oncorhynchus mykiss) by salmon gonadotropin, epidermal growth factor, and 17β-estradiol. Mol. Reprod. Dev., 61: 511-518.
  • Wyllie, A.H., 1980. Glucorticoid-induced thymocyte apoptosis is associated with endogenous endonuclease activation. Nature, 284: 555-556.
  • Zeleznik, A.J., L.L. Ihrig, and S.G. Basset, 1989. Developmental expression of Ca2+/Mg2+-dependent endonuclease activity in rat granulosa and luteal cells. Endocrinol., 125: 2218-2220.

Apoptosis in Postovulatory Follicles of Chalcalburnus tarichi Pallas, 1811.

Year 2006, Volume: 23 Issue: 3, 263 - 267, 01.09.2006

Abstract

İnci kefali Chalcalburnus tarichi, Pallas, 1811 postovulasyon foliküllerinde apoptoz. Bu çalışmada, inci kefali (Chalcalburnus tarichi) postovulasyon foliküllerinde apoptoz, TUNEL boyama ve agaroz jel elektroforez metodları ile araştırıldı ve plazma 17β-estradiol (E2) seviyesi ovulasyondan sonra 1., 3. ve 5. günlerde belirlendi. Postovulasyon foliküllerinde apoptotik hücreler, histolojik kesitlerde, ovulasyondan sonra 1. günde işaretlendi ve apoptozun çoğunlukla granuloza nadiren de teka hücrelerinde meydana geldiği belirlendi. Apoptozun işareti olan oligonükleozomal büyüklükteki DNA parçalanması ovulasyondan sonra 1., 3. ve 5. günlerde gözlendi. Ovulasyon anında oligonükleozomal DNA parçalanması gözlenmezken, 3. ve 5. günlerde bu parçalanmanın belirgin olduğu görüldü. Plazma E2 seviyesi ovulasyondan sonra dereceli olarak düştü. Bu düşüş 3. ve 5. günlerde önemliydi (P

References

  • Billig, H., I. Furuta, and A.J.W. Hsueh, 1993. Estrogens inhibit and androgens enhance ovarian granulosa cell apoptosis. Endocrinol., 133: 2204-2212.
  • Chun, S.-Y. and A.J.W. Hsueh, 1998. Paracrine mechanisms of ovarian follicle apoptosis. J. of Rep. Immunol., 39: 63-67.
  • Drummond, C.D., N. Bazzoli, E. Rizzo and Y. Sato, 2000. Postovulatory follicle: A model for experimental studies of programmed cell death or apoptosis in teleosts. J. Exp. Zool., 287: 176-182.
  • Goodman, S.B., K. Kugu, , S.H. Chen, S. Preutthipan, K.I. Tilly and J.L. Tilly, 1998. Estradiol-mediated suppression of apoptosis in the rabbit corpus luteum is associated with a shift in exspression of bcl-2 family members favoring cellular survival. Biol. Reprod., 59: 820-827.
  • Hsueh, A.J.W., H. Billig and A. Tsafriri, 1994. Ovarian follicle atresia: A hormonally controlled apoptotic process. Endocrinol. Rev. 15: 707-723.
  • Janz, D.M. and G. Van Der Kraak, 1997. Suppression of apoptosis by gonadotropin, 17β-estradiol, and epidermal growth factor in rainbow trout preovulatory ovarian follicles. Gen. Comp. Endocrinol., 105: 186-193.
  • Jennifer, L., J.L. Juengel, , H.A. Garverick, A.L. Johnson, R.S. Younquist, and M.F. Smith, 1993. Apoptosis during luteal regression in cattle. Endocrinol., 132: 249-254.
  • Kagawa, H., K. Takano and Y. Nagahama, 1981. Correlation of plasma estradiol-17β and progesteron levels with ultrastructure and histochemistry of ovarian follicles in the white-spotted char, Salvenius leucomaenis. Cell Tis. Res., 218: 315-329.
  • Kagawa, H., G. Young, and Y. Nagahama, 1983. Relatioship between seasonal plasma estradiol-17β and testosteron levels and in vitro production by ovarian follicles of amago salmon (Oncorhynchus rhodurus). Biol. Reprod., 29: 301-309.
  • Kerr, J.F.R., A.H. Wyllie, and A.R. Currie, 1972. Apoptosis: A basic biological phenomenon with wide-implications in tissue kinetics. Br. J. Cancer, 26: 239-257.
  • Matsuyama, S., K.T. Chang, H. Kanuka, M. Ohnishi, A. Ikeda, M. Nishihara and M. Takahashi, 1996. Occurrence of deoxyribonucleic acid fragmentation during prolactin-induced structural luteolysis in cycling rats. Biol. Reprod., 54: 1245-1251.
  • McCormarck, J.T., M.G. Friederichs, S.D. Limback and G.S. Greenwald, 1998. Apoptosis during spontaneous luteolysis in the cyclic golden hamster: biochemical and morphological evidence. Biol. Reprod., 58: 255-260.
  • Schwartzman, R.A. and J.A. Cidlowski, 1993. Apoptosis: The biochemistry and molecular biology of programmed cell death. Endocrinol., 14: 133- 151.
  • Scott, A.P., D.S. MacKenzie and N.E. Stacey, 1984. Endocrine changes during natural spawning in the white sucker, Catostomus commersani. II. steroid hormones. Gen. Com. Endocrinol., 56: 349-359.
  • Shimizu, A., K. Aida, and I. Hanyu, 1985. Endocrine profiles during the short reproductive cycle of an autumn-spawning bitterling, Acheilognathus rhombea. Gen. Com. Endocrinol., 60: 361-371.
  • Tilly, J.L., K.I. Kowalski, A.L. Johnson, and A.J.W. Hsueh, 1991. Involvement of apoptosis in ovarian follicular atresia and postovulatory regression. Endocrinol., 129: 2799--2801.
  • Tilly, J.L., 1996. Apoptosis and ovarian function. Rev. Reprod., 1: 162-172.
  • Ünal, G., H. Karakişi, M. Elp, 2005. Ovarian Follicle Ultrastructure and Changes in Levels of Ovarian Steroids during Oogenesis in Chalcalburnus tarichi Pallas, 1811. Turk. J. Vet. Anim. Sci., 29: 645-653.
  • Wood, A.W., and G. Van Der Kraak, 2001. Apoptosis and ovarian function: novel perspectives from the teleosts. Biol. Reprod., 64: 264-271.
  • Wood, A.W., and G. Van Der Kraak, 2002. Inhibition of apoptosis in vitellogenic ovarian follicles of rainbow trout (Oncorhynchus mykiss) by salmon gonadotropin, epidermal growth factor, and 17β-estradiol. Mol. Reprod. Dev., 61: 511-518.
  • Wyllie, A.H., 1980. Glucorticoid-induced thymocyte apoptosis is associated with endogenous endonuclease activation. Nature, 284: 555-556.
  • Zeleznik, A.J., L.L. Ihrig, and S.G. Basset, 1989. Developmental expression of Ca2+/Mg2+-dependent endonuclease activity in rat granulosa and luteal cells. Endocrinol., 125: 2218-2220.
There are 22 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Burak Kaptaner

Güler Ünal

Publication Date September 1, 2006
Submission Date December 7, 2015
Published in Issue Year 2006Volume: 23 Issue: 3

Cite

APA Kaptaner, B. ., & Ünal, G. . (2006). Apoptosis in Postovulatory Follicles of Chalcalburnus tarichi Pallas, 1811. Ege Journal of Fisheries and Aquatic Sciences, 23(3), 263-267.