Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Morphology and Endocrinology of Interstitial Cells of Bat Ovary Hipposiderous speoris


Affiliations
1 Department of Entomology, College of Agriculture (JNKVV), Balaghat (M.P.), India
     

   Subscribe/Renew Journal


Bats are among the most diverse and successful of all mammals. Taxonomically bats comprise the order Chiroptera, which means ‘hand-winged’. Chiroptera includes two extant clads, Megachiroptera (old world fruit bats) 167 species and Microchiroptera (echolocating bats) 834 species included in 17 families. Bats are unique among mammals as they are the only group to have evolved true powered flight. The bat, Hipposideros speoris (Schneider, 1800) belongs to the suborder Microchiroptera and the family Rhinolophidae. There are over nine hundred extant species of bats (Koopman, 1994).

Keywords

Morphology, Endocrinology, Interstitial Cells, Bat Ovary.
Subscription Login to verify subscription
User
Notifications
Font Size


  • Gil, Esteban, Forneris, Myriam, Domínguez, Susana, Penissi, Alicia, Fogal, Teresa, Piezzi, Ramón S. and Scardapane, Luis (2007). Morphological and endocrine study of the Ovarian Interstitial tissue of viscacha (Lagostomus maximus maximus). J. Reproductive System., 290 (7): 788-794.
  • Guraya, S.S. (1985). Biology of ovarian follicles in mammals. Springer, Berlin, Heidelberg, New York, U.S.A.
  • Guraya, S.S. (1997). Biology of ovarian follicles in buffaloes and cattle. Ind. Council of Agriculture, New Delhi, India.
  • Guraya, S.S. (2000). Comparative cellular and molecular biology of ovary in mammals fundamental and applied aspects, Oxford and IBM Publishing Co., Pvt. Ltd., India, 195-236 pp.
  • Hirshfield, A.N. (1991). Development of follicles in the mammalian ovary. Int. Rev. Cytol., 124 : 45-101.
  • Jabara, S., Christenson, L. K., Wang, C. Y., McAllister, J. M., Javitt, N. B., Dunaif, A. and Strauss, J. F. (2003). Stromal cells of the human postmenopausal ovary display a distinctive biochemical and molecular phenotype. J. Endocrin. & Metabolism., 88 (1) : 484-492.
  • Koopman, K. F. (1994). Chiropteran dystematics. Handbook of zoology, Vol. 8, Mammalia, Part 60. Walter de Gruyter, Berlin.
  • Sastry, M.S. and Pillai, S.B. (2005). Cyclical changes in the epithelial cords of ovary of a microchiropteran bat, Hipposideros speoris (Schneider). J. Cell Animal Biology,7 : 132-137.
  • Sastry, M.S. and Tembhare, D. (2008). Some histochemical observations on the ovarian stromal interstitial cells during anoesterous and oesterus in Indian leaf-nosed bat Hipposiderous speoris (schneider). J. Bioscan, 3(2):139-146.
  • Sastry, M.S. and Tembhare, D. (2009). Histochemical study of ovarian dehydrogenases SDH and G-6-PDH during various phases of reproductive cycle in Indian leaf-nosed bat Hipposiderous speoris (schneider). J. Bioscan, 4 (1) : 45-51.
  • Sastry, M.S., Pillai, S.B. and Tembhare, D. (2010). Histochemical analysis of the thecal interstitial gland in the ovaries of the microchiropteran bat, Hipposideros speoris (Schneider) during the reproductive cycle. J. Endocrinol Reprod, 14 (2) : 65-72.
  • Sastry, M.S. and Pillai, S.B. (2013).Variations in the epithelial cords of ovaries of microchiropteran bat, Hipposideros speoris (Schneider) during reproductive cycle: an enzymatic approach. J. Theor. Exp., 4 (3) : 95-101.
  • Singh, U.P. and Krishna, A. (1994). Seasonal changes in the cytochemical and ultrastructural features of the ovarian interstitial tissue in a vespertilionid bat, Scotophilus heathi. J. Reprod. Biol. Comp. Endo., 6 (1) : 33-46.
  • Singh, U.P. Krishna, A. Smith, T.D. and Bhatnagar, K.P. (2005). Histochemical localization of enzymes and lipids in the ovary of a vespertilionid bat, Scotophilus heathi, during the reproductive cycle. Braz. J. Zool., 65 (1): 179-186.
  • Trivedi, S. and Lall, S.B. (2004). Ovarian dehydrogenases of the non-pregnant, pregnant and lactating Rhinopoma microphyllum kinneari (Chiropteran : Rhinopomatidae). Vespertilio., 8 : 105-112.
  • Trivedi, S. and Lall, S.B. (2007). Histoarchitecture and ?5-β hydroxysteroid dehydrogenase profile in ovaries of the non-pregnant, pregnant and lactating insectivorous rat-tailed bat, Rhinopoma microphyllum kinneari. Ani. Biol., 57 : 97-114.

Abstract Views: 286

PDF Views: 0




  • Morphology and Endocrinology of Interstitial Cells of Bat Ovary Hipposiderous speoris

Abstract Views: 286  |  PDF Views: 0

Authors

Dharna Bisen
Department of Entomology, College of Agriculture (JNKVV), Balaghat (M.P.), India

Abstract


Bats are among the most diverse and successful of all mammals. Taxonomically bats comprise the order Chiroptera, which means ‘hand-winged’. Chiroptera includes two extant clads, Megachiroptera (old world fruit bats) 167 species and Microchiroptera (echolocating bats) 834 species included in 17 families. Bats are unique among mammals as they are the only group to have evolved true powered flight. The bat, Hipposideros speoris (Schneider, 1800) belongs to the suborder Microchiroptera and the family Rhinolophidae. There are over nine hundred extant species of bats (Koopman, 1994).

Keywords


Morphology, Endocrinology, Interstitial Cells, Bat Ovary.

References