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2019 | 75 | 07 |

Tytuł artykułu

Dojrzewanie płciowe klaczy i perspektywy skracania okresu międzypokoleniowego u koni

Warianty tytułu

EN
Sexual maturity of mares and prospects for shortening the intergenerational period in horses

Języki publikacji

PL

Abstrakty

EN
The aim of the study is to present current knowledge on the mechanisms regulating puberty in mares and the possibility of shortening the intergenerational period in horses through modern animal reproduction biotechnology. The study discusses fetal sex recognition in horses by means of ultrasound, pre- and postnatal development of mare gonads, oogenesis and folliculogenesis, as well as the process of selection and elimination of oocytes. It also describes the role of gonadotropins, ovarian hormonal activity and morphological changes occurring during sexual maturation. It has been shown that about 37% of mares attain sexual maturity in the first year of life. It has also been documented that one-year and two-year-old fillies produce normal embryos that can be used for transplantation and give offspring. It has also been proved that embryos can be produced in vitro from oocytes of juvenile mares. There is hope that acquiring preantral follicles from the ovary and their in vitro culture until the oocyte reaches full maturity for fertilization will permit us to obtain embryos and offspring from mares, including those sexually immature. These methods, combined with in vitro fertilization and embryo transfer techniques, have already made it possible to obtain normal embryos and even live-born offspring in other mammals.

Wydawca

-

Rocznik

Tom

75

Numer

07

Opis fizyczny

s.398-403,bibliogr.

Twórcy

autor
  • Instytut Nauk Weterynaryjnych, Wydział Hodowli i Biologii Zwierząt, Uniwersytet Rolniczy w Krakowie, al.Mickiewicza 24/28, 30-159 Kraków
autor
  • Uniwersyteckie Centrum Medycyny Weterynaryjnej UJ-UR, Uniwersytet Rolniczy w Krakowie, Al.Mickiewicza 24/28, 30-059 Kraków

Bibliografia

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  • Armstron D. T., Kotaras P. J., Earl C. R.: Advances in production of embryos in vitro from juvenile and prepubertal oocytes from the calf and lamb. Reprod. Fertil. Dev. 1997, 9, 333-339.
  • Arunakumari G., Shanmugasundaram N., Rao V. H.: Development of morulae from the oocytes of cultured sheep preantral follicles. Theriogenology 2010, 74, 884-894.
  • Brown-Douglas C. G., Firth E. C., Parkinson T. J., Fennessy P. F.: Onset of puberty in pasture-raised Thoroughbreds born in southern hemisphere spring and autumn. EquineVet. J. 2004, 36, 499-504.
  • Choi Y. H., Ritthaler J., Hinrichs K.: Production of a mitochondrial-DNA identical cloned foal using oocytes recovered from immature follicles of selected mares. Theriogenology 2014, 82, 411-417.
  • Dhakal P., Hirama A., Nambo Y., Harada T., Sato F., Nagaoka K., Watanabe G., Taya K.: Circulating pituitary and gonadal hormones in spring-born Thoroughbred fillies and colts from birth to puberty. J. Reprod. Dev. 2012, 58, 522-530.
  • Driancourt M. A., Paris A., Roux C., Mariana J. C., Palmer E.: Ovarian follicular populations in pony and saddle-type mares. Reprod. Nutr. Dev. 1982, 22, 1035-1042.
  • Eppig J. J., Schoeder A. C.: Capacity of mouse oocyte from preantral follicles to undergo embryogenesis and development to live young after growth, maturation and fertilization in vitro. Biol. Reprod. 1989, 41, 268-276.
  • Galli C., Duchi R., Colleoni S., Lagutina I., Lazzari G.: Ovum pick up, intracytoplasmic sperm injection and somatic cell nuclear transfer in cattle, buffalo and horses: from the research laboratory to clinical practice. Theriogenology 2014, 81, 138-151.
  • Gastal E. L., Gastal M. O., Bergfelt D. R., Ginther O. J.: Role of diameter differences among follicles in selection of a future dominant follicle in mares. Biol. Reprod. 1997, 57, 1320-1327.
  • Ginther O. J.: Reproductive Biology of the Mare. Basic and applied aspects. Equiservice, Wisconsin, USA 1992.
  • Hinrichs K.: Assisted reproduction techniques in the horses. Reprod. Fert. Dev. 2012, 25, 80-93.
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  • Kotoyori Y., Yokoo N., Ito K., Murase H., Sato F., Korosue K., Nambo Y.: Three-dimensional ultrasound imaging of the equine fetus. Theriogenology 2012, 77, 1480-1486.
  • Livini M.: Determination of fetal gender by transrectal ultrasound examination: Field’s Experience. AAEP Proceedings 2010, 56, 323-327.
  • Magalhães D. M., Duarte A. B. G., Araújo V. R., Brito I. R., Soares T. G., Lima I. M., Lopes C. A., Campello C. C,. Rodrigues A. P., Figueiredo J. R.: In vitro production of a caprine embryo from a preantral follicle cultured in media supplemented with growth hormone. Theriogenology 2011, 75, 182-188.
  • Mitchell D., Allen W. R.: Observation on reproductive performance in the yearling mare. J. Reprod. Fertil. Suppl. 1975, 23, 531-136.
  • Młodawska W.: Struktura i aktywność jajników oraz kompetencja mejotyczna oocytów w okresie dojrzewania płciowego klaczy. Rozprawa hab. Zeszyt 379. Wyd. UR w Krakowie. 2013, 502, 1-109.
  • Młodawska W., Grzesiak M., Kochan J., Nowak A.: Intrafollicular level of steroid hormones and the expression of androgen receptor in the equine ovary at puberty. Theriogenology 2018, 121, 13-20.
  • Młodawska W., Okólski A.: Morphological characterization and meiotic competence of oocytes collected from filly ovaries. Theriogenology 2009, 71, 1046-1053.
  • Młodawska W., Słomczyńska M.: Immunohistochemical localization of aromatase during the development and atresia of and atresia of ovarian follicles in prepubertal horses. Theriogenology 2010, 74, 1707-1712.
  • Nakai R., Weng Q., Tanaka Y., Tsunoda N., Taniyama H., Haramaki S., Nambo Y., Watanabe G., Taya K.: Change in circulating follicle-stimulating hormone, luteinizing hormone, immunoreactive inhibin, progesterone, testosterone and estradiol-17β in fillies from birth to 6 months of age. J. Equine Sci. 2007, 18, 85-91.
  • Panzani D., Rota A., Pacini M., Vannozzi I., Camillo F.: One year old fillies can be successfully used as embryo donors. Theriogenology 2007, 67, 367-371.
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  • Sanchez R., Herrera C., Blanco M., Rosati I., Lazzari G., Colleoni S., Sieme H., Galli C.: In vitro production of equine embryos by ovum pick up and intracytoplasmic sperm injection in young mares. J. Equine Sci. 2016, 41, 77.
  • Szlachta M., Tischner M.: Isolation and short-term culture of preantral follicles from mare ovaries. Proc. 14th Int. Con. Animal Reprod., Stockholm, Sweden 2000, 2, 224.
  • Szlachta M., Tischner M.: Morfologia i rozmieszczenie pęcherzyków przedjamistych w jajnikach klaczy. Med. Weter. 1998, 54, 679-682.
  • Tanaka Y., Taniyama H., Tsunoda N., Herath C. B., Nakai R., Shinbo H., Nagamine N., Nambo Y., Nagata S., Watanabe G., Groome N. P., Taya K.: Localization and secretion of inhibins in equine fetal ovary. Biol. Reprod. 2003, 68, 328-335.
  • Tingen C. M., Bristol-Gould S. K., Kiesewetter S. E., Wellington J. T., Shea L., Woodruff T. K.: Prepubertal primordial follicle loss in mice is not due to classical apoptotic pathways. Biol. Reprod. 2009, 81, 16-25.
  • Walt M. L., Stabenfeldt G. H., Hughes J. P., Neely D. P., Bradbury R.: Development of the equine ovary and ovulation fossa. J. Reprod. Fert. 1997, Suppl. 27, 471-477.
  • Wang X., Catt S., Pangestu M., Temple-Smith P.: Successful in vitro culture of pre-antral follicles derived from vitrified murine ovarian tissue: oocyte maturation, fertilization, and live births. Reproduction 2011, 141, 183-191.
  • Wilhelm D., Palmer S., Koopman P.: Sex determination and gonadal development in mammals. Physiol. Rev. 2007, 87, 1-28.
  • Wu J., Carrell D. T., Wilcox A. L.: Development of in vitro – matured oocytes from porcine preantral follicles following intracytoplasmic sperm injection. Biol. Reprod. 2001, 65, 1579-1585.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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