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Transportation of Ovum & Sperm and Fertilization
Dr. Surriyya Sarwat
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Learning Objectives At the end of the lecture, the students should be able to – Discuss the transport of ovum. – List the factors affecting the transport of ovum – Define fertilization – State normal site of fertilization – Describe the results of fertilization – Mentions the factors affecting fertilization – Enumerate the changes that occur in spermatozoa before fertilization – Explain the factors affecting penetration of sperm through the zona pellucida for formation of Pro nuclei
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Maturation of Ovum
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Release of ovum from ovary
Ovulation—fimbriated end of uterine tubeclosely applied to the ovary. Sweeping action—current produces by the cilia of fimbria—sweep the secondary oocyteinfundibulm of uterine tube. Formation of Corpus Luteum—on the surface of ovary
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Transportation of Sperm
Storage site—epididymisductus defferen—urethra. millions sperm deposited on the external os of uterus—in the vaginal fornix. Passes slowly –cervical canal by the tail movement( vesiculase—vaginal plug) Sperms move 2-3mm/minute. 45min to complete the journey. Only 200 sperm –reach the fertilization site.
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Ovum travels with in the fallopian tube with the cillia of tall columnar epithelium of mucosa and reaches the next dilated part of tube, Ampulla, where the ovum stays for 24 to 48 hours and the part where fertilization takes place
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Capacitation: readying the sperm
Sperms cannot fertilize oocytes when they are newly ejaculated. The process of capacitation takes 5-7 hours. Capacitation: the glycoprotein coat and seminal proteins are removed from the surface of the sperm acrosome—membrane components altered. Capacitated sperms no morphological changes—are more active. Location: capacitation occurs in the uterus and oviducts and is facilitated by substances of the female genital tract. The acrosomal reaction cannot occur until capacitation has occurred.
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Stage 1 of fertilization:
The acrosome reaction must be completed before the sperm can fuse with the secondary oocyte Occurs when sperms come into contact with the corona radiata of the oocyte Perforations develop in the acrosome Point fusions of the sperm plasma membrane and the external acrosomal membrane occur The acrosome reaction is associated with the release of acrosome enzymes that facilitate fertilization Passage of sperm through the corona radiata depends on enzyme action: hyaluronidase released from sperm acrosome Tubal mucosal enzymes Flagella action also aids corona radiata penetration
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Ovum and sperms: (In vitro)
From this photograph, it should be clear that the heads of human sperm are less than 1/20 the diameter of human eggs. Arrows point to sperm heads The surfaces of unfertilized eggs are usually smooth in appearance. The mottled look of this egg is not normally seen, but apparently all the ova from this woman had this appearance.
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Stage 2 of fertilization:
Penetration of the zona pellucida around the oocyte: Acrosomal enzymes: esterases, acrosin, and neuraminidase cause lysis of the zona pellucida Once sperm penetrates zona pellucida, the zona reaction occurs: This reaction makes the zona pellucida impermeable to other sperms. When more than one sperm manages to enter the ovum (dispermy = 2; triploidy = 3), the fetus nearly always aborts.
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Stages 3 & 4 of fertilization:
Fusion of plasma membranes of oocyte and sperm Head and tail of a sperm enter the cytoplasm of the oocyte, but the sperm plasma membrane remains behind. 2nd meiotic division of oocyte is completed The secondary oocyte was previously arrested in metaphase of the 2nd meiotic division, and now forms the mature ovum and another polar body.
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Stage 5 of fertilization:
Formation of male and female pronuclei: Chromosomal material of the sperm decondensates and enlarges Chromosomal material of the ovum decondensates following the completion of meiosis At this stage, the male and female pronuclei are indistinguishable. As they grow, the pronuclei replicate their DNA still 1N (haploid)- 23 chromosomes, each in chromatid pairs
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Fusion of the pronuclei:
(in vitro) The male and female pronuclei are indistinguishable from one another. The second polar body can be seen (arrow). The plasma membranes of the two pronuclei are dissolving and one diploid nucleus will remain.
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Stage 6 of fertilization:
Membranes of the pronuclei break down, chromosomes condense and arrange themselves for mitotic cell division On membrane dissolution, there is 1 cell with 46 chromosomes = diploid (2N) The first cleavage follows shortly, leaving 2 cells, each with 46 chromosomes. Mitosis in the new zygote uses centrioles derived from the sperm. The oocyte has no centrioles.
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Fertilization facts: Completed within 24 hours of ovulation
Approximately 400 to 600 MILLION sperms are deposited at cervical opening during ejaculation. Some sperm are held up by the folds of the cervix and are gradually released into the cervical canal; this gradual release increases the chances of fertilization. Most human sperms do not survive longer than 48 hours in the female genital tract. Only about 200 sperms reach the fertilization site; most degenerate and are absorbed by the female genital tract. The number of sperms deposited per ejaculation varies from source to source so does the number that reach the site of fertilization; Timiras’ book says 100 million ejaculated and 1000 reach site. The vagina is an inhospitable environment for sperm.
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The results of fertilization:
Stimulates the secondary oocyte to complete meiosis. Restores the normal diploid number of chromosomes (46). Results in variation of human species as maternal and paternal chromosomes intermingle. The embryo contains only maternal mitochondria because the sperm mitochondria are dispersed into the egg cytoplasm and discarded. Determines the sex of the embryo. The sex chromosome (Y or X) carried by the successful sperm determines embryonic sex.
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Summary of Fertilization
Fertilization is a sequence of coordinated events: • Passage of a sperm through the corona radiata. • Penetration of the zona pellucida. • Fusion of plasma membranes of the oocyte and sperm. • Completion of the second meiotic division & formation of female pronucleus • Formation of the male pronucleus. • Ootid Becomes a zygote.
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Twins: still 1 sperm per egg
Monozygotic (monoovular): A fertilized, single egg splits into two developing zygotes at a very early stage. Identical twins; same sex. Dizygotic (polyovular): Result from the fertilization by two sperm of two separate ova that have reached maturation at the same time. Not identical twins; can be different sexes Incidence increases with age of the mother
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How can fertilization go awry?
Too many sperm = dispermy or triploidy Leads to spontaneous abortion in most cases. Infertility Bad timing: The sperm can only survive 48 hours within the female genital tract. In vitro studies show the ovulated egg cannot be fertilized after 24 hours. Ectopic pregnancy: If fertilization occurs outside the oviduct, the next step of embryonic development, implantation, may occur in the wrong location as well If the oviducts are scarred due to an STD or other pathology, a fertilized ovum may implant in the fallopian tube
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Triploidy (in vitro) There are 3 pronuclei within this one zygote. In the laboratory, such embryos are discarded. In vivo, such embryos almost always abort spontaneously.
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A little more on sex determination:
Not so clear-cut as X and Y: The presence of other genes, located on the X, Y and other chromosomes, influence the determination of embryonic sex. The SRY gene: Normally present on the Y chromosome Induces the sexless embryonic gonad to develop into a testis Can sometimes be present on the X chromosome, leading a genetic female (XX) to develop testis fertilized -- embryo with the XX configuration was injected with SRY and developed as a male both anatomically and behaviorally.
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References The Developing Human Clinical Oriented Embryology. Keith L. Moore.
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