chapter 28 Flashcards
(52 cards)
fertilization
the process in sexual reproduction that involves the union of sperm and egg to form a diploid zygote
fertilization time window
an oocyte is viable for 24 hours at most after ovulation
sperm can survive at most 5 days in female reproductive tract
how many days in a single month it is possible for fertilization and pregnancy to occut
2-3 days
of the million sperm that reach the vagina only a fraction reach the uterus
millions lost immediately from vagina : mucus doesn’t automatically thicken
millions more lost by acidic environment of the vagina : 3.5-5 too acidic for sperm
if sperm make it to the uterus
- phagocytes kill off many more
- only a few thousand survivors: reverse peristalsis push sperm to uterine tubes
- sperm have various receptors to ensure they travel in the right direction
sperm capacitation
sperm are incapable of fertilizing the oocyte immediately after entering the vagina
before fertilization can occur sperm must be capacitated
- Motility is enhanced
- Weakening of sperm cell membranes: increase likelihood of fertilization
oocyte is surrounded by 2 protective structures
corona radiata
zona pellucida
corona radiata
outer layer
protects and nourishes the oocyte after is has been ovulated
granulosa cells release chemicals like estrogen: let sperm find egg
zona pellucida
inner layer
protects the secondary oocyte and is necessary for fertilization to occur
sperm entry for fertilization at the zona pellucida
- acrosomal reaction occurs: release of digestive enzymes from the acrosome of the sperm
sperm bind zona pellucida : Ca2+ levels rise in sperm causing acrosome to rupture and release digestive enzymes
enzymes from acrosome digest holes in zona pellucida
1000s of sperm must do this to weaken the zona pellucida
first sperm to reach egg doesnt fertilize egg
after acrosomal reaction
- sperm binds to sperm binding receptors on oocyte: lock sperm and prevent movement
- once bound the 2 membranes fuse together: sperm contents enter the oocyte
polyspermy
the entry of more than one sperm into the oocyte
would result in termination of the oocyte due to incorrect chromosome #
blocking polyspermy
- oocyte membrane blocks: sperm binding receptors are shed from oocyte surface
- sperm unable to bind to oocyte surface and fertilize egg - cortical reaction: oocyte releases Ca2+
- causes zona pellucida to harden
completion of meiosis 2 and fertilization
sperm nucleus travel toward oocyte nucleus
as it travels sperm nucleus swells to form male pronucleus
surge in Ca2+ from cortical reaction causes release of zinc from oocyte
what does zinc cause
Completion of meiosis 2 forms 2nd polar body and ovum
after meiosis 2
female pronucleus forms
larger nucleus means more likely they will meet and exchange chromosomes
two pronuclei membranes rupture and chromosomes are released
pronuclei rupture
Maternal and paternal chromosomes combine to form a diploid zygote
this is fertilization
No pregnancy if chromosomes don’t combine
twins
usually one oocyte is ovulated and fertilized to produce a single zygote and embryo
but the rules are not always followed
gestation is shorter being 32-35 weeks bc mom has no more space
preemie babies
monozygotic twins
identical twins
occurs when a single oocyte is fertilized splits into 2 identical embryos
unknown why/ how zygote splits
twins usually share a placentra
dizygotic twins
occurs when 2 oocytes are ovulated and both are fertilized
twins have their own placenta
not as many developmental issues as monozygotic twins
usually of mixed sex
this increases after age 40
embryonic development
development begins after fertilization
zygote begins to divide mitotically
cleavage: rapid division of zygote
first mitotic division produces 2 identical blastomere cells
by 72 hours a morula is formed: contains abt 16 cells
zygote
diploid cell resulting from the fusion of 2 haploid cells
benefit of cleavage for embryonic development
allows for formation of different structures in the body: multicellular
allows for fixing of small mistakes
