Fertilisation And Implantation PDF Year 11 Human Biology

Summary

These notes cover fertilization and implantation in humans. The notes discuss the process of fertilization, sperm travel, enzyme action, and the formation of the zygote. They also cover the process of implantation, including the development of the blastocyst and inner cell mass. Finally, they describe the development of embryonic membranes and describe the structure of the primary germ layers.

Full Transcript

FERTILISATIO
N AND
IMPLANTATIO
N
Year 11 Human Biology
 Upon ejaculation, sperm are
released into the vagina at the
cervix (entrance to the uterus).
 Known as insemination.
Sperm travel through the cervix
FERTILIS and body of the uterus and into
the fallopian tubes.
ATION  Inside fallopian tubes within minutes
– propelled by muscular contractions
of uterus and fallopian tubes.
Fertilisation usually occurs when
the ovum is 1/3 of the way down
the fallopian tube.
 Secondary oocyte (released at
ovulation) is surrounded by 2 layers;
 Corona radiata – outer layer of follicle cells
held together by an acid.
 Zona pellucida – inner layer of
glycoprotein surrounding oocyte’s plasma
membrane.

FERTILIS Enzyme contained in sperm acrosome
breaks down the acid holding the
ATION corona radiata together.
 Several thousand sperm required to loosen
the cells and allow the entry of one sperm.
Sperm then encounter zona pellucida
- release digestive enzymes to
breakdown the glycoprotein matrix.
 Single sperm cell able to enter the ovum -
initiates formation of a fertilisation
membrane.
 Plasma membrane of
sperm and ovum fuse
and nucleus of sperm
(male pronucleus)
moves through
cytoplasm.
Sperm entry
stimulates secondary
oocyte to finish the
second meiotic
division and nucleus
becomes the female
pronucleus.
 Male and female
pronuclei fuse to form a
single nucleus with
FERTILISATION diploid chromosome
number.
 Now known as a
zygote.
FERTILISATION
 After fertilisation, the zygote travels down
the fallopian tube and begins to divide by
mitosis.
Cleavage – rapid cell division that results in a
multicellular embryo.
 Morula formed during cleavage phase (day 3-4)

IMPLANT
By 6 days after fertilisation, a blastocyst has
formed that has now reached the uterus.

ATION
 Blastocyst – hollow ball of cells surrounding a
cavity filled with fluid.

Inner cell mass – Structure of about 30
pluripotent stem cells on one side of the
cavity in the blastocyst.
Blastocyst - free in the uterus for 2-3 days
before sinking into endometrium and
becoming firmly attached to the wall of the
uterus (implantation).
IMPLANTATION
 During implantation, the
inner cell mass undergoes
changes to form 3 layers of
cells (primary germ
layers).
Primary germ layers will
differentiate into all the
tissues that make up the
body.
 Ectoderm – Outer layer.
Gives rise to the skin and
the brain and nervous
system.
 Mesoderm – Middle layer.
Gives rise to skeletal and
muscle tissues, and heart
and circulatory system.
PRIMARY GERM  Endoderm – Inner layer.
Gives rise to inner lining of
LAYERS many organs and the
digestive system.
PRIMARY GERM
LAYERS
 Early in embryonic development, 4
embryonic membranes develop.
 Lie outside the embryo and protect and
nourish it during development.
Amnion – First to develop. Surrounds
EMBRYO the embryo by 8th day after fertilisation.
 Produces amniotic fluid – shock absorber,
NIC maintains constant temperature and

MEMBRA
allows movement of embryo/foetus.
Chorion – Formed from outer cells from
NES the blastocyst and a layer of cells from
the mesoderm.
 Surrounds the embryo and other membranes
and becomes the foetal part of the placenta.
Two other membranes, not as important,
become part of the umbilical cord.
EMBRYONI
C
MEMBRAN
ES