Difference between revisions of "Blastocyst Embryonic Development - Anatomy & Physiology"
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− | {{ | + | {{toplink |
− | == | + | |backcolour =EED2EE |
+ | |linkpage =Reproductive System - Anatomy & Physiology | ||
+ | |linktext =Reproductive System | ||
+ | |maplink = Reproductive System (Content Map) - Anatomy & Physiology | ||
+ | |pagetype =Anatomy | ||
+ | |sublink1=Reproductive System - Anatomy & Physiology#Fertilisation.2C Implantation and Early Embryonic Development | ||
+ | |subtext1=FERTILISATION , IMPLANTATION AND EARLY EMBRYONIC DEVELOPMENT''' | ||
+ | }} | ||
+ | <br> | ||
+ | {{toplink | ||
+ | |backcolour = | ||
+ | |linkpage =Developmental Biology - Anatomy & Physiology | ||
+ | |linktext =Developmental Biology | ||
+ | |maplink = Developmental Biology (Concept Map)- Anatomy & Physiology | ||
+ | |pagetype =Anatomy | ||
+ | }} | ||
− | [[Image:Blastocyst. | + | == Pre-Implantation Development == |
+ | [[Image:Blastocyst.gif|thumb|right|300px|Blastocyst - Courtesy of Wikimedia Commons]] | ||
+ | * The sperm enters the the oocyte forming the ootid. | ||
+ | * In the ootid, male and female '''pronuclei''' along with the first and second '''polar bodies''' are present. | ||
+ | * Fusion of the male and female pronuclei results in a single '''diploid nucleus''' ('''syngamy''') | ||
+ | * The '''zona pellucida''' then becomes an imprenetrable layer that prevents polyspermy and so polyploidy. | ||
+ | * '''Zygote''' (diploid) undergoes mitotic divisions ('''cleavage'''). | ||
+ | * Cleavage gives rise to daughter cells called '''blastomeres'''. | ||
− | |||
+ | * Cleavage divisions continue and the 4-celled embryo gives rise to an 8-celled embryo. | ||
+ | * These cells are totipotent and divide asynchronously. | ||
+ | * After the 8-celled stage, a ball of cells is formed. This stage is referred to as a '''morula'''. | ||
+ | * '''Tight junctions''' form between outer cells of the morula. | ||
+ | * '''Gap junctions''' form between inner cells of the morula. | ||
+ | * Thus, two groups of cells are created within the morula. | ||
+ | * Outer cells pump sodium into the intracellular spaces and water follows osmotically. | ||
+ | * Fluid begins to accumulate within the morula. | ||
− | + | ||
− | + | * Cells of the morula continue to divide and a '''blastocyst''' develops, consisting of: | |
+ | ** '''Inner cell mass''' (ICM) | ||
+ | ** '''Blastocoele''' cavity | ||
+ | ** Single layer of '''trophoblast''' cells | ||
+ | * As fluid accumulates, the outer cells become flattened and a cavity known as the blastocoele is formed. | ||
+ | * Gap junctions connecting the inner cells of the morula enable them to polarise as a group. | ||
+ | * As a result, two separate cellular components emerge - the inner cell mass and the trophoblasts. | ||
+ | |||
+ | |||
+ | * Blastocyst continues mitosis. | ||
+ | * Fluid accumulates to fill the blastocoele and pressure within the embryo increases. | ||
+ | * Concurrent with growth and fluid accumulation is the production of '''proteolytic enzymes''' by '''trophoblastic''' cells. | ||
+ | * Enzymes weaken the '''zona pellucida'''. | ||
+ | * Blastocyst begins to contract and relax causing intermittent pressure pulses on the zona pellucida. | ||
+ | * Zona pellucida ruptures with the development of a small fissure just large enough for the blastocyst to squeeze out. | ||
+ | * Blastocyst ''''hatches'''' from the zona pellucida. | ||
+ | ** '''Rodent, Dog, Cat, Primate''': 8 days after fertilization | ||
+ | ** '''Ungulates''': 12 days after fertilization. | ||
+ | * Blastocyst free-floating within the uterus, totally dependent on the uterine environment for survival. | ||
+ | |||
+ | |||
+ | |||
+ | [[Category:Reproductive System]] |
Revision as of 15:07, 22 August 2010
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Pre-Implantation Development
- The sperm enters the the oocyte forming the ootid.
- In the ootid, male and female pronuclei along with the first and second polar bodies are present.
- Fusion of the male and female pronuclei results in a single diploid nucleus (syngamy)
- The zona pellucida then becomes an imprenetrable layer that prevents polyspermy and so polyploidy.
- Zygote (diploid) undergoes mitotic divisions (cleavage).
- Cleavage gives rise to daughter cells called blastomeres.
- Cleavage divisions continue and the 4-celled embryo gives rise to an 8-celled embryo.
- These cells are totipotent and divide asynchronously.
- After the 8-celled stage, a ball of cells is formed. This stage is referred to as a morula.
- Tight junctions form between outer cells of the morula.
- Gap junctions form between inner cells of the morula.
- Thus, two groups of cells are created within the morula.
- Outer cells pump sodium into the intracellular spaces and water follows osmotically.
- Fluid begins to accumulate within the morula.
- Cells of the morula continue to divide and a blastocyst develops, consisting of:
- Inner cell mass (ICM)
- Blastocoele cavity
- Single layer of trophoblast cells
- As fluid accumulates, the outer cells become flattened and a cavity known as the blastocoele is formed.
- Gap junctions connecting the inner cells of the morula enable them to polarise as a group.
- As a result, two separate cellular components emerge - the inner cell mass and the trophoblasts.
- Blastocyst continues mitosis.
- Fluid accumulates to fill the blastocoele and pressure within the embryo increases.
- Concurrent with growth and fluid accumulation is the production of proteolytic enzymes by trophoblastic cells.
- Enzymes weaken the zona pellucida.
- Blastocyst begins to contract and relax causing intermittent pressure pulses on the zona pellucida.
- Zona pellucida ruptures with the development of a small fissure just large enough for the blastocyst to squeeze out.
- Blastocyst 'hatches' from the zona pellucida.
- Rodent, Dog, Cat, Primate: 8 days after fertilization
- Ungulates: 12 days after fertilization.
- Blastocyst free-floating within the uterus, totally dependent on the uterine environment for survival.