Early Vertebrate Development
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Early Vertebrate Development • Early Development of Mammals • Early Development of Birds…if we have time.
description
Early Vertebrate Development. Early Development of Mammals Early Development of Birds…if we have time. Long and Winding Road…. Both Egg and Sperm have to overcome physical barriers. Ampulla - site of fertilization. Cleavage in Mammals. Rotational cleavage 1 st Meriodionally - PowerPoint PPT Presentation
Transcript of Early Vertebrate Development
Early Vertebrate Development• Early Development of Mammals• Early Development of Birds…if we have time.
Long and Winding Road…• Both Egg and Sperm have to
overcome physical barriers.• Ampulla- site of fertilization.
Cleavage in Mammals• Rotational cleavage– 1st Meriodionally– 2nd one divides
meriodionally, one divides equatorially
• Asynchrony• No real Mid-Blastula
Transition.
Compaction• Division of early embryo up to 8 cell stage is loosely arranged.• At 8 cell stage, cells form tight interactions and divide into 16
cell morula.• Internal Cells= Internal Cell mass (ICM)• Most external cells become trophoblast.
Early Cells in Mammalian Embryo• Totipotent• Pluripotent
Cavitation.• Trophoblast cells secrete fluid into Morula: blastocoel• Trophoblast Na+ pumps are activated by oviduct cells.
Hatching of Mammalian Blastula• Zona pellucida prevents embryo from attaching to oviduct
wall. • Trypsin like protease: releases embryo from ZP.
Mammalian Gastrulation• Mother provides
nutrients• The reliance of embryo
on Mother has resulted in fetal organs– Chorion– Hypoblast/epiblast– Germ disc– Amniotic cavity
Mammalian Gastrulation: Primative Groove
Extraembryonic Membranes• Trophoblast cells make up cytotrophoblast and
syncytiotrophoblast.• Trophoblasts and Uterine tissue: Placenta
Axis specification in Mammals• Two signaling centers
– Node– Anterior Visceral Endoderm(AVE)
• Work together to form anterior region.
• Notochord: dorsal infolding of small ciliated cells
• AVE: visceral endoderm migrates forward.
• Antagonists of Nodal– Lefty-1; Cerberus– Nodal activates expression of
posterior genes; Lefty-1 and Cerberus blocks this activity
Axis Specification: Anterior-Posterior positioning• FGF and Retinoic acid gradients.• Ultimately leads to differential expression of Hox genes
Anterior-Posterior Axis: Hox Code
Retinoic Acid and Hox Gene Expression
Dorsal-Ventral and Left-Right Axes• DV axis formation: Poorly characterized.• Left-right axis formation: Nodal and Pitx2
Early Development of Birds: Cleavage
Gastrulation: Birds• The Hypoblast• The primative streak
The Primitive Streak
Primitive Streak: Molecular mechanisms of migration
Regression of Primitive streak
Axis specification in Birds• Gravity and PMZ
Left Right Axis
