Development Sea urchin Deuterostome Isolecithal Holoblastic cleavage

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Presentation transcript:

Development Sea urchin Deuterostome Isolecithal Holoblastic cleavage Chick Deuterostome Telolecithal Meroblastic cleavage Fertilization cleavage Blastulation & gastrulation Organogenesis & pattern formation Why do cells move in specific ways at specific times? How, why, and when do cells become specialized?

Sea urchin body plan © 1997 Chris Patton, Stanford University

Sea urchin fertilization acrosome Cortical granules Fertilization membrane

© 1997 Chris Patton, Stanford University

Fertilization

Holoblastic--cleaves completely through cell Isolecithal--evenly dispursed yolk.

Sea Urchin Cleavage and blastulation 3 div. 8 cell 1st div. Hatched blastula blastula

Three types of morphogenetic movements during gastrulation.

Gastrulation -2 types of morphogenetic movements. Ingression of ~40 cells to form Primary mesenchyme cells (PMC) Formation of mesoderm.

Gastrulation 2. Invagination of cells at vegetal pole Forms blastopore and archenteron-primitive gut 3 germ layers ectoderm- skin and nervous system. mesoderm- bone, muscle, circ. system, internal organs. endoderm- stomach and guts. archenteron

Together=mesoderm 2nd ingression of cells to form Secondary mesenchyme Primary mesenchyme

2nd invagination at animal pole to form mouth Complete gastrula Germ layers Ecto Meso Endo archenteron

Sea urchin larval development.

Sea urchin larva

Chick Telolecithal-asymmetric 3rd 2nd 1st div. 4th shell Chick Shell membrane albumen Nucleus Cytoplasm Yolk Telolecithal-asymmetric 3rd 2nd 1st div. 4th Meroblastic cleavage-part cleavage

~100,000 cells when egg laid. Epiblast - 3 germ layers ectoderm mesoderm endoderm

Delamination

Ingression- mesoderm

Chick gastrulation. Primitive streak -cells ingress -induced by hypoblast ~blastopore Notochord -induced by Hansen’s node Somites -muscle, bone Embryo lifts off surface- 3 layers- ectoderm mesoderm endoderm Becomes brain Sacs form around embryo

Fresh laid egg-blastodisc 13 hour egg

24 hour chick sections

33 hour chick sections

33 hour whole mount

48 hour 72 hour

Mosaic vs. Regulative Development Mosaic - after each cleavage, cells have specific fates. Regulative - cell communicate and can change their fate. Induction Studies can lead to discovery of hormones, regulatory genes. Defects in the normal processes are the basis of many cancers and developmental birth defects.

Horstadius experiments- Show that there are mosaic and regulative Aspects to sea urchin development. Split egg Separate 8 cells In half

Pattern formation - mesoderm induces ectoderm to make either a leg or wing But ectoderm determines which. AER = apical ectodermal ridge.