Exam 1 REVIEW!!!!

Fertilization & First Week

Implantation & Uteroplacental Circulation

Gastrulation & Germ Layers

Neurulation & Folding

Body Cavities & Organ Development

100

The sperm must undergo this biochemical process to become capable of fertilization.

Capacitation

100

The two trophoblast layers formed during implantation

Cytotrophoblast & Syncytiotrophoblast

100

The structure that forms at the primitive node and extends cranially to help induce the neural tube.

Notochord

100

The term for the transition in which neural plate cells become mesenchymal and migrate inward.

Epithelial-to-mesenchymal transition (EMT)

100

The mesodermal structure that contributes to the diaphragm and separates the thoracic and abdominal cavities.

Septum transversum

200

The embryonic structure that forms after the morula and contains a blastocoele.

Blastocyst

200

The hormone secreted by the syncytiotrophoblast to maintain the corpus luteum.

hCG (human chorionic gonadotropin)

200

The germ layer that gives rise to bones, blood, and connective tissue.

Mesoderm

200

The failure of this neuropore to close results in a condition where the brain and skull do not form properly.

Cranial neuropore (leading to anencephaly)

200

The intraembryonic coelom divides into three cavities: name them.

Pericardial, pleural, and peritoneal cavities

300

The population of cells in the blastocyst that will become the embryo.

Inner cell mass (embryoblast)

300

The maternal blood-filled spaces that form within the syncytiotrophoblast during early implantation.

Lacunae

300

The two membranes that define the cranial and caudal ends of the developing gut tube.

Oropharyngeal membrane & Cloacal membrane

300

The embryonic cavity that expands and eventually surrounds the entire fetus.

Amniotic Cavity

300

The structure formed by lateral plate mesoderm that suspends intraperitoneal organs.

Dorsal Mesentery

400

The specific location within the female reproductive tract where fertilization most commonly occurs.

Ampulla

400

The structure that initially separates maternal and fetal blood.

Syncytiotrophoblast

400

The mesodermal structure that will eventually give rise to the vertebrae.

Somites/Sclerotomes

400

This mesodermal structure contributes to the development of the meninges, vertebrae, and skeletal muscles.

Paraxial mesoderm (somites)

400

The mesodermal structure that forms the urogenital system.

Intermediate Mesoderm

500

The last day of totipotency in week one.

Day 4 when the morula becomes a blastocyst

500

The uterine layer where implantation occurs.

Endometrium

500

The region of the primitive streak where epiblast cells ingress to form the notochord.

Primitive Node

500

Name three derivatives of neural crest cells.

Sensory and autonomic ganglia (DRG), Schwann cells, Craniofacial cartilage and bone, Melanocytes

500

The embryonic origin of the adult gastrointestinal tract.

Endoderm