Gastrulation PLS FINISH

Question 1

What is gastrulation?

Answer 1

The formation of a gastrula - word comes from gaster (meaning to have a stomach)

Question 2

What is the purpose of gastrulation?

Answer 2

Generate the basic body plan which serves as the blueprint for the subsequent development of the embryo. It specifies the anterior and posterior of the embryo and generates the three germ layers.

Question 3

What are the three germ layers?

Answer 3

The ectoderm, mesoderm and the endoderm.

Question 4

What are the two bilayers before gastrulation?

Answer 4

The intracellular matrix and the trophectoderm. This is the blastocyst stage. (ectoderm and endoderm)

Question 5

What does gastrulation involve?

Answer 5

Cell migration and movement, changes in cell-cell interactions in cell adhesion.

Question 6

What are the cell movements associated with gastrulation?

Answer 6

Epiboly, intercalation, convergent extension, delamination and ingression, involution.

Question 7

What is epiboly?

Answer 7

The cells flatten along their apico basal axis.

Question 8

What is intercalation?

Answer 8

When a double cell layer becomes a single layer as cells make new contacts with each other. (the two layers “flatten” into each other)

Question 9

What is convergent extension?

Answer 9

When a multilayered sheet of cells become narrower as cells make new contacts - similar process to intercalation.

Question 10

What is delamination and ingression?

Answer 10

Individual epithelial cells change shape and lose contact with their neighbours. The cells become bottle shaped. In delamination a curve can be formed in the cells with the “curved” cells being bottle shaped.

Question 11

What is involution?

Answer 11

The epithelium turns around on itself and spreads in the direction opposite to its basal margin.

Question 12

Where is gastrulation initiated in amphibians?

Answer 12

Along the future dorsal side of the embryo just below the equator - this is the marginal zone.

Question 13

What is the first stage in gastrulation?

Answer 13

A group of cells migrate to form the presumptive epidermis.

Question 14

Where the sperm enters the egg cell, what will this form?

Answer 14

This will form the ventral side and the opposite side will be the dorsal side.

Question 15

What is the second stage in gasrtrulation?

Answer 15

Cells invaginate to form a slit like opening called the blastopore.

Question 16

When does differentiation between animal and vegetal pole occur?

Answer 16

Before fertilisation.

Question 17

What are the differences between the animal and vegetal pole?

Answer 17

Animal pole is highly pigmented and has rapidly dividing cells, vegetal pole is yolky.

Question 18

What is the blastocoel cavity displaced with?

Answer 18

Ectoderm and endoderm - mesoderm.

Question 19

Where is the dorsal lip blastopore formed?

Answer 19

The opposite side to sperm entry.

Question 20

What experiments did Spemann and Mangold do?

Answer 20

They took cells from the dorsal blastopore lip from a donor and transferred to a donor blastopore lip. It was found that the embryo where the embryo took place gave rise to an embryo with two axes.

Question 21

What happens to b-catenin throughout gastrulation?

Answer 21

It is degraded by GSK3 mediated phosphorylation in the ventral cells.

Question 22

How is phosphorylation of b-catenin prevented in the dorsal region?

Answer 22

Inactivation of GSK3 by dishevelled (Dsh).

Question 23

How does Dsh get to the dorsal region?

Answer 23

It is transported from the ventral region by cortical rotation. This protects the b-catenin from degradation.

Question 24

What are the events leading up to the induction of the organizer?

Answer 24

There is stabilisation of beta-catenin on the dorsal side which then translocates to the nucleus and associates with Tcf3. This leads to the activation of transcription of Siamois, which together with Xlim1 (activated by Vg1 and Nodal) is critical for the expression of organizer specific genes such as goosecoid.

Question 25

What were experiments that showed the vegetal cells initiate gastrulation?

Answer 25

Ventral cell transplanted into irradiated amphibian embryo. If allowed to develop this occurred normally. If it wasn’t transported, only a ventral piece formed. If a ventral cell was transported to a normal recipient, two axes were formed.

Question 26

What cells are capable of inducing the organizer?

Answer 26

Dorsal most vegetal cells of the blastula.

Question 27

What is the Nieuwkoop center?

Answer 27

It specifies the organizer.

Question 28

What is the candidate molecule responsible for the formation of the Nieuwkoop centre?

Answer 28

Beta-catenin - a multifunctional protein.

Question 29

What is beta-catenin?

Answer 29

It is a multi functional protein. It behaves as an anchor for cell membrane cadherins and can also behave as a transcription factor. It is a compontent of the Wnt/wingless signalling pathway.

Question 30

What is the primitive streak?

Answer 30

A morphologically distinct structure that marks the posterior end of the embryo.

Question 31

How is the dorsal side determined?

Answer 31

Where the cells migrate inwards.

Question 32

What is the ICM/epiblast?

Answer 32

One of the three cell lineages of the late blastocyst.

Question 33

What is the parietal endoderm?

Answer 33

The primitive endoderm-derived cell population that forms by EMT, migrates and finally lies next to the mural trophectoderm.

Question 34

What is EMT?

Answer 34

Epithelial-mesenchymal transition where epithelial cells lose their polarity and cell-cell adhesion.

Question 35

What is embryonic visceral endoderm?

Answer 35

A subset of visceral endoderm cells overlying the epiblast, contributing to the endoderm layer of the visceral yolk sac as well as part of the embryonic gut.

Question 36

What is the distal visceral endoderm?

Answer 36

A molecularly and morphologically distinct population of visceral endoderm located at the distal tip of the embryos, containing the precursor of some of the anterior visceral endoderm.

Question 37

What is cavitation?

Answer 37

When cells on the inside lack connection to the endoderm.

Question 38

How does apoptosis take place?

Answer 38

Signalling to the AMP pathway.

Question 39

How does cavitation of the epiblast occur?

Answer 39

An interplay of signals - one promoting cell death and one promoting cell survival.

Question 40

How is the death signal produced in cavitation?

Answer 40

The death signal is dependent on the adjacent layer of visceral endoderm cells. It acts over short distances to create a cavity by inducing the apoptosis of internal epiblast cells.

Question 41

How is the survival signal produced in cavitation?

Answer 41

Contact with the basement membrane positioned at the epiblast/visceral endoderm interface. It promotes the survival of epiblast cells located adjacent to the visceral endoderm.

Question 42

What does BMP promote?

Answer 42

Cell death signal.

Question 43

What are the cells surrounding the embryo and distal endoderm classified by?

Answer 43

Squamous properties.

Question 44

What is significant about the squamous cells surrounding the embryo?

Answer 44

They are mobile.

Question 45

What happens to the mesoderm in embryogenesis?

Answer 45

It migrates posteriorly and will form the extraembryonic mesoderm. It also moves around laterally and contributes to the embryonic mesoderm.

Question 46

What is the driving force for distal visceral endoderm movement (DVE)?

Answer 46

Elevated cell proliferation.

Question 47

When does gastrulation start?

Answer 47

6.5 day of development.

Question 48

What marks the posterior end of the embryo and marks the start of gastrulation?

Answer 48

A thickening in the epiblast. The opposite end becomes the anterior.

Question 49

What happens to cells from the epiblast in gastrulation?

Answer 49

They delaminate and ingress through the streak, forming the mesoderm.

Question 50

What does the anterior most part of the primitive streak form?

Answer 50

The node in mouth, Hensen’s node in the chick and the Spemann organiser of amphibians.

Question 51

What happens to the mesoderm in the extraembryonic region?

Answer 51

It develops intercellular lacunae which will then fuse to the form the exocoelom. The formation of the amniotic folds occurs at this stage.

Question 52

What is the first step of movement of the endoderm in early gastrulation?

Answer 52

The anterior-proximal movement of the more distally located visceral endoderm.

Question 53

What is the second step of movement of the endoderm in early gastrulation

Answer 53

Anterior displacement of the definitive endoderm.

Question 54

What is the first step of movement of the mesoderm in early gastrulation?

Answer 54

Movement of the mesoderm commences with the ingresion of the progenitor cells through the primitive streak.

Question 55

What is the second step of movement of the mesoderm in early gastrulation?

Answer 55

Anterior spreading out of the tissue sheet.

Question 56

What happens at the primitive streak during gastrulation?

Answer 56

Cells undergo EMT, ingress and migrate away to form the mesoderm.

Question 57

What is a node?

Answer 57

A group of specialised cells - 200 cells in diameter located at the most anterior aspect of the primitive streak.

Question 58

What is a node equivalent to?

Answer 58

The organiser.

Question 59

What does the node appear as in the egg cylinder?

Answer 59

Slight indentation at the end of the egg cylinder - it is a bilayered structure.

Question 60

What can the node do when transplanted into the ventral side of a xenopus embryo?

Answer 60

Additional anterior structures.

Question 61

What does the node do in the developing avian embryo?

Answer 61

Duplication of digits.

Question 62

What does heterotopic grafting to a posterolateral position of the node result in?

Answer 62

Induction of a second neural axis.

Question 63

ExE

Answer 63

Extraembryonic ectoderm.

Question 64

What happens to the extraembryonic endoderm (ExE) in the patterning of visceral endoderm?

Answer 64

Nodal precursor protein (produced by the epiblast) acts by activin receptors 1B and 2A to activate the transcription of Furin and Pcsk6.