Mesoderm Segmentation

Question 1

Where does mesoderm form?

Answer 1

At the primitive streak during gastrulation

Question 2

What are the different types of mesoderm along the primitive streak?

Answer 2

Axial mesoder
Paraxial mesoderm
Intermediate mesoderm
Lateral mesoderm

Question 3

What does paraxial mesoderm contribute to?

Answer 3

Somite formation

Question 4

What does lateral mesoderm contribute to?

Answer 4

The formation of the limb and heart

Question 5

What are the somites preceded by?

Answer 5

A row of mesenchyme tissue which did not appear to show any signs of segentation
= pre-somatic mesoderm

Question 6

List characteristics of somites

Answer 6

Units have a reproducible size depfined by the AP boubndary
Perfect symetry between left and right
Conserved through evolution

Question 7

How many vertebrae do humans have at birth and in adult hood?

Answer 7

Birth = 33
Adulthood = 24 and 9 fused ones

Question 8

How many somites do humans, chicks, mice and zebrafish have?

Answer 8

Humans = 38-44
Chicks = 55
Mice = 65
Fish = 33

Question 9

When is the primitive streak no longer present?

Answer 9

Until somites no longer form

Question 10

In the chick embryo how often do somites form?

Answer 10

Every 90 minutes

Question 11

Who proposed the clock and wavefront model?

Answer 11

Cooke and Zeeman 1976

Question 12

What does the clock and wavefront model predict?

Answer 12

A clock ticks in the posterior pre somatic mesoderm and drives a molecular oscillator that dictates the periodicity of somites

Question 13

Which gene controls the oscillation?

Answer 13

C-hairy

Question 14

How was it shown that c-hairy controls the development of somites

Answer 14

In situ hybridisation in the embryo showed it was not expressed in the same pattern eg bands differed in size
Bissected embryos showed that levels of hairy changed over 90 minute periods

Question 15

Give two properties of c-hairy that means it can oscillate

Answer 15

Short half life of mRNA

Protein is fairly unstable

Question 16

What happens if a prospective somite boundary region into a non-boundary region of a somite?

Answer 16

A new boundary is created

Question 17

Which genes are expressed at the somite boundary?

Answer 17

Notch family genes

Question 18

What is the lunatic fringe?

Answer 18

Glycosyltransferase inhibits the notch singalling pathway

Question 19

What happens if lunatic fringe is elctroporated in to the centre of a prospective somite?

Answer 19

Notch is inhibited

2 new boundaries form = 2 new somites

Question 20

How is the determination front established?

Answer 20

RA is expressed in the anterior
FGF8 is expressed in the posterior
The level at which these two gradients come close to each other is precisely at the level of the determination front

Question 21

What synthesises RA?

Answer 21

RAldh2

Question 22

How does FGF8 prevent further division?

Answer 22

Drives the expression of Cyp26 which inhibits RA synthesis

Question 23

The determination front is molecularly defined by what?

Answer 23

MesP2

Question 24

FGF8 can drive the expression of which gene?

Answer 24

Tbx6

Question 25

Tbx6 + notch =

Answer 25

MesP2

Question 26

What is Mesp2 restricted by?

Answer 26

Ripply 2- acts on neigbouring cells to prevent the expression of further MesP2