figure 3.13 ectodermal competence and the ability to respond to the optic vesicle inducer in xenopus
DESCRIPTION
Figure 3.15 Schematic diagram of induction of the mouse lensTRANSCRIPT
Figure 3.13 Ectodermal competence and the ability to respond to the optic vesicle inducer in Xenopus
Figure 3.14 Lens induction in amphibians
Figure 3.15 Schematic diagram of induction of the mouse lens
Figure 3.16 Feather induction in the chick
Figure 3.18 Genetic specificity of induction in amphibians
Figure 3.20 Fgf8 in the developing chick (Part 1)
Figure 3.20 Fgf8 in the developing chick (Part 2)
Figure 3.19 Structure and function of a receptor tyrosine kinase
Figure 3.20 Fgf8 in the developing chick
Figure 3.21 The widely used RTK signal transduction pathway
Figure 3.22 Activation of MITF transcription factor through the binding of stem cell factor by the Kit RTK protein (Part 2)
Figure 3.22 Activation of MITF transcription factor through the binding of stem cell factor by the Kit RTK protein (Part 1)
Tunicate life cycle
Part Figure II.2 Autonomous specification in the early tunicate embyro (Part 1)
Part Figure II.2 Autonomous specification in the early tunicate embyro (Part 2)
Part Figure II.3 Microsurgery on tunicate eggs forces some of the yellow crescent cytoplasm of the muscle-forming B4.1 blastomeres to enter the b4.2 blastomere pair
Part Figure II.4 Conditional specification
Part Figure II.6 Roux’s attempt to demostrate autonomous specification
Part Figure II.7 Driesch’s demonstration of conditional specification