Escrito por estudiantes que aprobaron Inmediatamente disponible después del pago Leer en línea o como PDF ¿Documento equivocado? Cámbialo gratis 4,6 TrustPilot
logo-home
Resumen

Samenvatting/Summary - Molecular and Developmental Animal Physiology (B-KUL-G0G55A)

Puntuación
-
Vendido
1
Páginas
169
Subido en
07-02-2026
Escrito en
2024/2025

This document contains a full summary for the course Molecular and Developmental Animal Physiology. It is highly detailed, containing all the information needed to pass the exam.

Institución
Grado

Vista previa del contenido

Molecular and
Developmental
Animal Physiology

,H0: Overview of the course
Learning outcomes – 6 credits
• The students gain profound knowledge and insight in the physiology of reproducing and
developing metazoan organisms.
• Students will analyze and integrate information regarding molecular, cellular, organismal and
environmental mechanisms controlling developmental processes, such as gender
determination, reproductive cycle, gametogenesis and fertilization, early embryogenesis and
pattern formation, cell differentiation, programmed cell death, metamorphosis, regeneration,
ageing, diapause and polyphenisms. Processes will be situated in their evolutionary context.
• In addition, the students acquire insight in different approaches employed in modern
research. They can individually communicate the findings of recent scientific reports on
developmental physiological themes to the other students of the course and can critically
analyze, interpret and discuss these findings in group.

Course content:
1. Introductory concepts: historical overview of mile stones in research
2. Reproductive strategies and mechanisms of gender determination in animals: X-
chromosome inactivation; gender-dependent hormonal differences; role of endocrine and
paracrine factors in gonadogenesis, gonadal steroidogenesis and gametogenesis in an
evolutionary context; control of reproduction cycles in vertebrates and invertebrates;
3. Molecular and cellular control mechanisms during early embryogenesis, Drosophila as a
model. Maternal genes, anterior-posterior and dorso-ventral axis formation, segmentation,
homeotic genes, differentiation of body parts
4. The origin of mesoderm in chordates: the molecular biology of the Nieuwkoop center and the
Spemann organizer. Developmental patterns in vertebrates; left-right axis; formation of limbs
5. Programmed cell death
6. Metamorphosis, regeneration and ageing; hormonal regulation of molting and
metamorphosis in insects: signaling pathways controlling lifespan in different metazoans
7. Stem cells and differentiation
8. Environment and development: diapause; polyphenisms (e.g. phase transition in locusts)
9. Macroevolution and development (molecular evo-devo aspects)
10. Examples and methods illustrating the role of intercellular interaction and communication in
developmental processes, and the regulation of gene expression at the transcriptional,
translational or post-translational level

The exam
The exam will be a written exam: explain a few terms, a few research techniques, and some
open questions.
Final grade:
• Written exam: 15 points
• Presentation: 3 points
• Q&A peers: 2 points

,H1: PRINCIPLES OF DEVELOPMENT ................................................................................................ 1
1.1 A GENERAL INTRODUCTION .................................................................................................................... 1
1.2 HISTORICAL FOUNDATIONS & APPROACHES TO STUDY DEVELOPMENT ............................................................. 6
H2: DIFFERENTIAL GENE EXPRESSION ...........................................................................................26
2.1 GENE EXPRESSION IN DEVELOPMENT ..................................................................................................... 26
2.2 FUNCTIONAL ORGANIZATION AND ANATOMY OF THE GENE (BACKGROUND) .................................................... 29
2.3 MECHANISMS OF DIFFERENTIAL GENE EXPRESSION ................................................................................... 32
2.4 THE BASIC TOOLS OF DEVELOPMENTAL GENETICS ...................................................................................... 37
H3: CELL-TO-CELL COMMUNICATION ............................................................................................43
3.1 CELL COMMUNICATION – FUNDAMENTAL CONCEPTS ................................................................................. 43
3.2 ADHESION AND SORTING: THE PHYSICS OF MORPHOGENESIS ....................................................................... 44
3.3 THE EXTRACELLULAR MATRIX AS SOURCE OF DEVELOPMENTAL SIGNALS ......................................................... 47
3.4 THE EPITHELIAL-MESENCHYMAL TRANSITION (EMT) ................................................................................. 48
3.5 CELL SIGNALING: INDUCTION AND COMPETENCE ...................................................................................... 49
3.6 MORPHOGEN GRADIENTS AND SIGNAL TRANSDUCTION CASCADES ............................................................... 50
3.7 PARACRINE SIGNALING FAMILIES: INDUCERS AND MORPHOGENS.................................................................. 52
3.8 JUXTACRINE SIGNALING FOR CELL IDENTITY .............................................................................................. 60
H4: STEM CELLS ............................................................................................................................61
4.1 THE STEM CELL CONCEPT ..................................................................................................................... 61
4.2 STEM CELL REGULATION ...................................................................................................................... 63
4.3 PLURIPOTENT STEM CELLS IN THE EMBRYO .............................................................................................. 63
4.4 ADULT STEM CELL NICHES .................................................................................................................... 64
H5: EARLY DEVELOPMENT: INVERTEBRATES ..................................................................................65
5.1 CAENORHABDITIS ELEGANS .................................................................................................................. 66
5.2 DROSOPHILA MELANOGASTER .............................................................................................................. 70
H6: EARLY DEVELOPMENT IN VERTEBRATES ..................................................................................84
6.1 AMPHIBIANS – XENOPUS LAEVIS ........................................................................................................... 84
6.2 ZEBRAFISH – DANIO RERIO ................................................................................................................ 100
6.3 BIRDS – AVES ................................................................................................................................. 105
6.4 MAMMALS – MAMMALIA................................................................................................................. 110
6.5 OVERVIEW DEVELOPMENT IN VERTEBRATES ........................................................................................... 116
H7: SEX DETERMINATION ........................................................................................................... 117
7.1 CHROMOSOMAL SEX DETERMINATION IN PLACENTAL MAMMALS................................................................ 118
7.2 CHROMOSOMAL SEX DETERMINATION IN DROSOPHILA ............................................................................ 127
H8: DEVELOPMENT OF THE TETRAPOD LIMB .............................................................................. 130
8.1 GENERAL ANATOMY AND DEVELOPMENT OF THE LIMB ............................................................................. 130
8.2 DETERMINING WHAT KIND OF LIMB TO FORM AND WHERE TO PUT IT .......................................................... 132
8.3 OUTGROWTH: GENERATING THE PROXIMAL-DISTAL AXIS .......................................................................... 134
8.4 SPECIFYING THE ANTERIOR-POSTERIOR AXIS .......................................................................................... 137

, 8.5 GENERATING THE DORSAL-VENTRAL AXIS .............................................................................................. 140
8.6 CELL DEATH AND THE FORMATION OF DIGITS.......................................................................................... 141
H9: METAMORPHOSIS ................................................................................................................ 142
9.1 METAMORPHOSIS IN AMPHIBIANS ....................................................................................................... 142
9.2 METAMORPHOSIS IN INSECTS ............................................................................................................. 145
H10: REGENERATION .................................................................................................................. 148
10.1 REGENERATION? ........................................................................................................................... 148
10.2 HYDRA REGENERATION ................................................................................................................... 151
10.3 PLANARIAN REGENERATION ............................................................................................................. 152
10.4 AMPHIBIAN REGENERATION ............................................................................................................. 160
10.5 ZEBRAFISH REGENERATION .............................................................................................................. 162
10.6 MAMMALIAN REGENERATION .......................................................................................................... 164

Escuela, estudio y materia

Institución
Estudio
Grado

Información del documento

Subido en
7 de febrero de 2026
Número de páginas
169
Escrito en
2024/2025
Tipo
RESUMEN

Temas

$20.02
Accede al documento completo:

¿Documento equivocado? Cámbialo gratis Dentro de los 14 días posteriores a la compra y antes de descargarlo, puedes elegir otro documento. Puedes gastar el importe de nuevo.
Escrito por estudiantes que aprobaron
Inmediatamente disponible después del pago
Leer en línea o como PDF

Conoce al vendedor

Seller avatar
Los indicadores de reputación están sujetos a la cantidad de artículos vendidos por una tarifa y las reseñas que ha recibido por esos documentos. Hay tres niveles: Bronce, Plata y Oro. Cuanto mayor reputación, más podrás confiar en la calidad del trabajo del vendedor.
MiSaBio Universiteit Hasselt
Seguir Necesitas iniciar sesión para seguir a otros usuarios o asignaturas
Vendido
31
Miembro desde
3 año
Número de seguidores
4
Documentos
14
Última venta
2 semanas hace

4.8

4 reseñas

5
3
4
1
3
0
2
0
1
0

Por qué los estudiantes eligen Stuvia

Creado por compañeros estudiantes, verificado por reseñas

Calidad en la que puedes confiar: escrito por estudiantes que aprobaron y evaluado por otros que han usado estos resúmenes.

¿No estás satisfecho? Elige otro documento

¡No te preocupes! Puedes elegir directamente otro documento que se ajuste mejor a lo que buscas.

Paga como quieras, empieza a estudiar al instante

Sin suscripción, sin compromisos. Paga como estés acostumbrado con tarjeta de crédito y descarga tu documento PDF inmediatamente.

Student with book image

“Comprado, descargado y aprobado. Así de fácil puede ser.”

Alisha Student

Preguntas frecuentes