Handbook : Unit informationEdith Cowan University

School: Medical and Health Sciences

This unit information may be updated and amended immediately prior to semester. To ensure you have the correct outline, please check it again at the beginning of semester.

• Unit Title

  Developmental Biology

• Unit Code

  SCH3244

• Year

  2017

• Enrolment Period

  2

• Version

  1

• Credit Points

  15

• Full Year Unit

  N

• Mode of Delivery

  On Campus
  

• Unit Coordinator

  Dr Rachel ALEXANDER

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Description

This unit is an introduction to the study of developmental biology with respect to the influence of genetics on stem cell differentiation: molecular mechanisms defining cell position, migration, differentiation and embryonic patterning; germ layer formation, organ and tissue production and sex determination during embryonic development.

Prerequisite Rule

Students must pass 1 units from SCH2226

Learning Outcomes

On completion of this unit students should be able to:

1. Analyse the differentiation of pluripotent stem cells along haematopoietic, neurogenic and myogenic lineages.
2. Communicate the mechanisms of cell-cell interactions, cell migration and cell differentiation during the complex process of tissue and organ formation.
3. Describe the mechanisms of genetic engineering employed in the production of Dolly the sheep and transgenic mice.
4. Discuss the use of stem cells and DNA recombinant technology in modern medicine for therapeutic transplantation or 'in vitro' production of defined cells and tissues.
5. Explain gametogenesis, the path from sperm and egg to production of the embryo and the role of sex determination genes.
6. Explain the paired and segmented arrangement of the embryo - why we have two arms and legs and five fingers and toes on each hand and foot.
7. Recognise the highly conserved nature of pattern formation in developing embryos of several species and describe the genes involved in these processes.
8. Utilise several experimental methods to detect gene expression during development and assess phenotypic changes associated with genetic alterations.

Unit Content

1. Conserved families of developmental genes, segment, polarity and homeotic genes; homeobox and paired box genes.
2. Critical analysis of methods to generate knockout mice and transgenic animals.
3. Embryonic patterning, cell migration, differentiation and cellcell interactions.
4. Investigate anterior-posterior and dorso-ventral patterning of the embryo, soluble factors, transcription factors and epigenetic mechanisms.
5. Neural tube patterning and nervous system development; delta-notch signalling, brain and eye development.
6. Somitic cell migration and differentiation to form limbs and digits.
7. Stem cells, haematopoiesis, skeletal and heart muscle formation and bone development.
8. Wild type and mutant embryos drosophila, zebra fish, chick and mouse.

Additional Learning Experience Information

Lectures, seminars, laboratory classes, on-line tutorials, and audio-visual aids totalling 4 hours per week. Industry based guest lecturers will detail the latest in research in their field.

Students are required to work in small teams to plan and conduct a small research project. Each group is required to communicate the outcomes of their research project to the whole class during seminars. Students will each submit a written report in the form of a research manuscript, on the processes and outcomes of the experiments.

Assessment

GS1 GRADING SCHEMA 1 Used for standard coursework units

Students please note: The marks and grades received by students on assessments may be subject to further moderation. All marks and grades are to be considered provisional until endorsed by the relevant Board of Examiners.

Core Reading(s)

• Slack, J. M. W. (2006). Essential developmental biology. (2nd ed.). Malden, MA.: Blackwell Publishing.

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