PLANT SC 7226WT - Molecular Plant Breeding

Waite Campus - Winter - 2014

This course involves teaching sessions that may be attended by both Undergraduate and Postgraduate students. Plant molecular biology can be incorporated into crop improvement programs via plant transformation (gene technology) and/or via the application of genetic marker information. Plant cell and tissue culture is used in plant transformation and has other applications in plant breeding. This course considers the scientific basis for the application of plant transformation, molecular markers and cell and tissue culture in plant breeding.

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Course Details

Course Code	PLANT SC 7226WT
Course	Molecular Plant Breeding
Coordinating Unit	School of Agriculture, Food and Wine
Term	Winter
Level	Postgraduate Coursework
Location/s	Waite Campus
Units	3
Contact	Up to 24 hours per week for 3 weeks
Assumed Knowledge	PLANT SC 7225WT
Restrictions	Available to GradCertPHB, GradDipPHB, MHB students only
Assessment	Final exam, tutorials, assignments, reports

Course Staff

Course Coordinator: Professor Diane Mather

Course Timetable

The full timetable of all activities for this course can be accessed from .

Course Learning Outcomes

Students will be able to:

Understand and explain scientific principles behind plant cell and tissue culture, plant transformation, molecular markers and genome mapping.
Analyse information from plant molecular biology research and recognize its potential applications in crop improvement.
Synthesize information from plant molecular biology and plant breeding to design plant molecular breeding strategies.
Evaluate the relative merits of plant transformation, marker-assisted breeding and conventional phenotypic selection for particular situations.
Demonstrate skills in collaborative group learning processes, emergent technologies and the ability to apply these principles to a specified project.

最新糖心Vlog Graduate Attribute	Course Learning Outcome(s)
Knowledge and understanding of the content and techniques of a chosen discipline at advanced levels that are internationally recognised.	1
The ability to locate, analyse, evaluate and synthesise information from a wide variety of sources in a planned and timely manner.	2,3,4
An ability to apply effective, creative and innovative solutions, both independently and cooperatively, to current and future problems.	3,4,5
Skills of a high order in interpersonal understanding, teamwork and communication.	5
A proficiency in the appropriate use of contemporary technologies.	5
A commitment to continuous learning and the capacity to maintain intellectual curiosity throughout life.	1
A commitment to the highest standards of professional endeavour and the ability to take a leadership role in the community.	1-5
An awareness of ethical, social and cultural issues within a global context and their importance in the exercise of professional skills and responsibilities.	1-5

Learning & Teaching Modes

The course includes a series of lectures, complemented by practical sessions and problem-based group learning sessions.

Workload

The information below is provided as a guide to assist students in engaging appropriately with the course requirements.

A full-time student in a 3-unit course should expect to spend a total of 156 hours on their studies. This includes both the formal contact time required in the course (e.g. lectures, group work, practicals), as well as non-contact time (e.g. reading, writing and revision).

Learning Activities Summary

Schedule
Date	Day	Start	End	Activity	Instructor
June
16	Monday	9	10	Introduction to molecular plant breeding	Diane Mather
		10	11	From genomics to molecular plant breeding - examples from rice	Sigrid Heuer
		2	4	Group work	Chad Habel, Diane Mather
17	Tuesday	9	11	GM breeding: achievements and approaches	Diane Mather
18	Wednesday	9	1	LAB PRAC: Agrobacterium-mediated transformation (Waite GS)	Nannan Yang
		2	4	Group work	Chad Habel
19	Thursday	9	11	GM breeding: regulatory and commercial considerations	Diane Mather
		11	12	Visit to PC facility (containment glasshouse)	Jan Nield
20	Friday	9	1	LAB PRAC: Biolistic transformation (Waite GS)	Nannan Yang
		3	5	Group work	Chad Habel
23	Monday	9	11	Novel plant breeding technologies	Diane Mather
		11	12	Transformation methods Q&A	Nannan Yang, Rohan Singh
		3	5	Group work	Chad Habel, Diane Mather
24	Tuesday	9	11	Markers in plant breeding 1	Diane Mather
		1	3	COMPUTER PRAC: From genes to markers (CH 129)	Melissa Garcia
25	Wednesday	9	1	LAB PRAC: Marker-assisted breeding - part 1	Tim March
		2	4	Group work	Chad Habel
26	Thursday	9	11	Markers in plant breeding 2	Diane Mather
		1	2	Molecular methods in hybrid breeding	Ryan Whitford
27	Friday	9	1	LAB PRAC: Marker-assisted breeding part 2	Tim March
30	Monday	9	10	Genomic selection	Diane Mather
		10	11	Next-generation mutation breeding: TILLING and EcoTILLING	Diane Mather
		2	4	Group work	Chad Habel, Diane Mather
July
1	Tuesday	9	10	Application of molecular methods in commercial wheat breeding	Haydn Kuchel
		10	11	Application of molecular methods in almond breeding	Michelle Wirthensohn
2	Wednesday	9	1	COMPUTER PRAC: Understanding marker data (CH 129)	Ken Chalmers
		2	4	Group work	Chad Habel
3	Thursday	9	10	Applications of tissue culture in plant breeding	Diane Mather
		10	11	From transgenic plant to transgenic cultivar: the Golden Rice experience	Diane Mather
4	Friday	11	1	Review session	Diane Mather
		2	4	Group work	Chad Habel

Small Group Discovery Experience

The group problem-based learning project is a small group discovery experience.

The 最新糖心Vlog's policy on Assessment for Coursework Programs is based on the following four principles:

Assessment must encourage and reinforce learning.
Assessment must enable robust and fair judgements about student performance.
Assessment practices must be fair and equitable to students and give them the opportunity to demonstrate what they have learned.
Assessment must maintain academic standards.

Assessment Summary

Assessment Task	Task Type	Due	Weighting	Learning Outcome
Group learning project	Summative	Friday 11 July	35%	LO2 - LO5
Short assignments (on-line questions posted on MyUni)	Summative	To be scheduled during the course	30%	LO1
Final examination	Summative	Tuesday 8 July	35%	LO1 - LO4

Assessment Detail

Short assignments

During the course, students will be expected to answer short questions related to the course content. Questions and due dates will be posted on MyUni. One purpose of these assignments is to encourage students to keep up with the reading and lecture materials.

Group project

Students are assigned to work in groups, as consultants to the director of a research centre. Each group will prepare a report (up to 3000 words) on whether and how the CRISPR/Cas9 system could be used to address an assigned plant breeding objective. Each report should include:

An executive summary
An introduction to the plant breeding objective
An introduction to CRISPR/Cas9 technology and the opportunity it presents to address the objective
A specific plan for what would need to be done in order to successfully used CRISPR/Cas9 to address the objective
A discussion of the key considerations that the client will need to take into account in order to decide whether to proceed with this as pilot project. This discussion does not need to be limited to scientific factors, but could also take regulatory (biosafety) and/or commercial factors into account. This discussion should give some consideration to whether there are alternative ways to address the objective and whether CRISPR/Cas9 has advantages or disadvantages relative to these alternatives.
A list of recommendations that will be helpful to the client.
A list of references cited in the report.

The report will be assessed based on

The extent to which the report demonstrates a thorough understanding of the assigned plant breeding objective and the CRISPR/Cas9 system (5 marks)
The scientific validity and feasibility of the plan (10 marks)
Professional presentation and clarity of the report (10 marks)
Whether the recommendations are logical and consistent with the information presented (5 marks)
Whether the plan uses references appropriately and thoroughly (5 marks)
Moderation based on any observed inequality of contributions by group members, based on observations of instructors in combination with student input in an anonymous peer assessment survey (± between 0 and 5 marks).

Final examination

The final examination will be a three-hour written examination, with questions designed to assess your understanding of the concepts covered in the course.

Submission

All written work is to be submitted via MyUni.

Course Grading

Grades for your performance in this course will be awarded in accordance with the following scheme:

M10 (Coursework Mark Scheme)
Grade	Mark	Description
FNS		Fail No Submission
F	1-49	Fail
P	50-64	Pass
C	65-74	Credit
D	75-84	Distinction
HD	85-100	High Distinction
CN		Continuing
NFE		No Formal Examination
RP		Result Pending

Further details of the grades/results can be obtained from Examinations.

Grade Descriptors are available which provide a general guide to the standard of work that is expected at each grade level. More information at Assessment for Coursework Programs.

Final results for this course will be made available through .

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Authorised by:	Deputy Vice-Chancellor and Vice-President (Academic)
Maintained by:	Course Outlines Administrator

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