MCRO06001 2019 MICROBIOLOGY

General Details

Full Title

MICROBIOLOGY

Transcript Title

MICROBIOLOGY

Code

MCRO06001

Attendance

N/A %

Subject Area

MCRO - Microbiology

Department

LIFE - Life Sciences

Level

06 - NFQ Level 6

Credit

05 - 05 Credits

Duration

Semester

Fee

€

Start Term

2019 - Full Academic Year 2019-20

End Term

9999 - The End of Time

Author(s)

Angela McMorrow, John Barrett Phd.

Programme Membership

SG_SFORE_G07 201900 Bachelor of Science in Science in Forensic Invest & Analys(Emb) SG_SBIOM_B07 201900 Bachelor of Science in Biomedical Science SG_SPHAR_B07 201900 Bachelor of Science in Pharmaceutical Science with Drug Development SG_SHUMA_H08 201900 Bachelor of Science (Honours) in Human Nutrition SG_SHUMA_B07 201900 Bachelor of Science in Human Nutrition SG_SPHAR_H08 201900 Bachelor of Science (Honours) in Pharmaceutical Science with Drug Development SG_SMEDI_H08 201900 Bachelor of Science (Honours) in Medical Biotechnology SG_SFORE_H08 201900 Bachelor of Science (Honours) in Forensic Investigation and Analysis SG_SFORE_B07 201900 Bachelor of Science in Science in Forensic Investigation and Analysis SG_SANAL_G06 201900 Higher Certificate in Science in Analytical Science SG_SBIOM_C06 202100 Higher Certificate in Science in Biomedical Science SG_SPHAR_C06 202100 Higher Certificate in Science in Pharmaceutical Science SG_SHUMA_H08 202200 Bachelor of Science (Honours) in Human Nutrition SG_SHUMA_B07 202200 Bachelor of Science in Human Nutrition SG_SBIOS_H08 202300 Bachelor of Science (Honours) in Biomedical Science SG_SINDU_B07 202300 Bachelor of Science in Industrial Laboratory Science SG_SINDU_C06 202300 Higher Certificate in Science in Industrial Laboratory Science

Description

The aim of this module is to introduce the student to both the theoretical and practical aspects of basic microbiological techniques required to safely handle, investigate and manipulate micro-organisms in laboratory setting. Students will be provided with the opportunity to acquire knowledge of the subject matter through a variety of lecturer led activities and self-directed study. Such activities will include traditional and interactive lectures, problem solving and revision tutorials and laboratory practical classes. Theoretical and practical problems will be employed to assist students in the development of their analytical and problem solving capabilities.

Learning Outcomes

On completion of this module the learner will/should be able to;

Understand that microorganisms comprise a diverse range of organisms that includes bacteria, fungi, protozoans, algae, viruses and sub-viral particles.

Understand microbial structural diversity and classification.

Be aware of microbial physiological diversity which is reflected in a range of microbial activities in nature, in their importance in biotechnology and in health and disease. Understand the theoretical and practical principles underpinning a diverse range of methodologies aimed at controlling microbial growth.

Be capable of manipulating and interpreting numerical data relating to microbiological analysis.

Understand the importance of, and work in compliance with, health and safety policies and good laboratory practice as it pertains to microbiology laboratories.

Demonstrate an awareness of key principles of Microbiology and be able to explain major microbiological concepts by demonstrating a capacity for critical scientific analysis of relevant issues.

Be able to design and execute experiments, systematically collect and analyze data, identify sources of error, and interpret the results and reach logical conclusions. They should also have a basic understanding of safety issues.

Operate basic laboratory instruments used in microbiology practical experimentation.

Apply the scientific method by stating a question; researching the topic; determining appropriate tests; performing tests; collecting, analyzing, and presenting data; and finally proposing new questions about the topic.

10.

Be able to (1) differentiate between fact and opinion, (2) recognize and evaluate author bias and rhetoric, (3) develop inferential skills, (4) recognize logical fallacies and faulty reasoning, and (5) make decisions and judgments by drawing logical conclusions using sound quantitative and statistically-based reasoning.

11.

Understand and appreciate the value of cooperating and working effectively with peers and be able to demonstrate a commitment to the process of developing such skills.

Teaching and Learning Strategies

Module Assessment Strategies

Repeat Assessments

Module Dependencies

Prerequisites

None

Co-requisites

None

Incompatibles

None

Indicative Syllabus

Theory:

•1. History of microbiology.

•2. Microscopy.

•3. The structure of the bacterial cell.

•4. Aseptic technique.

•5. Microbial classification.

•6. Chemical factors affecting microbial growth.

•7. Physical factors affecting microbial growth.

•8. Controling microbial growth.

•9. Culturing microbes.

Indicative Practical:

•1. Aseptic techniques.

•2. Staining of microbial cells - Gram stain, spore stain.

•3. Microbial motility tests - direct microscopic observation and motility agar technique.

•4. Culture techniques- aerobic and aerobic culture.

•5. Enumerating microbes - pour plate, spread plate.

•6. Controling microbial growth- disinfectant efficacy tests (MIC), antibiotic susceptibility tests.

Coursework & Assessment Breakdown

Coursework & Continuous Assessment

65 %

End of Semester / Year Formal Exam

35 %

Coursework Assessment

	Title	Type	Form	Percent	Week	Learning Outcomes Assessed
1	Mid term assessment.	Coursework Assessment	UNKNOWN	15 %	Week 7	1,2,3
2	Health and safety compliance - safe handling of microbes, safety glasses compliance	Coursework Assessment	UNKNOWN	5 %	OnGoing	5
3	Post practical assessments	Coursework Assessment	UNKNOWN	15 %	OnGoing	4,10
4	Practical skills assessment.	Coursework Assessment	UNKNOWN	10 %	OnGoing	8
5	Group laboratory based mini project on identification of an unknown microbe	Coursework Assessment	UNKNOWN	15 %	OnGoing	7,9,11
6	Report preparation and submission	Coursework Assessment	UNKNOWN	5 %	OnGoing	4

End of Semester / Year Assessment

	Title	Type	Form	Percent	Week	Learning Outcomes Assessed
1	Final theory examination	Final Exam	Assessment	35 %	End of Term	1,2,3,4,5,6

Full Time Mode Workload

Type	Location	Description	Hours	Frequency	Avg Workload
Lecture	Tiered Classroom	Lecture	2	Weekly	2.00
Practical / Laboratory	Science Laboratory	Laboratory Work	2	Weekly	2.00
Independent Learning	UNKNOWN	Self study	4	Weekly	4.00

Total Full Time Average Weekly Learner Contact Time 4.00 Hours

Module Resources

Non ISBN Literary Resources

Brock Biology of Microorganisms -

Michael T. Madigan, Kelly S. Bender and Daniel H. Buckley

Text Only - 15th edition. ISBN13: 9780134261928

Microbiology: Laboratory Theory and Application, - 3rd edition

Michael J. Leboffe and Burton E. Pierce
Edition: 3RD 16 Copyright: 2016 Publisher: Morton Publishing Co.
Published: 2016. ISBN13: 9781617314773

Microbiology - 2nd edition

Anthony Strelkauskas

Edition: 2ND 16 Copyright: 2016 Publisher: Garland Publishing
Published: 2016. ISBN13: 9780815345138

Medical Microbiology - 8th Edition Patrick R. Murray PhD (Author), Ken S. Rosenthal PhD (Author), Michael A. Pfaller MD (Author) Published: 2019. ISBN-13: 978-0323299565

Medical Microbiology - 8th Edition Patrick Murray Ken Rosenthal Michael Pfaller. Elsevier Published Date: 28th October 2015. ISBN: 9780323299565

Other Resources

Microbiology Webbed Out-http://www.bact.wisc.edu/MicrotextBook

Pats Medical Microbiology Sites-http://www.ualberta.ca/~pletendr/micro.html

Federation of European Microbiology Societies: http://www.fems-microbiology.org/

Society for General Microbiology: http://www.socgenmicrobiol.org.uk/

FDA Bacteriological Analytical Manual (BAM) http://vm.cfsan/

Journals:

Annual Reviews in Microbiology / Microbiology and Molecular Biology Reviews / Nature Reviews in Microbiology / Trends in Microbiology