| Module Title: | Bioforensics |
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| Language of Instruction: | English |
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| Teaching & Learning Strategies: |
This module will be delivered via two one-hour lectures per week. Students may be required to access the material via Blackboard, the VLE, in advance of class to encourage active learning. To consolidate lectures, students will normally be required to carry out assignments, give presentations and continuous assessment examinations. Group and peer learning will be facilitated during the preparation of assignments, presentations and practicals.
Any course-related issue or questions that may arise will be discussed at lectures.
Course lecture summaries, course calendar, announcements and other course-related material will be available on Blackboard. Students can contact lecturer outside of class hours to discuss formative feedback given on written reports and group project work.
Online demonstrations will illustrate the key concepts of the course and will be available throughout the year. Digital resources such as YouTube, Reusable learning objects and the National Digital Learning Repository will be used as practicable. |
| Module Aim: |
To introduce students to the various concepts in Biomolecular forensics and the analysis of such forensic samples. Introduction to concepts such as Population genetics and evolution, Parentage testing, DNA profiles and databases, Trial evidence, Bioethics and Case studies.
Provide information for students so that they can be familiar with the software packages used for DNA, RNA and protein sequence analysis. |
| Learning Outcomes |
| On successful completion of this module the learner should be able to: |
| LO1 |
Know the different molecular forensic techniques used in the analysis of biological material.
Describe the relevant internet based databases for storage, query and retrieval of biomolecular sequences.
Be able to discuss and Evaluate evolutionary biology, paternity testing as well as DNA profile data. |
| LO2 |
Cognisant of the issues involving bioethics. Be able to discuss bioterrorism as a topic and in the context of bioethics. |
| LO3 |
Proficient in communicating with peers and academic staff using verbal and written methods of communication as well as presentations. |
| Pre-requisite learning |
Module Recommendations
This is prior learning (or a practical skill) that is recommended before enrolment in this module.
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| No recommendations listed |
Incompatible Modules
These are modules which have learning outcomes that are too similar to the learning outcomes of this module. |
| No incompatible modules listed |
Co-requisite Modules
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| No Co-requisite modules listed |
Requirements
This is prior learning (or a practical skill) that is mandatory before enrolment in this module is allowed. |
| Successful completion of Year 3 or equivalent. |
Module Content & Assessment
| Indicative Content |
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Introduction to Biomolecular forensics.
DNA as evidence, Sources of DNA for testing, DNA isolation, purification and evaluation; intact high molecular weight versus degraded DNA. PCR technology, Variable DNA and the key to DNA typing; multi-locus analysis versus polymorphic single locus genes.
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Techniques and concepts.
Use of hypervariable or variable tandem repeat loci (VNTR’s) to identify individuals. Restriction fragment length polymorphisms. Protocols for restriction digestion, southern transfers, probdesign and hybridization. Automated systems for multi-locus analysis. Interpretation of data; band comparison and match criteria.
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DNA databases and inherited disorders.
DNA profile databases, Population genetics, Frequencies of DNA patterns. Applications of the above. DNA diagnosis of inherited disorders; case studies with cystic fibrosis, hemophilia, huntingtons etc.
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DNA in parentage testing.
DNA sample collection. Buccal swabs and home DNA paternity tests. Applications for newborn paternity testing, kinship and sibship analysis and criminal paternity. The paternity index, probability of paternity.
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Blood and Bloodstains.
Identification, Blood grouping. Bloodstain pattern identification. Photographic documentation of bloodstain patterns and applications of luminal and other methods of visualisation.
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Bioinformatics.
Evolutionary Concepts, Information.Resources, DNA sequence analysis, Alignment techniques, Protein sequence analysis, Phylogenetic analysis, genomics.
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Bioethics.
Issues in Bio-ethics: Animal biotechnology, human genetic testing and reproductive technologies, genetic engineering, GMOs, stem cell research. Genetic screening; genetic privacy and societal issues. Ethics as they apply to the scientist. Regulations surrounding these issues both nationally and internationally.
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Additional Special Topics of Interest.
These topics may vary from year to year depending on current developments. Case studies. Courtroom skills: Expert witness in an adversarial setting.Scientific evidence and admissibility standards; Case studies eg People versus Orenthal James Simpson.
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| Assessment Breakdown | % |
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| Continuous Assessment | 20.00% |
| Project | 20.00% |
| End of Module Formal Examination | 60.00% |
| Special Regulation |
| Students are required to achieve a minimum grade (35%) in CA/project and Final Examination |
| Continuous Assessment |
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| Assessment Type |
Assessment Description |
Outcome addressed |
% of total |
Assessment Date |
| Examination |
Formative assessment may include MCQ and/or assignments and timely feedback being given. |
1,2 |
20.00 |
n/a |
| Project |
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| Assessment Type |
Assessment Description |
Outcome addressed |
% of total |
Assessment Date |
| Project |
Individual Projects on area specific to the module will be undertaken by each student during the year. |
1,2,3 |
20.00 |
n/a |
| End of Module Formal Examination |
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| Assessment Type |
Assessment Description |
Outcome addressed |
% of total |
Assessment Date |
| Formal Exam |
Assessment will be linked with the stated learning outcomes mentioned earlier in the document. This will be a two hour terminal exam at the end of the academic year. |
1,2 |
60.00 |
End-of-Semester |
SETU Carlow Campus reserves the right to alter the nature and timings of assessment
Module Workload
| Workload: Full Time |
| Workload Type |
Frequency |
Average Weekly Learner Workload |
| Lecture |
12 Weeks per Stage |
4.00 |
| Independent Learning |
15 Weeks per Stage |
5.13 |
| Total Hours |
125.00 |
Module Delivered In
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