Cynlluniau Astudio

Genetics and Biochemistry (with integrated year in industry)


1 : Awarding Institution / Body
Aberystwyth University


2a : Teaching Institution / University
Aberystwyth University


2b : Work-based learning (where appropriate)


Information provided by Department of Life Sciences
-

With Integrated Year in Industry



3a : Programme accredited by
Aberystwyth University


3b : Programme approved by
Aberystwyth University


4 : Final Award
Bachelor of Science


5 : Programme title
Genetics and Biochemistry (with integrated year in industry)


6 : UCAS code
CC48


7 : QAA Subject Benchmark


Information provided by Department of Life Sciences
-

Biosciences



8 : Date of publication


Information provided by Department of Life Sciences
-

August 2024



9 : Educational aims of the programme


Information provided by Department of Life Sciences
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To provide students with subject specific knowledge required for research careers in the fields of genetics and/or biochemistry.

Subject specific skills.

To provide students with subject specific skills required for research careers in the field of biochemistry and/or genetics.

Generic and graduate skills.

To provide students with the generic and graduate skills expected of any degree programme.

Develop creativity.

Students will be able to demonstrate additional outcomes as a result of undertaking the year in industry. These additional outcomes provide an enhanced student experience and allow students to develop knowledge of their subject areas in applied contexts and to develop work experience and thus enhance their employability. Specifically, the proposed degree aims to advantage students in the following additional ways:

• To apply approaches, concepts, skills, methods and/or theories in a work-based context relevant to their scheme.

• To develop highly valued transferable and professional skills during a work placement, providing a competitive edge in the graduate job market.

• To enable students to learn about an organization and its area of work, providing an excellent opportunity to evaluate future career paths.

Subject specific skills (with Integrated Year in Industry)

The Subject specific skills of the schemes will not change. Nevertheless, on the completion of their degree, students on the four year version of the scheme will have gained a valuable insight in to a field of employment relating to their subject area in the biological sciences, developing the associated skills and enhancing their employability / networking / establishing industry links.

Generic and graduate skills (with Integrated Year in Industry)

The generic and graduate skills of the schemes will not change. However, the four year version of the scheme ‘with a year in Industry’ will likely develop the skills listed below, though the nature and emphasis will depend on the exact employment; not all of these will be assessed, though most are likely to form part of the employer’s assessment of the student:

• Working independently

• Working as part of a team

• Respecting the views, beliefs, opinions and values of others

• Listening to, and engaging with, other speakers

• Effective verbal communication in a range of settings, including group discussions and debates and formal presentations

• Effective written communication in a variety of forms

• Time management and self-regulation of work regimes

• Research issues and solve problems

• Adapting to change

• Reading comprehension and interpretation of a range of written material

• Observational skills

• Collating, processing, interpreting and presenting numerical data

• Identifying appropriate career pathways and developing the capacity to compete.



10 : Intended learning outcomes


Information provided by Department of Life Sciences
-

To enable graduating students to practice as professional biochemists and/or geneticists. Additionally, the four year version of the scheme will aim to develop graduate level skills, as described in the Generic and Graduate level skills section above.



10.1 : Knowledge and understanding


Information provided by Department of Life Sciences
-

A1 Describe, discuss and understand the key biological concepts and phenomena relevant to Genetics & Biochemistry confidently, accurately and in detail, using appropriate terminology.

A2 Be aware of the full breadth of the Biosciences, from molecular to cellular, and from organism to ecosystem.

A3 Engage with literature in Genetics & Biochemistry to develop insight into the subject.

A4 Appreciate the contribution of Biosciences to the innovations that characterise the modern world, and the potential of Biosciences graduates from this field to develop sustainable solutions to current and future challenges.

A5 Stay up to date with advances in Genetics & Biochemistry, including aspects of sustainability, and appreciate the fluid nature of knowledge that evolves as new findings emerge.

Learning and Teaching
Student development towards these outcomes is promoted through a range of teaching activities. These include: small group tutorials, laboratory practical classes, one-to-one tutoring for the research project, lectures and problem-based learning scenarios. Additionally, feedback from assessments, literature-based research and computer-assisted learning also support the teaching and learning of these outcomes.

During their integrated year in industry students will embed themselves within a working environment, allowing for the development of a range of transferable and life skills commensurate with the above. Furthermore, students on this scheme will have the potential to utilise the knowledge and skills associated with other outcomes developed in years 1 and 2. This will be in part dependent on the nature of the organisation in which their position is based.

Assessment Strategies and Methods
Written examinations and coursework to include: Unseen examination, essays, multiple choice questions and short answer examinations, exercise-based and essay assignments, project work, practical laboratory reports, posters, the dissertation project and presentations.

Students on the integrated industrial year will be required to register for the module BRS0060. During the integrated Year in Industry, students will be required to submit an Introductory Report (worth 30% of the Industrial Year mark) on the organisation that they are working for, its structure, aims and operation; and a Workplace investigation, to investigate a technical aspect of the work that they are doing (worth 40% of the Industrial Year mark). Finally, there will be an AU staff assessment of the final student self-evaluation and employer’s report. These will be marked to assess the student’s achievement of learning outcome 10.1 above as well as the other learning outcomes of their scheme.



10.2 : Skills and other attributes


Information provided by Department of Life Sciences
-

10.2.1 Intellectual Skills

By the end of their programme, all students are expected to be able to:

B1 Recognise the relationships and interfaces between Genetics & Biochemistry and other subjects (both scientific and outside of the sciences), such that they are able to operate effectively in a multidisciplinary environment.

B2 Apply ethical awareness to working in the Biosciences, appreciate the historical context of the subject and the societal impacts of advances in the Biosciences.

B3 Demonstrate experience of working in a professional environment.

Learning and Teaching
Student development towards these outcomes is promoted through a range of teaching activities. These include: small group tutorials, laboratory practical classes, one-to-one tutoring for the dissertation project, lectures and problem-based learning scenarios. Additionally, feedback from assessments, literature based research and computer-assisted learning also support the teaching and learning of these outcomes.

Assessment Strategies and Methods
Intellectual skills are assessed by a variety of methods throughout the degree scheme. Depending upon the module and the nature of the specific assessment, they are assessed using essay assignments, project work, practical laboratory reports, the research project, presentations, seen examination essays, unseen examinations essays and unseen short answer examinations.

10.2.2 Professional practical skills / Discipline Specific Skills

By the end of their programme, all students are expected to be able to:

C1 Apply knowledge and understanding of biological systems and methodologies to design experiments and to solve theoretical and practical problems within the area of genetics & biochemistry, with awareness of appropriate controls, possible bias, ethics and sustainability.

C2 Describe, document and enact safe working practices in terms of managing biological, chemical, laboratory or field-based risk, through knowledge-based risk assessments and practical activities.

C3 Select and carry out appropriate quantitative and qualitative practical (laboratory, field or computational) techniques to solve problems relevant to the Genetics & Biochemistry, including consideration of the theoretical basis and limitations of various techniques.

C4 Complete independent open-ended investigative work through a project/research-based assignment relevant to the course. This could be a laboratory or field-based project, an evidenced-based review, and/or collecting and evaluating data from a variety of sources.

C5 Collect qualitative and quantitative data from investigations relevant to the course and analyse and interpret these data to allow testing of hypotheses, contextualising of findings, presentation of findings, and suggestions for further lines of investigation.

C6 Applying principles, methods, approaches, concepts, skills and/or theories appropriate to the relevant biological sciences scheme in a professional context, as well as understanding the challenges of working in a professional environment.

Learning and Teaching
The teaching and learning of these skills are promoted during laboratory practical classes, small group tutorial classes, feedback from assessments, lectures, tutorials, student-led seminars, problem-based learning scenarios and case studies, literature-based research, computer-assisted learning and experimental research during the dissertation.

Assessment Strategies and Methods
Discipline-specific skills are assessed by a variety of methods throughout the degree scheme. Depending upon the module and the nature of the specific assessment, they are assessed using essay assignments, project work, practical laboratory reports, the dissertation project, seminar presentations, seen examination essays, unseen examinations essays and unseen short answer examinations.



10.3 : Transferable/Key skills


Information provided by Department of Life Sciences
-

By the end of their programme, all students are expected to be able to:

D1 Acquire skills in research and data analysis.

D2 Deploy mathematical and statistical concepts, processes and tools, such as the manipulation of equations and graphical and statistical analysis, to solve problems or evaluate data.

D3 Develop problem-solving and creative thinking skills.

D4 Develop a thorough grounding in information technology skills and use appropriate databases, computational techniques and tools to aid further understanding of and insight into biological processes.

D5 Demonstrate the ability to work independently.

D6 Demonstrate time-management and organisational skills, including the ability to meet deadlines.

D7 Develop the ability to express ideas and communicate effectively, in both written and oral forms, selecting appropriate content, media and methods for the audience, purpose and subject.

D8 Demonstrate self-motivation and self-reliance.

D9 Collaborate and work successfully and inclusively in a group environment, contributing positively and flexibly to team outputs.

D10 Act professionally, with due regard for legal, ethical and societal responsibilities, modelling good practice that promotes positive, sustainable and inclusive perceptions of the Biosciences and of Bioscientists.

D11 Demonstrate professionalism and an understanding of commercial pressures.

Learning and Teaching
Transferable/key skills are incorporated within modules and related to relevant assessments as appropriate. Students learn and develop skills through student and tutor-led seminars; problem-based learning scenarios; self-directed learning, oral presentations and experimental dissertation work. Students will be encouraged to undertake work experience, including access to the Year in Employment Scheme. Students will also have access to an optional study exchange programme which will also develop transferable skills of communication, personal development and career planning.

Assessment Strategies and Methods
The skills listed above are assessed using exercise-based and essay assignments, project work, practical laboratory reports, the dissertation project, seminar presentations, unseen examinations essays and unseen short answer examinations.



11 : Program Structures and requirements, levels, modules, credits and awards




BSC Genetics and Biochemistry (with integrated year in industry) [CC48]

Blwyddyn Academaidd: 2024/2025Cynllun Anrhydedd Sengl - ar gael ers 2017/2018

Hyd (astudio Llawn Amser): 4 blwyddyn

Rheolau Rhan 1

Blwyddyn 1 Craidd (120 Credyd)

Compulsory module(s).

Semester 1
BR16700

Comparative Animal Physiology

BR16800

Skills for Biologists

BR17120

Genetics, Evolution and Diversity

BR17520

Cell Biology

Semester 2
BR16720

Comparative Animal Physiology

BR16820

Skills for Biologists

BR17320

Biological chemistry

BR19920

Microbial and Plant Diversity

Rheolau Rhan 2

Blwyddyn 2 Craidd (120 Credyd)

Compulsory module(s).

Semester 1
BR20620

Applied Molecular Biology and Bioinformatics

BR26620

Proteins and Enzymes

BR27500

Research Methods

Semester 2
BR21820

Chromosome Dynamics

BR22920

Practical Skills for Biochemists

BR25920

Cell and Cancer Biology

BR27520

Research Methods

Blwyddyn 3 Craidd (120 Credyd)

Compulsory module(s).

Semester 1
BRS0000

Integrated Year in Industry

BRS0100

Integrated Year in Industry

Semester 2
BRS0060

Integrated Year in Industry

BRS0160

Integrated Year in Industry

Blwyddyn Olaf Craidd (100 Credyd)

Compulsory module(s).

Semester 1
BR36400

Research Project

BR37120

Bioinformatics and Functional Genomics

Semester 2
BR35520

Biotechnology

BR36020

Molecular Biology of Development

BR36440

Research Project

Blwyddyn Olaf Opsiynau

Semester 1
BR35820

Frontiers in Plant Science

BR36120

Molecular Pharmacology

Semester 2

12 : Support for students and their learning
Every student is allocated a Personal Tutor. Personal Tutors have an important role within the overall framework for supporting students and their personal development at the University. The role is crucial in helping students to identify where they might find support, how and where to seek advice and how to approach support to maximise their student experience. Further support for students and their learning is provided by Information Services and Student Support and Careers Services.


13 : Entry Requirements
Details of entry requirements for the scheme can be found at http://courses.aber.ac.uk


14 : Methods for evaluating and improving the quality and standards of teaching and learning
All taught study schemes are subject to annual monitoring and periodic review, which provide the University with assurance that schemes are meeting their aims, and also identify areas of good practice and disseminate this information in order to enhance the provision.


15 : Regulation of Assessment
Academic Regulations are published as Appendix 2 of the Academic Quality Handbook: https://www.aber.ac.uk/en/aqro/handbook/app-2/.


15.1 : External Examiners
External Examiners fulfill an essential part of the University’s Quality Assurance. Annual reports by External Examiners are considered by Faculties and Academic Board at university level.


16 : Indicators of quality and standards
The Department Quality Audit questionnaire serves as a checklist about the current requirements of the University’s Academic Quality Handbook. The periodic Department Reviews provide an opportunity to evaluate the effectiveness of quality assurance processes and for the University to assure itself that management of quality and standards which are the responsibility of the University as a whole are being delivered successfully.