The Curriculum for

Cf. Uddannelsesbekendtgørelsen §§ 1-3

The Bachelor and Master’s programmes are independent research-based educational courses with a set amount of ECTS credits (European Credit Transfer System) aiming to make the student qualified to independently perform professional functions based on knowledge and practical proficiencies in several subject areas. A subject area consists of a single subject or a group of related subjects within the natural sciences. 

The aim of the Bachelors’s programme is to:

1. expand the student’s academic knowledge and proficiencies and increase the theoretical and methodical qualifications and skills with a higher level of independence compared to the Bachelor programme.
2. give the student an academic immersion through the application of advanced elements within the disciplines and methods of the subject areas, including training in scientific work and methods which will develop the student’s skills in performing specialised professional functions along with participating in work related to scientific development and,
3. qualify the student for further education, including the ph.d. programme.

The BSc and MSc programmes in Biochemistry and Molecular Biology revolve around the chemical processes that take place in the cell, between cells and between organs; processes that create the dynamics that characterise the living organism. Biochemistry is also ‘the chemistry of life’. Molecular biology describes how the genetic information contained in the genes of DNA is expressed in each cell and transferred from the original mother cell to the daughter cells during cell division. The boundary between these two scientific disciplines is no longer clearly defined because the expression of genetic information is also a biochemical process, while the biochemical reactions of the cell are regulated via gene expression. Biochemistry and molecular biology also involve fundamental parts of cell biology, genetics and microbiology. In addition, bioinformatics, which is computer-based interpretation of complex experimental data, is playing an increasingly important role. Biochemistry and molecular biology apply knowledge and methods from other scientific disciplines – especially chemistry – but biology, mathematics and physics are also necessary prerequisites for fully understanding the theory and experimental part of the subjects.

• The application of molecular biology and biomedicine in relation to the field of science
• basic insight into the key concepts of molecular biology and biochemistry 
• particular focus on experimental and practical skills, as Biochemistry and Molecular Biology is essentially an experimental discipline 
• qualifications aimed at an advanced research-based course of study

• Knowledge: This category is related to the specific programme or the specific course and covers the level of comprehension and reflection within a subject area in relation to the terms, theories, methods and scientific problems of the area. 
• Skills: This category is aimed explicitly at the performance of practical skills, professional ethics and responsibility.  
• Competences: This category entails the graduate’s personal and independent application of knowledge and skills. These competences are universal, not limited to the individual programme or course. Instead, they include skills such as analysis and abstract thinking, an attitude for learning, the ability to participate in academic and interdisciplinary collaboration, communicative skills and the graduate’s ability to acquire new knowledge and structure his/her own learning.

The educational didactic and pedagogical foundation is based on SDU’s core principles of active teaching and active learning. This is implemented in science education through a variety of teaching methods, including open work processes that support students’ learning, self-management, and initiative, ensuring high academic standards and deep learning.

Enrolment in a Bachelor’s degree programme requires a passed upper secondary education as well as fulfilment of other entry requirements. The university may decide that the applicant must pass an entrance examination. Finally, admission may require the applicant to meet language requirements and set grade requirements.

In reference with Adgangsbekendtgørelsen § 4, the specific entry requirements are:

• Danish level A
• English level B
• Mathematics level A
• As well as one of the following three subject combinations: 1) Physics B and Chemistry B, 2) Physics B and Biotechnology A, 3) Geoscience A and Chemistry B or Chemistry B, Biology A and Physics C.

The specific entry requirements must be passed with a minimum grade of 02 on average of the grades in each subject.

1. A programme of 180 ECTS with only a major subject 
2. A programme of 180 ECTS with both a major and minor subject where the major subject is worth 135 ECTS and is within the subject area of science and the minor subject is worth 45 ECTS and within the subject area of science
3. A programme of 180 ECTS with both a major and a minor subject where the major subject is worth 135 ECTS and is within the subject area of science and the minor subject is worth 45 ECTS and is within the subject area of science. Both the major and the minor subjects are taught at upper secondary school. 
4. A programme of 180 ECTS with both a major and a minor subject where the major subject is worth 135 ECTS and is within the subject area of science and the minor subject is worth 45 ECTS and is outside of the subject area of science. Both the major and the minor subjects are taught at upper secondary school.
5. A minor subject of 45 ECTS within the subject area of science and a major subject outside of the subject area of science. Both the major and the minor subjects are taught at upper secondary school.
6. An interdisciplinary elective subject of 45 ECTS within the subject area of science and a major subject outside of the subject area of science. 

• The Danish and English title of the course
• The level of the course (bachelor’s, master’s or PhD courses)
• The institute and lecturer 
• The extent of the course indicated by ECTS 
• Admission requirements
• Expected qualifications
• Purpose
• Goal description
• Contents
• Which language the course is in
• Exam form
• Teaching methods
• The dates and times of the lectures
• When the course has last been updated

The number of the course description indicate its level:

• 1XX: Master’s courses
• 2XX: PhD courses
• 5XX: Bachelor’s courses
• 8XX: Master’s courses 

• When the last lesson will be held
• When the last exams will be conducted
• Which course you should attend instead of the cancelled one
• Which exam(s) you should take instead of the cancelled one(s)
• Potential rules regarding credit transfers from expired programme regulations to the newest one
• Potential rules regarding service registration for exams
• Whether there is a risk of expulsion if the transition rules are not followed

The university may decide that students must participate in and pass a start of study exam in order to continue the programme. The purpose of the start of study exam is to clarify whether a student has actually participated in the start of the programme. The exam is internal and will be evaluated with “Approved” or “Not approved”. The start of study exam will be conducted no later than 2 months after the start of the programme and the result must be given to students no later than 2 weeks after the exam. If a student does not pass the exam, they may do a re-exam which is conducted no later than 3 months after the start of the programme. Students have 2 exam attempts to pass the start of study exam. 

The student’s qualifications are assessed at examinations. The assessment may be based on:

The university may deviate from the stipulated examination or test form in a re-examination. This does not apply, however, for Bachelor projects or Master’s theses. It may be established in the programme regulations that the reexam has another form and/or evaluation than the ordinary exam. including the criteria for when the alternative examination or test form will be used.

The university may in the programme regulations establish rules regarding the use of computers during exams.

• 1 February for the spring semester


• 1 September for the autumn semester

• Bachelor degree programme must be completed within the standardised study period + 1 year
• A 2-year Master’s degree programme must be completed within the standardised study period + ½ year
• A 2½-year Master’s degree programme must be completed within the standardised study period + ½ yea
• Master's degree for working professionals must be completed within the standardised study period + ½ year

The university shall establish rules in the curriculum regarding selection criteria for elective courses. The criteria must be academic. If it is not possible to establish academic criteria, the university may apply a lottery system.

• Uddannelsesbekendtgørelsen: Ministerial order No. 1019 of 19 September 2025 regarding university programmes scheduled as full-time studies.
• Eksamensbekendtgørelsen: Ministerial order No. 1121 of 19 September 2025 regarding exams and grading in university programmes
• Karakterbekendtgørelsen: Ministerial order No. 1125 of 4 July 2022 regarding grading scale and other forms of evaluation in educational programmes within the area of the Ministry of Higher Education and Science
• Universitetsadgangsbekendtgørelsen: Ministerial order No. 1120 of 19 September 2025 regarding admission to university degree programmes scheduled as full-time studies   
• Talentbekendtgørelsen: Ministerial order No. 911 of 19 September 2025 regarding talent initiatives within the area of the Ministry of Higher Education and Science
• Ph.d.-bekendtgørelsen: Ministerial order No. 1124 of 19 September 2025 regarding PhD programmes at universities and certain art programmes
• Meritbekendtgørelsen: Ministerial order No. 1122 of 19 September 2025 regarding decisions concerning credits for university programmes