The aim of the study program is to train graduates capable of understanding and analyzing biological phenomena with an interdisciplinary perspective aimed at technology transfer, product creation, and integrated management of production processes, while respecting regulations and addressing bioethical, deontological, and intellectual property issues related to these activities.
Students will thus acquire basic skills in mathematical, chemical, and physical disciplines, as well as specific competencies in biotechnological fields that are typically multidisciplinary, ranging from molecular, cellular, bioinformatic, ethical-legal, chemical-pharmaceutical, to medical-healthcare areas.
Overview of the program
- VEGETAL AND ANIMAL CELL BIOLOGY 9 CFU - 72 hours 1st semester
- GENERAL CHEMISTRY AND LAB 9 CFU - 84 hours 1st semester
- ORGANIC CHEMISTRY AND LAB 9 CFU - 84 hours 2nd semester
- EXPERIMENTAL PHYSICS 6 CFU - 52 hours 2nd semester
- GENETICS 9 CFU - 72 hours 2nd semester
- ENGLISH LANGUAGE 3 CFU - 24 hours 2nd semester
- MATHEMATICS AND STATISTICS 12 CFU - 100 hours Annual
- BIOCHEMISTRY 9 CFU - 72 hours
- MOLECULAR BIOLOGY 9 CFU - 72 hours
- BIOTECHNOLOGIES AND LAW OF THE EUROPEAN UNION 6 CFU - 48 hours
- ORGANIC CHEMISTRY OF BIOMOLECOLS 6 CFU - 48 hours
- GENETIC ENGINEERING 6 CFU - 48 hours
- GENERAL MICROBIOLOGY 6 CFU - 48 hours
- BIOINFORMATIC PRINCIPLES AND OMICH METHODOLOGY 6 CFU - 56 hours
- SPECTROSCOPIC AND SPECTROMETRIC TECHNIQUES 6 CFU - 48 hours
- DEVELOPMENTAL AND STEM CELL BIOLOGY 6 CFU - 48 hours
- PLANT MOLECULAR BIOLOGY AND LABORATORY 6 CFU - 60 hours
- GENERAL AND APPLIED ENZYMOLOGY AND LABORATORY 6 CFU - 60 hours
- DEGREE THESIS TRAINING 6 CFU - 150 hours
- INTEGRATED LABORATORY OF MOLECULAR BIOTECHNOLOGIES 12 CFU - 144 hours
- BIOTECHNOLOGICAL MICRORGANISMS 6 CFU - 48 hours
- FINAL EXAM 6 CFU - 0 hours
- ANALYSIS OF THE BIOTECHNOLOGICAL DRUGS AND LAB 6 CFU - 52 hours
- ANATOMY AND HISTOLOGY 6 CFU - 48 hours
- BIOSTATISTICS AND METHODOLOGY OF RESEARCH 6 CFU - 48 hours
- BIOINORGANIC CHEMISTRY 6 CFU - 48 hours
- PHARMACOLOGICAL THERAPY ELEMENTS 6 CFU - 48 hours
- PHARMACEUTICAL TECHNOLOGICAL ELEMENTS 6 CFU - 48 hours
- IMMUNOLOGY AND LABORATORY 6 CFU - 60 hours
- MACROMOLECULES AND BIOTECHNOLOGIES 6 CFU - 48 hours
- DIAGNOSTIC METHODOLOGY IN CLINICAL MICROBIOLOGY 6 CFU - 48 hours
- MOLECULAR DIAGNOSTIC METHODOLOGY 6 CFU - 48 hours
- LABORATORY OF BIOTECHNOLOGICAL APPROACHES TO THE STUDY OF EMOPOIESI 9 CFU - 108 hours
- BIOCATALY LABORATORY 9 CFU - 108 hours
- LABORATORY OF BIOCHEMISTRY 9 CFU - 108 hours
- DEVELOPMENT BIOLOGY LABORATORY AND STAMINAL CELLS 9 CFU - 108 hours
- LABORATORY OF MOLECULAR BIOLOGY 9 CFU - 108 hours
- PHARMACOLOGICAL BIOTECHNOLOGY 9 CFU - 108 hours
- BIOANALITICAL CHYMICS LABORATORY 9 CFU - 108 hours
- LABORATORY OF BIOINORGANIC CHEMISTRY 9 CFU - 108 hours
- BIOORGANIC CHIMICAL LABORATORY 9 CFU - 108 hours
- LABORATORY OF PHYSICAL CHEMISTRY 9 CFU - 108 hours
- LABORATORY OF CITOLOGY AND HISTOLOGY EXPERIMENTAL 9 CFU - 108 hours
- PHARMACOLOGY AND TOXICOLOGY LAB 9 CFU - 108 hours
- LABORATORY OF PHYSIOLOGY 9 CFU - 108 hours
- LABORATORY OF PLANT PHYSIOLOGY 9 CFU - 108 hours
- LABORATORY OF GENETICS 9 CFU - 108 hours
- MEDICAL GENETICS LABORATORY 9 CFU - 108 hours
- LABORATORY OF MOLECULAR DIAGNOSTIC METHODOLOGY 9 CFU - 108 hours
- LABORATORY OF MICROBIOLOGY 9 CFU - 108 hours
- CLINICAL MICROBIOLOGY LABORATORY 9 CFU - 108 hours
- TECHNOLOGICAL PHARMACEUTICAL LAB 9 CFU - 108 hours
- VEGETAL AND ANIMAL CELL BIOLOGY 9 CFU - 72 hours 1st semester
- GENERAL CHEMISTRY AND LAB 9 CFU - 84 hours 1st semester
- ORGANIC CHEMISTRY AND LAB 9 CFU - 84 hours 2nd semester
- EXPERIMENTAL PHYSICS 6 CFU - 52 hours 2nd semester
- GENETICS 9 CFU - 72 hours 2nd semester
- ENGLISH LANGUAGE 3 CFU - 24 hours 2nd semester
- MATHEMATICS AND STATISTICS 12 CFU - 100 hours Annual
- BIOCHEMISTRY 9 CFU - 72 hours
- MOLECULAR BIOLOGY 9 CFU - 72 hours
- BIOTECHNOLOGIES AND LAW OF THE EUROPEAN UNION 6 CFU - 48 hours
- ORGANIC CHEMISTRY OF BIOMOLECOLS 6 CFU - 48 hours
- GENETIC ENGINEERING 6 CFU - 48 hours
- GENERAL MICROBIOLOGY 6 CFU - 48 hours
- BIOINFORMATIC PRINCIPLES AND OMICH METHODOLOGY 6 CFU - 56 hours
- SPECTROSCOPIC AND SPECTROMETRIC TECHNIQUES 6 CFU - 48 hours
- CHEMISTRY OF MOLECULAR RECOGNITION 6 CFU - 48 hours
- PHYSICAL CHEMISTRY AND BIOPHYSICAL ASSAYS 6 CFU - 48 hours
- CELLULAR AND MOLECULAR PHARMACOLOGY 6 CFU - 48 hours
- DEGREE THESIS TRAINING 6 CFU - 150 hours
- INTEGRATED LABORATORY OF PHARMACEUTICAL BIOTECHNOLOGIES 12 CFU - 144 hours
- NANOMATERIALS AND PHARMACEUTICAL APPLICATIONS 6 CFU - 48 hours
- FINAL EXAM 6 CFU - 0 hours
- ANALYSIS OF THE BIOTECHNOLOGICAL DRUGS AND LAB 6 CFU - 52 hours
- ANATOMY AND HISTOLOGY 6 CFU - 48 hours
- BIOSTATISTICS AND METHODOLOGY OF RESEARCH 6 CFU - 48 hours
- BIOINORGANIC CHEMISTRY 6 CFU - 48 hours
- PHARMACOLOGICAL THERAPY ELEMENTS 6 CFU - 48 hours
- PHARMACEUTICAL TECHNOLOGICAL ELEMENTS 6 CFU - 48 hours
- IMMUNOLOGY AND LABORATORY 6 CFU - 60 hours
- MACROMOLECULES AND BIOTECHNOLOGIES 6 CFU - 48 hours
- DIAGNOSTIC METHODOLOGY IN CLINICAL MICROBIOLOGY 6 CFU - 48 hours
- MOLECULAR DIAGNOSTIC METHODOLOGY 6 CFU - 48 hours
- LABORATORY OF BIOTECHNOLOGICAL APPROACHES TO THE STUDY OF EMOPOIESI 9 CFU - 108 hours
- BIOCATALY LABORATORY 9 CFU - 108 hours
- LABORATORY OF BIOCHEMISTRY 9 CFU - 108 hours
- DEVELOPMENT BIOLOGY LABORATORY AND STAMINAL CELLS 9 CFU - 108 hours
- LABORATORY OF MOLECULAR BIOLOGY 9 CFU - 108 hours
- PHARMACOLOGICAL BIOTECHNOLOGY 9 CFU - 108 hours
- BIOANALITICAL CHYMICS LABORATORY 9 CFU - 108 hours
- LABORATORY OF BIOINORGANIC CHEMISTRY 9 CFU - 108 hours
- BIOORGANIC CHIMICAL LABORATORY 9 CFU - 108 hours
- LABORATORY OF PHYSICAL CHEMISTRY 9 CFU - 108 hours
- LABORATORY OF CITOLOGY AND HISTOLOGY EXPERIMENTAL 9 CFU - 108 hours
- PHARMACOLOGY AND TOXICOLOGY LAB 9 CFU - 108 hours
- LABORATORY OF PHYSIOLOGY 9 CFU - 108 hours
- LABORATORY OF PLANT PHYSIOLOGY 9 CFU - 108 hours
- LABORATORY OF GENETICS 9 CFU - 108 hours
- MEDICAL GENETICS LABORATORY 9 CFU - 108 hours
- LABORATORY OF MOLECULAR DIAGNOSTIC METHODOLOGY 9 CFU - 108 hours
- LABORATORY OF MICROBIOLOGY 9 CFU - 108 hours
- CLINICAL MICROBIOLOGY LABORATORY 9 CFU - 108 hours
- TECHNOLOGICAL PHARMACEUTICAL LAB 9 CFU - 108 hours
- VEGETAL AND ANIMAL CELL BIOLOGY 9 CFU - 72 hours 1st semester
- GENERAL CHEMISTRY AND LAB 9 CFU - 84 hours 1st semester
- ORGANIC CHEMISTRY AND LAB 9 CFU - 84 hours 2nd semester
- EXPERIMENTAL PHYSICS 6 CFU - 52 hours 2nd semester
- GENETICS 9 CFU - 72 hours 2nd semester
- ENGLISH LANGUAGE 3 CFU - 24 hours 2nd semester
- MATHEMATICS AND STATISTICS 12 CFU - 100 hours Annual
- BIOCHEMISTRY 9 CFU - 72 hours
- MOLECULAR BIOLOGY 9 CFU - 72 hours
- BIOTECHNOLOGIES AND LAW OF THE EUROPEAN UNION 6 CFU - 48 hours
- ORGANIC CHEMISTRY OF BIOMOLECOLS 6 CFU - 48 hours
- GENETIC ENGINEERING 6 CFU - 48 hours
- GENERAL MICROBIOLOGY 6 CFU - 48 hours
- BIOINFORMATIC PRINCIPLES AND OMICH METHODOLOGY 6 CFU - 56 hours
- SPECTROSCOPIC AND SPECTROMETRIC TECHNIQUES 6 CFU - 48 hours
- CLINICAL BIOCHEMISTRY AND BIOMARCATORS 6 CFU - 48 hours
- PHYSIOLOGY 6 CFU - 48 hours
- MEDICAL GENETICS 6 CFU - 48 hours
- IMMUNOLOGY, MEDICAL MICROBIOLOGY AND VIROLOGY 6 CFU - 48 hours
- DEGREE THESIS TRAINING 6 CFU - 150 hours
- INTEGRATE LABORATORY OF MEDICAL BIOTECHNOLOGY 12 CFU - 144 hours
- FINAL EXAM 6 CFU - 0 hours
- ANALYSIS OF THE BIOTECHNOLOGICAL DRUGS AND LAB 6 CFU - 52 hours
- ANATOMY AND HISTOLOGY 6 CFU - 48 hours
- BIOSTATISTICS AND METHODOLOGY OF RESEARCH 6 CFU - 48 hours
- BIOINORGANIC CHEMISTRY 6 CFU - 48 hours
- PHARMACOLOGICAL THERAPY ELEMENTS 6 CFU - 48 hours
- PHARMACEUTICAL TECHNOLOGICAL ELEMENTS 6 CFU - 48 hours
- IMMUNOLOGY AND LABORATORY 6 CFU - 60 hours
- MACROMOLECULES AND BIOTECHNOLOGIES 6 CFU - 48 hours
- DIAGNOSTIC METHODOLOGY IN CLINICAL MICROBIOLOGY 6 CFU - 48 hours
- MOLECULAR DIAGNOSTIC METHODOLOGY 6 CFU - 48 hours
- LABORATORY OF BIOTECHNOLOGICAL APPROACHES TO THE STUDY OF EMOPOIESI 9 CFU - 108 hours
- BIOCATALY LABORATORY 9 CFU - 108 hours
- LABORATORY OF BIOCHEMISTRY 9 CFU - 108 hours
- DEVELOPMENT BIOLOGY LABORATORY AND STAMINAL CELLS 9 CFU - 108 hours
- LABORATORY OF MOLECULAR BIOLOGY 9 CFU - 108 hours
- PHARMACOLOGICAL BIOTECHNOLOGY 9 CFU - 108 hours
- BIOANALITICAL CHYMICS LABORATORY 9 CFU - 108 hours
- LABORATORY OF BIOINORGANIC CHEMISTRY 9 CFU - 108 hours
- BIOORGANIC CHIMICAL LABORATORY 9 CFU - 108 hours
- LABORATORY OF PHYSICAL CHEMISTRY 9 CFU - 108 hours
- LABORATORY OF CITOLOGY AND HISTOLOGY EXPERIMENTAL 9 CFU - 108 hours
- PHARMACOLOGY AND TOXICOLOGY LAB 9 CFU - 108 hours
- LABORATORY OF PHYSIOLOGY 9 CFU - 108 hours
- LABORATORY OF PLANT PHYSIOLOGY 9 CFU - 108 hours
- LABORATORY OF GENETICS 9 CFU - 108 hours
- MEDICAL GENETICS LABORATORY 9 CFU - 108 hours
- LABORATORY OF MOLECULAR DIAGNOSTIC METHODOLOGY 9 CFU - 108 hours
- LABORATORY OF MICROBIOLOGY 9 CFU - 108 hours
- CLINICAL MICROBIOLOGY LABORATORY 9 CFU - 108 hours
- TECHNOLOGICAL PHARMACEUTICAL LAB 9 CFU - 108 hours
Educational goals
This proposal for a course of study aims at producing graduates with a good basic knowledge of the molecular mechanisms of living systems and with the ability to autonomously implement application protocols aimed at using living organisms (cells, tissues and multi-cell organisms) to achieve results that are not attainable with traditional techniques. Given the numerous and highly diversified applications of Biotechnology, to facilitate entry to the various employment areas it is important to offer the student a core of basic knowledge to better understand the scientific method thanks to the study of mathematics, physics, chemistry and biology. This initial academic stage will be followed by appropriately balanced teachings in the various scientific-disciplinary fields that integrate the basic training by proposing insights at the molecular, cellular and multicellular levels in the biological, chemical-pharmaceutical and biomedical areas typical to Biotechnology. In fact, the aim is to transmit to the student both specific knowledge and tools for experimental operations applied to the analysis and use – including targeted modifications – of organisms, cellular systems or their components, aimed at the production of goods and services, with the aid of competences in communication management and regulatory, deontological and bioethical issues. To this end, the course of study can be composed of specific training courses, whose details will be better defined by the Course Regulations, which will examine more deeply the biomolecular aspects of the biotechnologies applied to basic and industrial research, as well as those related to research and activities in the chemical-pharmaceutical and biomedical sectors. The course has a strong technical-methodological imprint. The teaching methods involve conventional classroom lessons, lab sessions and practicals, along with several practical lab courses over the three-year period. The students will complete the curriculum with integrated multidisciplinary activities, some also practical in nature, in order to acquire diversified methodological and experimental competences with a view toward professional possibilities in the field of biotechnology in general and in the biomedical, chemical-pharmaceutical, industrial and agro-alimentary sectors, or toward the continuation of studies. The integration of basic and methodological knowledge will be assessed in the final test, which will verify the student’s capacity for synthesis and his or her degree of autonomy in studying the theoretical bases of the applied methodologies.
Career opportunities
The Biotechnology graduate will be able to perform professional roles and immediately enter the job market. Thanks to an interdisciplinary training, the graduate in Biotechnology can work both individually and in working contexts that involve the interaction with groups composed of personnel with different skills and training. The graduate in Biotechnology can find employment in the planning, production and analysis of products and in quality control procedures. Employment Opportunities: There are many employment opportunities available in the region owing to the considerable concentration of research laboratories and structures and academic and non-academic institutions, the expansion of research and analysis activities of the PMI in the chemical, chemical-pharmaceutical, agro-alimentary fields, and activities connected to advanced biological technology for bioremediation, the disposal of polluting waste, and the use of biomasses. Typically, such structures fall under the following categories: research centers and companies for the development of biotechnological products and services in the biomedical, bioengineering, chemical-pharmaceutical, nutraceutical-cosmetological, zootechnical-veterinary, agri-food and environmental protection sectors; SSN structures, hospitals, Experimental Zooprophylactic Institutes; specialized public and private clinical analysis laboratories; universities and public and private research bodies; entities that develop sanitary or patent regulations concerning the exploitation of biotechnological processes and products.
Admission requirements
To be admitted to the study program, students must have a high school diploma required by current regulations or another equivalent qualification obtained abroad, recognized as suitable by the competent authorities of the University. Admission requires adequate initial preparation at the high school level, particularly demonstrating the acquisition of logical-deductive reasoning skills suitable for solving simple problems. The methods for assessing the adequacy of initial preparation and remedying any gaps and educational deficits of the student (to be addressed in any case within the first year of studies) are governed by the Didactic Regulations of the study program.