Study programme competencies |
Code
|
Study programme competences / results
|
A8 |
Illar, analizar e identificar biomoléculas. |
A30 |
Manexar adecuadamente instrumentación científica. |
A31 |
Desenvolverse con seguridade nun laboratorio. |
B1 |
Aprender a aprender. |
B2 |
Resolver problemas de forma efectiva. |
B3 |
Aplicar un pensamento crítico, lóxico e creativo. |
B4 |
Traballar de forma autónoma con iniciativa. |
B5 |
Traballar en colaboración. |
B6 |
Organizar e planificar o traballo. |
B7 |
Comunicarse de maneira efectiva nunha contorna de traballo. |
B8 |
Sintetizar a información. |
Learning aims |
Learning outcomes |
Study programme competences / results |
Develop their ability to formulate and solve biochemical basic problems, relating the chemical and structural properties of biological molecules with their functionality. |
A8
|
B2 B3
|
|
Know the main bibliographical sources in the field of biochemistry, that allows the student to find, select and understand information. |
A8
|
B1 B8
|
|
Know the main characteristics of living matter from a molecular point of view: the main properties, chemical and structural of the biological macromolecules and the relationship between their properties and their functions. Also know the basic principles of bioenergetics and enzymology. |
A8
|
B1 B2 B3 B8
|
|
Know the main techniques for the isolation, purification and characterization of the biomolecules. |
A8 A30 A31
|
B2 B4 B5 B6 B7
|
|
Contents |
Topic |
Sub-topic |
SECTION 1. INTRODUCTION TO BIOCHEMISTRY |
1. Biochemistry, origins and evolution until the present
2. Biomolecules and Bioelements:Concept. Origins and Evolution of Biomolecules
3. Review of functional groups, chemical bonds and stereochemistry
4. Biomolecules in its aqueous environment
|
SECTIION 2. BIOCHEMISTRY METHODOLOGY |
1. General aspects of biochemistry methodology
2. Biological material used in biochemistry
3. Techniques tissue homogenate. Fractionation of cellular organelles
4. Fractional precipitation and centrifugation
5. Chromatographic techniques
6. Electrophoretic techniques
7. Dialysis and ultrafiltration
8. Radioactivity and isotopic techniques in biochemistry
9. Spectroscopic techniques |
SECTION 3. CARBOHYDRATES |
Monosaccharides
1. Concept, classification and biological importance of carbohydrates
2. Configuration, conformation and cyclic structure of monosaccharides
3. Physical and chemical properties
4. Most important derivatives: structure and function
Oligosaccharides and polysaccharides
1. Properties of the O-glycosidic bond
2. Nomenclature, classification, structure, properties and biological significance of most important oligosaccharides
3. Analysis and identification techniques
4. Polysaccharides: concept and classification
5. Most important glucans: structure and biological function
|
SECTION 4. LIPIDS |
Fatty acids, glycerides and glycerides
1. Concepts, classification and biological importance
2. Fatty Acids. General characteristics. Classification and nomenclature. Physical and chemical properties
3. Isolation and identification techniques
4. Fatty acid derivatives: Prostaglandins, thromboxanes and leukotrienes
5. Waxes. Definition, structure and biological function
6. Glycerides. Definition, structure and nomenclature. Properties and structural analysis
Phosphoglycerides and sphingolipids. Terpenes and steroids
1. Phosphoglycerides. Structure and classification. Properties and biological function
2. Sphingolipids: Phosphosphingolipids and glycosphingolipids. Structural analysis. Phospholipids and biological membranes
3. Terpenes. Structure, classification and nomenclature. Biological functions
4. Steroids. Structure, classification and nomenclature. Sterols, bile salts and steroid hormones: biological functions
Pyrrolic lipids
1. The pyrrole ring
2. Pirrolinic compounds: linear and cyclic pyrroles
3. Pyrrole compounds as members of conjugated proteins
4. Porphyrias and other pathologies |
SECTION 5. AMINOACIDS, PEPTIDES AND PROTEINS |
Amino acids: properties and purification
1. Structure, stereochemistry and classification of amino acid building blocks of proteins
2. Other amino acids
3. Physical and chemical properties of amino acids
4. Chemical reactivity of the amino acids
5. Purification and identification of amino acids
Primary structure of peptides and proteins
1. The peptide bond and its features. The amide bond. Physical and chemical properties of the peptides.
2. Nomenclature of peptides. Peptides of biological interest
3. Proteins: general characteristics. Concept. Classification criteria. Physical and chemical general properties
4. Structure levels of proteins
5. Primary structure of proteins. Concept of primary structure. Types of proteins according to their primary sequence
Secondary structure of proteins
1. Linus Pauling and Robert Corey. Concept of secondary structure
2. Alpha helix, beta sheets, and beta turns. Regions without secondary structure: Structural Features.
3. Prediction of secondary structures: Statistical methods
4. Stabilization of secondary structures
Spatial conformation of proteins
1. Concept of tertiary structure, supersecondary structure and domain
2. Stability of the three dimensional structure of proteins
3. Fibrous and globular proteins: characteristics and content in secondary and supersecondary structures and domains
4. Characteristics of protein folding
5. Quaternary structure of proteins
Protein properties. Extraction, purification and characterization
1. Physical properties. Denaturation and renaturation concepts: causes and effects. Protein absorbance at 280 nm
2. Chemical properties. Amphoteric character of proteins. Reactivity of the side chains of amino acids
3. Methods for determining protein concentrations
4. Methods of extraction, separation, purification and concentration of proteins
5. Methods for protein characterization: molecular weight, pI and number of monomers
Structural analysis of the proteins
1. Analysis of the primary structure. Analysis of amino acid composition and identification of the amino terminal residue
2. Automated sequencing of a short polypeptide: Edman degradation
3. Sequencing and automated protein synthesis
4. Localization of modified amino acid by mass spectrometry
5. Analysis of the secondary structures: circular dichroism
6. Analysis of the tertiary structure: X-ray diffraction and nuclear magnetic resonance
Conjugated proteins
1. Concept and types
2. Collagen
3. Hemeproteins: Types and structural and functional characteristics
4. Myoglobin and hemoglobin
Motor proteins and antibodies
1. Actin and myosin. General and structural characteristics
2. The Muscle contraction
3. General structure of immunoglobulins |
SECTION 6. NUCLEOTIDES AND NUCLEIC ACIDS
|
Nucleotides
1. Nucleotides: definition, composition and general structure
2. Physical and chemical properties of bases
3. Important functional groups of the bases
4. Nucleotides as structural components of nucleic acids: phosphodiester bond
5. Nucleotides with other biological functions
6. Natural modifications and mutation of the bases
Deoxyribonucleic and ribonucleic acids
1. Definition and general characteristics of nucleic acids
2. Compositional and structural differences between DNA and RNA
3. Deoxyribonucleic acids: The DNA double helix and the tertiary structures of DNA. Structural characteristics of the different types of genomes
4. DNA sequencing techniques: The Sanger method
5. Ribonucleic Acids: François Jacob and Jacques Monod: theory of the information transport from DNA to protein. Types of RNA: function and structure
Properties and characterization of DNA and RNA
1. Denaturing agents: related to the temperature and pH
2. Loss of secondary and tertiary structure of nucleic acids: consequences
3. The Tm (melting temperature) and its relation to the length and nucleotide composition of the nucleic acids
4. Kinetics and monitorization of the denaturation-renaturation process: the hyperchromic effect of the denaturation
5. Hybridization concept: formation of pure and hybrid duplexes. Techniques: Southern and Northern blot |
SECTION 7. PRINCIPLES OF BIOENERGETICS |
1. Review of the thermodynamics principles applied to biological systems
2. Concept of coupled reaction and ATP cycle
3. Energy carrier molecules
4. Electron transporter molecules
5. Acetyl groups transporter molecules |
SECTION 8. ENZYMOLOGY
|
Enzymes as biological catalysts
1. General characteristics and biological function
2. Advantages of enzymes over chemical catalysts
3. Classification of enzymes
4. Reactions catalyzed by different classes of enzymes
5. Cofactors, coenzymes and role of vitamins
6. Principal reactions where the coenzymes are involved
Action mechanisms of the enzymes
1. Role of enzymes in biological reactions and metabolism
2. Speed of reactions and activation energy
3. Enzymes from the structural viewpoint. The active site: three dimensional structure and substrate recognition capability. Side chains of amino acids and catalysis
4. Models that explain the activation energy decrease in the enzymatic reaction
5. Review of heterolithic and homolithic reactions. Nucleophilic and electrophilic reagents
6. Other molecules as biological catalysts: Antibodies as catalysts (abzymes), ribozymes, DNAzymes and Sinzymes
7. Enzymes used in clinical analysis, in the diagnostic of diseases, or as therapeutic agents |
Planning |
Methodologies / tests |
Competencies / Results |
Teaching hours (in-person & virtual) |
Student’s personal work hours |
Total hours |
Guest lecture / keynote speech |
B1 B3 B4 B6 B8 |
28 |
70 |
98 |
Laboratory practice |
A8 A30 A31 B2 B5 B7 |
15 |
3.75 |
18.75 |
Problem solving |
B1 B2 B4 B7 |
8 |
6 |
14 |
Workbook |
B1 B6 B8 |
0.25 |
1 |
1.25 |
Mixed objective/subjective test |
A8 B2 B3 B7 B8 |
2 |
10 |
12 |
|
Personalized attention |
|
6 |
0 |
6 |
|
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies |
Methodologies |
Description |
Guest lecture / keynote speech |
The topics of the course will be taught by teachers and all presentations or other documentation will be made available to students on the Moodle platform. |
Laboratory practice |
A serie of activities will be conducted in the practical laboratory, so the students will learn how to handle basic scientific instrumental in Biochemistry and Molecular Biology.
|
Problem solving |
In Moodle, the students will have a serie of questionnaires, tests practical problems to be solve individually as part of the continuous evaluation. Previously some of them will be solved in the seminar classes that will help the students to understand them.
|
Workbook |
In each subject and/or thematic block the students will be recommended with a series of basic bibliographic readings, which they must consult previously of the Master Class, in order to encourage an active participation of the student.
|
Mixed objective/subjective test |
Written test used for the assessment of learning, whose distinctive trait is the ability to determine whether the answers are correct or not. It is a measuring instrument rigorously developed, designed to measure knowledge, skills, abilities, performance, skills, attitudes, intelligence, etc. It applies to both the diagnostic, formative and summative assessment.
The objective test can combine different types of questions: multiple choice questions, ordering, short answer, discrimination, complete and/or association. It can also contain a single type of any of these questions.
|
Personalized attention |
Methodologies
|
Problem solving |
Laboratory practice |
|
Description |
All the students would be orientated to resolve the problems and the practical cases.
The schedule for the Tutoring hours would be specificated at the begining of the course. The students can also solicitated a previous appointment to answer any question by e-mail. |
|
Assessment |
Methodologies
|
Competencies / Results |
Description
|
Qualification
|
Mixed objective/subjective test |
A8 B2 B3 B7 B8 |
Evaluation of the Theoretical knowledge (test, definitions, related issues).
|
40 |
Problem solving |
B1 B2 B4 B7 |
Evaluation of the resolution of practical cases. |
40 |
Laboratory practice |
A8 A30 A31 B2 B5 B7 |
The practical classes at the laboratory will be considered as an MANDATORY assistance for passing the subject.
The evaluation will consist of an objective test which will be included: specific practical cases related to the tests with Biomolecules, the use of different techniques and methods to quantify and identify these, as well as the management of the equipment used during the various practices.
They will be evaluated also the ability to graph data, interpretation of results, also their discussion, which will be the necessary condition to use a correct scientific language. |
20 |
|
Assessment comments |
1st OPPORTUNITY QUALIFICATION (JUNE)
A.-To overcome this subject it will be necessary to achieve, at least, 45 out of 100 of the points in each of the assessable activities: Objective Test, Problem solving and Laboratory practice. Otherwise the three activities cannot be compensated among them.
B.-HONOURS (Matrícula de Honor): The highest mark available and awarded will be only for those students who have demonstrated an excellent performance in the 1st Opportunity (June)
2nd OPPORTUNITY QUALIFICATION (JULY)
A.- Again, the students are required to obtain a final grade of at least 45 out of 100 in each of the three activities to pass this subject.
B.- Laboratory practical classes are compulsory. Those students who do not carry out ALL laboratory practices, and do not present a proper justification, will not overcome the subject.
Final Qualification Records (QRs)
QRs will be the sum of the points achieved in the three assessable activities in both (June and July) opportunities. In those cases in which any of the three activities 45% of the points are not achieved, the Final QRs will be the score of the Objective Test.
Consideration of Not Presented (NP) or “No Show”:
1st Opportunity (June): Those students that do not take the objective test in the official exam will be considered as NP.
2nd Opportunity (July): NP will be applicable to those students that do not take ANY of the parts in the official exam.
Exceptional cases: Exceptionally, in the case of a student that for duly justified reasons cannot take any of the tests of continuous assessment, the Professor will adopt the appropriate decisions for this purpose.
|
Sources of information |
Basic
|
Mathews CK, Van Holde KE, Appling DR y Anthony-Cahill SJ (2013). Bioquímica, 4ª ed.. Ed. Pearson
Stryer, L., Berg, J.M. y Tymoczko, J.L. (2013). Bioquímica, 7ª ed.. Ed. Reverté
Feduchi, E., Blasco, I., Romero, C.S. y Yáñez, E. (2010). Bioquímica. Conceptos esenciales. 1ª ed.. Editorial Médica Panamericana
Albert L. Lehninger, David L. Nelson, Michael M. Cox. (2001). Lehninger Principios de Bioquímica. 3ª ed. . Ed. Omega |
|
Complementary
|
Voet, D. y Voet, J.G. (1992). Bioquímica.. Ed. Omega
Segel, I.H. (1982). Cálculos de Bioquímica. 2ª ed.. Ed. Acribia.
Smith, C. A. y Wood, E. J. (1997). Moléculas biológicas. . Ed. Addison-Wesley Iberoamericana.
Schmid, G.H. (1988). Química Biológica. Las bases químicas de la vida.. Ed. Interamericana/McGraw-Hill |
Recursos web: |
Biomodel: Modelos moleculares en movimiento e interactivos que, junto con texto explicativo, ilustran la estructura tridimensional de las biomoléculas.
Autor: Ángel Herráez Sánchez Estructura de macromoléculas: Modelo interactivo para profundizar en las estructuras macromoleculares: desde un enlace peptídico hasta una membrana biológica.
Autor: Jesús M. Sanz Aula Virtual de Biomoléculas: Herramientas para conocer mejor las biomoléculas.
Autor: José Luis Urdiales Ruiz
Cibertexto de Biomoléculas: Un curso completo de la estructura de las biomoléculas (glúcidos, lípidos, proteínas y ácidos nucleicos) con la posibilidad de autoevaluarse.
Autor: Juan Manuel González Mañas MATERIALES MULTIMEDIA Y
BIOMOLÉCULAS: Material docente para el primer, segundo y tercer ciclo
Autores: Pilar Roca, Jordi Oliver y Sergio Rodríguez
Enlaces: Colección de enlaces sobre Bioquímica y Biología Molecular en español y otros idiomas en el mundo.
Recopilador: Ángel Herráez Sánchez |
Outros materiais de apoio: |
Materiales disponibles en la página web de la asignatura.
CD-Rom: BioROM 2011 Ayudas al aprendizaje de la Bioquímica, Biotecnología y Biología Molecular | |
Recommendations |
Subjects that it is recommended to have taken before |
Chemistry/610G02001 | Mathematics/610G02003 | Biology: Basic Levels of Organisation of Life I (Cells)/610G02007 |
|
Subjects that are recommended to be taken simultaneously |
Physics/610G02002 | Statistics/610G02005 | Biology: Basic Levels of Organisation of Life II (Tissues)/610G02008 |
|
Subjects that continue the syllabus |
Biochemistry II/610G02012 | Biochemistry and Molecular Biology/610G02013 | Biochemical Foundations of Biotechnology/610G02014 |
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