Coordination: | Marta Llovera (marta.llovera@cmb.udl.cat) |
Academic year 2015-16 |
Subject name | BIOLOGY AND GENETICS |
Code | 100601 |
Semester | 1st semester |
Typology | Basic Training |
ECTS credits | 9 |
Groups | Classroom: one group; Seminars: 2 groups; Practical sessions: 4 groups |
Theoretical credits | 4.5 |
Practical credits | 4.5 |
Coordination | Marta Llovera (marta.llovera@cmb.udl.cat) |
Office and hour of attention | Book an appointment with the coordinator by e-mail |
Department | CMB - MEX |
Teaching load distribution between lectures and independent student work | Classroom: 90h
Self learning: 135h |
Modality | Presencial |
Important information on data processing | Consult this link for more information. |
Language | Catalan/Spanish
|
Degree | Human Nutrition and Dietetics |
Distribution of credits | Master class: 4.5 ECTS
Practical sessions: 2.1 ECTS Seminars: 2.4 ECTS |
Office and hour of attention | Book an appointment with the coordinator by e-mail |
E-mail addresses | marta.llovera@cmb.udl.cat
mario.encinas@mex.udl.cat joan.ribera@mex.udl.cat joaquim.egea@cmb.udl.cat jlroyo@cmb.udl.cat sanchezdelatorre@cmb.udl.cat |
This area combines Cell Biology and Genetics
Cell biology is the study of cells and their processes. It mainly focuses on eucaryotic cells with an emphasis on the internal working of the cells and the interactions between cells. Cell biology is a fundamental part of many biological disciplines including developmental biology, neurobiology, immunology, cancer biology, aging and disease states. The cell is the functional and structural basic unit of life, therefore the knowledge of cell composition and structure and the understanding of how cells work are fundamental aspects for biological and health sciences.
Genetics is one of the oldest and broadest fields in biology. All aspects of biology have a genetic component. Modern genetics deals with the evolution, transmission and expression of heritable traits, and includes the analysis of DNA sequence data which will help to answer basic questions of biology (Genomics). Genetic techniques are of current use by molecular biologists, cell biologists and ecologists in the quest to understand the hereditary basis of biological processes.
Topics in Cell Biology and Genetics are at the cutting edge of modern biological research. The disciplines are combined into one specialization due to their inter-relationship and overlap. Both combined areas are being used to understand disease and to design preventive measures and therapies. They also help to develop improved plant, animal, and bacterial species, and improve our knowledge and understanding of how cells function and communicate with each other. Both areas of research have contributed to the Biotechnology revolution and to the new field of Genomics.
1) At the level of knowledge the student that pass the course must::
2) The main teaching objectives to be achieved with the activities planned are:
3) In addition, students who pass the course must achieve the following skills:
Learn the basics of chemical, biochemical, and biological concepts with application in human nutrition and dietetics
Unit 1 - The cell as structural and functional unit of the human body. Cell Theory. Cell diversity: size and shape, cell types. Integration of cells into tissues: Concept and types of tissue.
Unit 2 - The cellular environment. The extracellular matrix (ECM). The extracellular matrix of animals. Connective tissue. Components of the extracellular matrix: fibrous, amorphous ground substance. Functions of the MEC
Unit 3 - Biomembranes. Diversity of cell membranes, molecular composition and organization.
Unit 4 - Cell membrane. Functional aspects. Transport through membranes. Molecular transport. Transporters, ion channels and pumps. Cellular Models of interchanges with the environment. Renal epithelium: the glomerulus. Gastrointestinal mucosa: the Enterocyte ..
Unit 5 - The cytoplasm and the energy stores. How energy accumulates in cells?. Cytosolic glycogen stores in liver and muscle. Mechanisms of regulation of these energy stores. Cytosolic lipid stores. Adipose tissue, adipocytes. Proteasome and protein degradation. The ribosome: protein synthesis.
Unit 6 - The mitochondria. Morphofunctional aspects. Cellular respiration, oxygen consumption and energy production in eukaryotic animals. Maternal or cytoplasmic inheritance abnormalities.
Unit 7 - Interaction of cells with their environment. Physiological, cellular and molecular bases of cell communication. Biological messengers.
Unit 8 - Cell secretion. Cells and secretory glands. Type of secretion: merocrina, apocrine and holocrine. Secretion products. Model to study the pancreas: pancreatic beta-cells.
Unit 9 - Endomembrane system related to the secretory pathway. Morphofunctional aspects: endoplasmic reticulum, Golgi apparatus, endosomes. intracellular trafficking
Unit 10 - Intracellular digestion. Endocytosis and exocytosis. Receptor mediated endocytosis. Intracellular digestion. Lysosomes: alterations of lysosomes
Unit 11 - Cytoskeleton. Organization of the cytoskeleton: Microtubules, microfilaments, intermediate filaments. Cell shape: centrioles and centrosomes. Microvilli and cytoplasmic extensions ..
Unit 12 - Cytoskeleton and Cell Motility. Motor proteins. Flagella and cilia. The skeletal muscle cell. The sarcomere.
Unit 13 - peroxisomes. Morphofunctional aspects. Oxidation processes in the peroxisome. Lipid Metabolism detoxification
Unit 14 - The kernel. Organisation. The envelope: pore nucleocytoplasmatic exchange. Chromatin: compacting states, morphofunctional aspects of chromatin nucleolus. DNA chromosome
Unit 15 - From DNA to proteins. RNA synthesis and processing. The ribosome. Protein synthesis and processing. Relationship between gene DNA.
Item 16 - Playing cell. The cell cycle and its regulation. Cell Division: Mitosis and functional significance. Meiosis and functional significance. Chromosomes. The chromosomal inheritance. cell death
Unit 17 - Nature molecular genetic material. Chemistry of nucleic acids. Type and structure of nucleic acids. Eukaryotic chromosome.
Unit 18 - Transcription and RNA processing. Basics of transcription in prokaryotes. Transcription in eukaryotes: promotors and phases. Processing of messenger RNA: splicing.
Unit 19 - The genetic code and protein synthesis. Aspects of encoding genetic information. The transfer RNA. The rRNA and ribosome. Translation.
Unit 20 - The control of gene expression. Epigenetics. Transcriptional regulation: transcription factors. Post-transcriptional regulation: alternative splicing. RNA interference. Translational and posttranslational regulation.
Unit 21 - replication, recombination and transposition. Basics of DNA replication. The replication machinery. Regulation of replication. Replication of telomeres. Types and models of recombination. Gene conversion. Transposable elements.
Unit 22 - mutagenesis and DNA repair. Concept and types of mutations. Origin of mutations: errors and damage. Repair mechanisms.
Unit 23 - The Legacy in character. Somatic vs. germline mutations. Characters cualitativos vs cuantitativos. Models and Models of Herencia mutations
Unit 24 - The human genome. Level of genome structure. First fuente of variability: the replication of DNA. Fuente de Segunda variability: recombination. Techniques of analysis of genetic variability
Unit 25 - Genetic diagnosis and studios population. Direct and indirect diagnosis. Ley Hardy-Weimberg.
Unit 26 - Diseases monogénicas vs poligénicas. Studiesamiento. Estudios de casos y controles. Estudios de TDT.
Tipus Activitat |
Descripció resumida de l’activitat (Títol de tema o activitat pràctica) |
Dedicació presencial alumne (hores) |
Grups |
Dedicació total professors (hores) |
---|---|---|---|---|
TEO |
Classe teoria Biologia |
23x1h=23h |
1 |
23 |
PRAC |
Sessions practiques Biologia |
3x3h=9h |
4 |
36 |
SEM |
Seminaris Biologia |
7x2h=14h |
2 |
28 |
Tot Bio |
|
46 h |
|
87 h |
TEO |
Classe teoria Genètica |
22x1h=22h | 1 | 22 |
PRAC |
Sessions practiques Genètica |
2x3h=6h | 4 | 24 |
INF |
Sessions informàtica |
2x3h=6h | 4 | 24 |
SEM |
Seminaris Genètica |
5x2h=14h | 2 | 20 |
Tot Gen |
|
44 h |
90 h | |
TOTALS |
|
90 h |
177 h |
1) Examen final del contingut teòric: 50%
2) Proves escrites parcials dels continguts: 25%
3) Qualificació dels treballs en grup dels seminaris, resolució de problemes i assistència a pràctiques: 25%
Bibliografia bàsica
Sudbery P. (2004). Genética molecular humana. Pearson/Prentice Hall.
Novo Villaverde FJ. (2007). Genética humana: conceptos, mecanismos y aplicaciones de la Genética en el campo de la Biomedicina. Pearson/Prentice Hall
Nussbaum RL, et al. (2004). Genetics in Medicine. Thompson &Thompson.
Solari AJ. (2004). Genética Humana, fundamentos y aplicaciones en Medicina. Editorial Médica Panamericana
Cooper and Hausman. (2014), La Célula, 6 Ed Marban Libros. (http://marbanlibros.com/libro.php?isbn=9788471019479)
B Alberts , D Bray , K Hopkin , A Johnson , J Lewis , M Raff , K Roberts , P Walter (2011) Introducción a la biología celular, Alberts, Bruce, 2006, Médica Panamericana, 3ª ed. http://www.medicapanamericana.com/Libros/Libro/4362/Introduccion-a-la-Biologia-Celular.html)
G Karp (2011) Biología Celular y Molecular, 6 Ed. Gerald Karp 2010, McGraw-Hill Educación.
Bibliografia complementària
Griffiths, Miller, Lewontin & Suzuki. Genética. McGraw-Hill / Interamericana de Espan?a, S.A.
W. S. Klug, M. R. Cummings, Genética (Pearson Educacio?n, S.A., ed. 1a, 1998).
Anthony J. F. Griffiths, Jeffrey H. Miller, David T. Suzuki, Richard C. Lewontin, William M. Gelbart, An Introduction to Genetic Analysis (W.H. Freeman & Company, ed. 8th, 2004).
M. R. C. William S. Klug, Essentials of Genetics (Prentice Hall, ed. 5th, 2004).
D. P. S. E.J. Gardner, M.J. Simmons, Principles of Genetics (John Wiley and Sons Ltd, ed. 8th, 1991).
R. H. Tamarin, Principles of Genetics (William C Brown Pub, ed. 6th, 1999).
E. J. Eisen, The Mouse in Animal Genetics And Breeding Research (World Scientific Publishing Company, 2005).
J. H. Gillespie, Population Genetics: A Concise Guide (Johns Hopkins University Press, ed. 2nd, 2004)
M. S. Kang, Quantitative Genetics, Genomics, and Plant Breeding. M. S. Kang, Ed., Symposium on Quantitative Genetics and Plant Breeding in the 21st cent (CABI Publishing, 2002).