ECTS credits ECTS credits: 7.5
ECTS Hours Rules/Memories Student's work ECTS: 123.75 Hours of tutorials: 3.75 Expository Class: 30 Interactive Classroom: 30 Total: 187.5
Use languages Spanish, Galician
Type: Ordinary Degree Subject RD 1393/2007 - 822/2021
Departments: Microbiology and Parasitology
Areas: Microbiology
Center Faculty of Veterinary Science
Call: First Semester
Teaching: With teaching
Enrolment: Enrollable
The Degree Report in Veterinary Medicine of the Faculty of Veterinary Medicine of Lugo, approved by the Council of Universities on 06/30/2010, states that the General Objectives of the Graduate Degree in Veterinary Medicine from the USC are to provide students with the knowledge, techniques , skills and aptitudes that equip them professionally to guarantee the health of animals and humans.
The main objective of the Veterinary Microbiology subject is to provide the student with elements and tools that allow them to obtain knowledge about the biology, pathogenic mechanisms, diagnosis and control of the main microorganisms involved in diseases that affect production and companion animals, in addition to other aspects of veterinary interest in relation to public health.
Specific objectives:
1.- Know the basic concepts and scientific terminology used in Microbiology.
2.- Know the structure, physiology, pathogenesis, genetics and taxonomy of microorganisms of clinical importance in veterinary and public health.
3.- Know the possible interactions between the microorganism and the host.
4.- Know the basic techniques and methods of diagnosis
The subject of Veterinary Microbiology is divided into a theoretical program and a practical program.
The theoretical program of the subject is divided into two parts:
PART 1 is devoted to GENERAL MICROBIOLOGY. Unit 1 serves as an introduction and addresses the historical development of Microbiology and analyzes microbial diversity. In topics 2 to 6 (GENERAL BACTERIOLOGY, GENERAL MYCOLOGY AND GENERAL VIROLOGY) the general characteristics of the three main groups of veterinary interest are described: Bacteria, fungi and viruses. Units 7 and 8 are dedicated, respectively, to the study of the pathogenic capacity of these three groups of microorganisms on animals and their control by means of physical and chemical methods, paying special attention to antimicrobials. Finally, in topic 9 the microbial systematics and the concepts of classification, identification and nomenclature are analyzed.
PART 2 is dedicated to SPECIAL MICROBIOLOGY, which in turn includes three sections:
SPECIAL BACTERIOLOGY (items 10 to 16).
SPECIAL MYCOLOGY (item 17).
SPECIAL VIROLOGY (items 18 to 23).
In each topic, the main bacteria, fungi and viruses of veterinary interest are studied.
Units 24 and 25 have as objective, to know the effect of microorganisms on the environment that surrounds them (MICROBIAL ECOLOGY) as well as its importance in the field of INDUSTRIAL MICROBIOLOGY.
THEORY PROGRAM
The theory program will tackle along 54 hours by means of classes expositivas.
PART 1. GENERAL MICROBIOLOGY. 28 HOURS
INTRODUCTION TO MICROBIOLOGY. 1 HOUR
SUBJECT 1. History and field of the microbiology.
- The discovery of the microorganisms. Pasteur and Koch. The birth of the farmacoterapia modern. Present and future of the microbiology.
- Origin and microbial diversification.
GENERAL BACTERIOLOGY
SUBJECT 2. Structure and function of the cell bacteriana. 5 HOURS
-MICROSCOPY: Foundation and types. Tinctions
-SIZE, FORM and GROUPINGS BACTERIANAS.
-COMPONENTS OF THE STRUCTURE BACTERIANA
-CELLULAR WALL: Bacteria Gram positive, Gram negative and sour-resistant alcohol.
-PLASMA MEMBRANE and MESOSOMES.
-INTERNAL COMPONENTS: Nucleoide, ribosomes, cytoplasmic inclusions, endosporas.
-EXTERNAL STRUCTURES: Capsule and layers mucosas. Flagelos. Fimbrias And pili.
SUBJECT 3. Nutrition, crop, growth bacteriano and metabolism. 3 HOURS
-NUTRITION, CROP and GROWTH: Requests and nutritional categories. Bacteriological means and conditions fisico-chemical for the growth.
-METABOLISM and PRODUCTION OF ENERGY: Reactions of oxidation-reduction, conveyors of electrons and composed highly energetic. Bacteria quimioheterótrofas: aerobic breath and anaerobia. Fermentation. Energetic performances. Autotrophic bacteria: oxidation of inorganic compounds and photosynthesis.
-REPRODUCTION And GROWTH: Reproduction. Curve of growth bacteriano. Determination of the growth. Continuous crops.
SUBJECT 4. Genetic bacteriana. 4 HOURS
-STRUCTURE and FUNCTION OF THE GENETIC MATERIAL: Review of concepts: nucleic acids. Replication, transcription and translation.
-REGULATION OF THE GENIC EXPRESSION: Repression and induction. The model of the operón: structure and operation.
-MUTATIONS: Types of mutations.
-TRANSFER and GENETIC RECOMBINATION: Plásmidos and transposones. Transformation, conjugation, and transducción.
MICOLOGIA GENERAL
SUBJECT 5. General mycology. 2 HOURS
-CONCEPT and FIELD OF STUDY OF THE MYCOLOGY: Habitat, ecological paper and importance of the funguses.
-CHARACTERISTIC OF THE FUNGUSES: Morphology and cellular structure. Yeasts and molds. Metabolism. Reproduction. Types of spores. Crop and identification. Mechanisms of pathogenic action. Micotoxinas. Classification of the funguses.
GENERAL VIROLOGY
SUBJECT 6. General virology. 4 HOURS
-CHARACTERISTIC GENERALS And STRUCTURE OF THE VIRUSES: Definition and properties of the viruses. Nature of the virión. Classification of the viruses. Isolation and identification.
-REPLICATION VÍRICA: Multiplication of bacteriófagos. Multiplication of animal viruses.
-VIRUSES and CANCER: Oncogenes.
-AGENTS INFECCIOSOS NO CONVENTIONAL: Viroids and Prions.
PATHOGENICITY And MICROBIAL CONTROL
SUBJECT 7. Pathogenicity and infection. 4 HOURS
-INTERACTION MICROORGANISM-HOSPEDADOR: beneficial Interactions. Harmful interactions. Infection of susceptible animals and factors that influence in the result of the interaction.
-STAGES OF THE INFECTION BACTERIANA: adherencia, multiplication, invasion and toxigénesis.
-PATHOGENIC PROPERTIES OF THE VIRUSES: Mechanisms virales for evadir the defences of the hospedador. Effects citopáticos.
SUBJECT 8. Control of microorganisms. 4 HOURS
-ANTIMICROBIAL CONTROL BY PHYSICAL METHODS: Sterilisation by heat. Sterilisation by radiation. Sterilisation by leak.
-ANTIMICROBAL CONTROL BY CHEMICAL METHODS: Agents chemists for external use: desinfectantes and antisépticos.
-ANTIMICROBIAL AGENTS USED LIVE: Natural antibacterials (antibiotics) and synthetic: types, spectrum and mechanisms of action. Mechanisms of resistance to the antibacterianos. Antivíricos. Antifúngicos.
BACTERIAL SYSTEMATICS
SUBJECT 9. Bacterial systematics. 1 HOUR
-CLASSIFICATION: Phenotypic and genotypic analysis. Phylogenetic analysis. Ranges taxonómicos. Concept of species in microbiology.
-NOMENCLATURE: The International Code of Nomenclature Bacteriana.
-IDENTIFICATION And COLLECTIONS OF MICROBIOLOGICAL CROPS.
BLOCK II. SPECIAL MICROBIOLOGY. 26 HOURS
SPECIAL BACTERIOLOGY
SUBJECT 10. Coconuts Gram positive. Genders Staphylococcus, Streptococcus.1 HOUR
SUBJECT 11: Bacilluses Gram positive regular. 2 HOURS
Genus Bacillus, Clostridium, Listeria, Erysipelothrix and Mycoplasma.
SUBJECT 12. Bacilluses Gram positive irregular. 2 HOURS
Genus Streptomyces, Mycobacterium, Nocardia, Rhodococcus and Corynebacterium.
SUBJECT 13. Bacilluses Gram negative. 2 HOURS
- GAMMA-PROTEOBACTERIAS - FAMILY ENTEROBACTERIACEAE: Genus Escherichia, Salmonella, Yersinia, Klebsiella, Enterobacter And Proteus.
SUBJECT 14. Bacilluses Gram negative. 2 HOURS
-GAMMA-PROTEOBACTERIAS - FAMILIES NO ENTEROBACTERIACEAE: Genus Vibrio, Aeromonas, Pseudomonas, Pasteurella, Mannhemia, Haemophilus, Dichelobacter, Francisella and Coxiella.
SUBJECT 15. Bacilluses Gram negative. 2 HOURS
-ALPHA-PROTEOBACTERIAS: Genus Brucella, Bartonella, Rickettsia, Anaplasma and Ehrlichia,
-BETA-PROTEOBACTERIAS: Genus Burkholderia, Taylorella and Bordetella.
-DELTA-PROTEOBACTERIAS: Genus Lawsonia.
-EPSILON-PROTEOBACTERIAS: Genus Campylobacter.
SUBJECT 16. Bacteria Gram negative. 2 HOURS
NO PROTEOBACTERIAS: Genus Chlamydia, Borrelia, Leptospira, Brachyspira.
SPECIAL MYCOLOGY
SUBJECT 17. Main groups microscopic funguses of veterinary interest. 2 HOURS
-YEASTS: Genus Cándida, Cryptococcus, Malassezia.
-MOLDS CENOCITICOS: Mucor, Rhizomucor, Rhizopus, Basidiobolus, Conidiobolus and Saprolegnia.
-MOLDS SEPTADOS DERMATOFITOS: Genus Microsporum and Trichophyton.
-MOLDS SEPTADOS: Aspergillus.
-FUNGUSES DIMÓRFICOS: Genus Blastomyces, Coccidioides, Histoplasma, Sporothrix.
-FUNGUSES THAT REMEMBER To PROTOZOONS: Genus Pneumocystis.
SPECIAL VIROLOGY
SUBJECT 18. Virus with DNA bicatenario. 2 HOURS
-FAMILY POXVIRIDAE: Virus of the viruela. Virus of the mixomatosis of the rabbit.
-FAMILY ASFARVIRIDAE: Virus of the African swine plague.
-FAMILY HERPESVIRIDAE: Virus of the illness of Aujeszky. Virus of the illness of Marek.
-FAMILY ADENOVIRIDAE: Virus of the hepatitis infecciosa canine.
-FAMILY PAPILLOMAVIRIDAE: Papilomavirus.
SUBJECT 19. Virus with DNA m onocatenario. 1 HOUR
-FAMILY CIRCOVIRIDAE: Circovirus swine. Virus of the anaemia infecciosa of the hen.
-FAMILY PARVOVIRIDAE: Virus of the panleucopenia feline. Parvovirus Canine 2. Parvovirus Swine.
SUBJECT 20. Virus with RNA bicatenario. 1 HOUR
-FAMILY REOVIRIDAE: Virus of the blue tongue. Virus of the plague equina African. Rotavirus.
-FAMILY BIRNAVIRIDAE: Virus of the bursitis infecciosa aviar (illness of Gumboro).
SUBJECT 21. Virus with RNA monocatenario of negative polarity. 2 HOURS
-FAMILY PARAMYXOVIRIDAE: Virus of the illness of Newcastle. Virus of the bovine plague. Virus of the moquillo canine.
-FAMILY RHABDOVIRIDAE: Virus of the anger. Virus of the estomatitis vesicular.
-FAMILY ORTHOMYXOVIRIDAE: Influenzavirus (virus of the flu).
-FAMILY BUNYAVIRIDAE: Virus of the fever of the Valley of the Rift.
-FAMILY BORNAVIRIDAE: Virus of the illness of Borna.
SUBJECT 22. Virus with RNA monocatenario of positive polarity. 2 HOURS
-FAMILY CORONAVIRIDAE: Virus of the bronquitis infecciosa aviar. Virus of the gastroenteritis transmisible swine.
-FAMILY ARTERIVIRIDAE: Virus of the arteritis equina. Virus of the respiratory and reproductive syndrome swine.
-FAMILY PICORNAVIRIDAE: Virus of the fever aftosa. Teschovirus Swine 1 (encefalomielitis by Teschovirus).
-FAMILY CALICIVIRIDAE: Virus of the exantema vesicular of the pig. Virus of the illness hemorrágica of the rabbit.
-FAMILY TOGAVIRIDAE: Virus of the encefalitis equina (east and west).
-FAMILY FLAVIVIRIDAE: Virus of Nilo west. Virus of the diarrhoea vírica bovine.
SUBJECT 23. Virus DNA and RNA with transcriptasa reverse. 1 HOUR
-FAMILY RETROVIRIDAE (RNA monocatenario with positive polarity): Virus of the leucosis bovine. Virus of the arthritis-encefalitis caprina and of the Maedi-Visna. Virus of the anaemia infecciosa equina.
-FAMILY HEPADNAVIRIDAE (DNA circulate partially bicatenario): Virus of the hepatitis B.
SUBJECT 24. MICROBIAL ECOLOGY. 1 HOUR
Microbial Ecosystems and paper of the microorganisms in the biogeochemical cycles and in the biodegradation.
Subject 25. INDUSTRIAL MICROBIOLOGY And BIOTECHNOLOGY. 1 HOUR
-Paper of the microorganisms in the production of the foods: Microorganisms of interest in the alimentary industry. Controls of hygienic quality of the foods. Systems of detection and control of critical points in the industry.
-Industrial production of chemical substances by fermentation. Production of antibiotics. Applications biotecnológicas in the pharmaceutical industry, of immunological compounds and of proteins with therapeutic ends. Cloning, recombination and expression of genes in microorganisms procariotas and eukaryotic.
B. PRACTICAL PROGRAM 20 HOURS
The practical program will tackle along 20 hours distributed in 5 sessions along a week (of Monday to Friday, at a rate of 4 daily hours).
INTRODUCTION. Norms of security in the laboratory of bacteriology: organisation and methodology of work.
PRACTICE 1. Methods of sterilisation in the laboratory of bacteriology.
PRACTICE 2. Microscopic techniques of observation of the microorganisms:
-Observation in fresco of eukaryotic cells
-Tinctions bacterianas: simple and differential
PRACTICAL 3. Means of crop: preparation and types.
PRACTICE 4. Techniques of seed and isolation bacteriano.
PRACTICE 5. Growth bacteriano: methods of quantification and curve of growth.
PRACTICE 6. Identification bacteriana by means of biochemical proofs.
PRACTICE 7. Clinical and environmental samples: collected, transport and processed.
PRACTICE 8. Antibiograms: Realisation, interpretation and election of the suitable antibiotic.
PRACTICE 9. Interpretation of results and preparation of reports.
BIBLIOGRAPHY OF THE THEORETICAL PROGRAM:
BASIC:
-Carrasco L, Almendral Del Río JM. 2006. Virus Patógenos. Ed. Hélice.
-Gyles CL, Prescott JF, Songer JG, Thoen CO. 2010. Pathogenesis of bacterial infections in animals. Fourth Edition. Ed. Wiley-Blackwell.
-Madigan MT, Martinko JM. 2009. Brock Biología de los Microorganismos. 10ª Edición. Ed. Prentice-Hall International Ltd.
-Prescott LM, Harley JP, Klein DA. 2009. Microbiología. 7ª Edición. Ed. McGraw-Hill Interamericana.
-Quinn PJ. 2016. Elementos de microbiología veterinaria. Ed. Acribia.
-Quinn PJ, Markey BK, Leonard FC, Fitzpatrick ES, Fanning S, Hartigan PJ. 2017. Microbiología y Enfermedades Infecciosas Veterinarias. Ed. Acribia.
- Stanchi NO. 2007. Microbiología Veterinaria. Ed. Interamericana.
COMPLEMENTARY:
-Songer JG, Post KW. 2005.Veterinary Microbiology. Bacterial and fungal agents of animal disease. Elsevier Saunders.
-Tortora GJ, Funke BR, Case CL. 2007. Introducción a la Microbiología. 9ª Edición. Ed. Panamericana.
-Vadillo S, Píriz S, Mateos E. 2002. Manual de Microbiología Veterinaria. Ed. McGraw-Hill Interamericana.
BIBLIOGRAPHYOF PRACTICAL PROGRAM:
-Gamazo C, López-Goñi I, Díaz R. 2005. Manual Práctico de Microbiología. Ed. Masson.
PAGES WEB OF INTEREST:
-Bergey´s Manual Trust: http://www.bergeys.org/outlines.html
-International Committee on Taxonomy of Viruses: http://ictvonline.org/virusTaxonomy.asp?version=2009&bhcp=1
-Organización Mundial de Sanidad Animal: http://www.oie.int/
-ViralZone: http://viralzone.expasy.org/
1. GENERAL COMPETENCIES:
- GVUSC01. Ability to learn and adapt.
-GVUSC02. Capability for analysis and synthesis.
-GVUSC03. General knowledge of the working area.
-GVUSC04. Planning and work management.
-GVUSC05. Capability to put knowledge into practice.
-GVUSC06. Capability to work both independently and as part of a team.
2. DISCIPLINARY SPECIFIC COMPETENCIES (knowledge):
-CEDVUSC 06. Knowing the basics of the different biological agents of
veterinary interest.
-CEDVUSC 16. To know the basic analytical techniques and its interpretation.
3. SPECIFIC PROFESSIONAL COMPETENCIES (expertise, day-one skills):
-D1VUSC 02. Collect and send specimens with the corresponding reports.
-D1VUSC 03. Perform standard laboratory tests, and interpret clinical, biological and chemical results
4. SPECIFIC ACADEMIC SKILLS (want to do):
- CEAVUSC 04. Search and manage information related to veterinary practice.
- CEAVUSC 05. Know and apply the scientific method in professional practice,
including evidence-based medicine.
- CEAVUSC 06. Knowing how to find professional help and advice.
- CEAVUSC 07. Have basic knowledge of a foreign language, especially in
technical aspects of veterinary science.
- CEAVUSC 08. Being aware of the need to keep professional skills and
knowledge up-to-date through a process of lifelong learning
5. TRANSVERSAL COMPETENCES
- CTVUSC 01. Capacity for reasoning and argument.
- CTVUSC 02. Ability to obtain adequate, diverse and updated information by
various means such as literature and Internet information, and critically analyze
it.
- CTVUSC 03. Ability to develop and present an organized and understandable
text.
- CTVUSC 04. Ability to make a clear, concise, and consistent public
presentation
- CTVUSC 06. Use information in a foreign language.
- CTVUSC 07. Ability to solve problems through the Integration and application
of knowledge.
The number of credits for the subject is 7.5 and the teaching of the subject will be carried out through different class modalities:
- Tutorials: 1 hour (Presentation).
- Expository classes: 54 hours.
- Laboratory practices: 20 hours.
- The contents of the Theoretical Program will be taught in 54 expository classes using Power Point presentations of 50 minutes in length. Students will be divided into two groups (CLE-01 and CLE-02). The teaching materials presented in the lectures will be made available to students in each group through the Virtual Classroom for the course.
- The contents of the practical classes will be taught in the LABORATORY ON THE SECOND FLOOR OF PAVILION 1 OF THE FACULTY OF VETERINARY, they will last 20 hours distributed from Monday to Friday from 4:00 p.m. to 8:00 p.m. The students will be distributed into six groups ((CLIL-01 a CLIL-06). Attendance at the practical sessions is mandatory, and practice manuals are provided to follow the contents.
COMPETENCES ON DAY 1
The practical part will be to process a sample from an animal (pig, bovine, etc.) with an intestinal pathology, in order to identify the etiological agent(s) and establish the appropriate therapeutic regimen. The objective of this course is to achieve the learning skill-objective: "Process samples, select appropriate diagnostic and treatment microbiological tests, and interpret and understand the limitations of the results obtained" of competencies 22 on day 1: "Collect, preserve, and transport samples, select appropriate diagnostic tests, interpret and understand the limitations of test results," and 27 on day 1: "Prescribe and dispense medications correctly and responsibly in accordance with legislation and the latest guidelines" of the Federation of European Veterinarians.
A. WRITTEN EVALUATION (EXAM).
The score corresponding to the written evaluation will account for 80% of the final grade. (8 POINTS).
The exam will be taken on the date and time agreed upon by the Faculty Board, in the classrooms reserved for this purpose. It may include multiple choice questions, true/false questions, short questions or development questions, all of them from the theoretical program.
To pass the exam it is necessary to achieve a minimum score of 5 out of 10 points (4 out of 8 points) IN EACH OF THE TWO PARTS INTO WHICH THE THEORETICAL PROGRAM OF THE SUBJECT IS DIVIDED. In the case of not exceeding this score or not taking the exam, the student will have to take the second opportunity to pass the subject.
B. CONTINUOUS EVALUATION
The score corresponding to the Continuous Assessment will account for 20% of the final grade. (2 POINTS) It will be assigned as follows:
B1. Optional Periodic Tests:
The score obtained in this section will represent 10% of the final grade (1 point).
Knowledge acquisition will be continuously monitored throughout the semester through four voluntary tests (0.25 points/test) which will take place within the teaching hours of the subject. These will include multiple-choice or true/false questions. Scores obtained on tests in which a grade of 5/10 or higher is obtained will be added up to a maximum of 1 point.
B2. Attendance and Participation and examination of Laboratory Practices.
The score obtained in this section will represent up to 10% of the final grade (1 point).
Each student will be evaluated based on their participation, as well as through an examination of the content taught.
Both attendance and passing the exam are necessary to pass the course.
The grades obtained in the two previous sections will be added to the grade obtained in the theory exam, solely and exclusively, once the theory exam is passed.
The grade corresponding to the continuous assessment (20%) will be retained for the second attempt. If the subject is repeated, it will be retained for the two subsequent academic years (2026-27 and 2027-28).
VERY IMPORTANT:
-There is no total exemption from class attendance in this subject. In accordance with Instruction 1/2017 of the General Secretariat, students granted partial exemption will not be required to attend lectures, but will remain required to attend interactive classes (seminars and laboratory exercises).
-In this case, the theoretical content exam will represent 90% of the final grade, and attendance, completion, and the practical exam will represent 10%.
In cases of fraudulent completion of exercises or tests, the provisions of the "Regulations on the Evaluation of Student Academic Performance and Grade Review" will apply.
COMPETENCIES ON DAY 1:
The assessment of the learning objective described in the teaching methodology section will be carried out through:
- The instructor's monitoring of the procedures and techniques performed by the student.
- The student will submit a report with the results obtained, which will establish both the identified etiological agent (culture media used, seeding techniques, morphological and biochemical tests performed), and the antibiotics used (methodology used to establish the appropriate therapy).
- An exam with questions about the procedure and techniques used.
Passing this activity will be essential to pass the course.
If the student does not pass the activity, they may request a tutoring session, review their work, and submit a new report within 15 days of the official date of the first opportunity exam.
Because it is not possible to achieve the learning objective of competencies 25 and 27 through other activities, the practice required to achieve them cannot be waived.
PRESENTIAL WORK IN THE CLASSROOM:
- Master classes: 54 hours
- Laboratory practices: 20 hours
- Scheduled tutorials: 1 hour
- Total hours of face-to-face work: 75
STUDENT'S PERSONAL WORK:
- Individual study: 90 hours
- Bibliographic review, library, etc.: 9.5 hours
- Elaboration of memory of practices and other tasks: 3 hours
- Attendance at talks or other recommended activities: 3 hours
- Other tasks proposed by the teacher: 2 hours
- Realization of exams: 5 hours
- Total hours of personal work of the student: 112.5
TOTAL STUDENT HOURS: 187.5
1ª. It is very important that the student has a good foundation in the subjects taken in the first year of the Degree, Biochemistry, Genetics and Immunology, which is why a review of the concepts studied in them is recommended.
2ª. It is recommended that prior to attending the theoretical and practical classes, students do a comprehensive reading of the teaching material available in the virtual classroom. It is recommended that the student complete said guiding teaching material with the appropriate notes taken in class and with the reviewed bibliography.
3ª. Due to the length of the subject, continued study of it is necessary.
4ª. It is advisable that students take advantage of the hours of individual tutoring available to them to resolve any doubts that may arise throughout the semester.
For THEORY CLASSES, students will be divided into two groups, using the alphabetical order of their surnames as a criterion.
The teachers who will be in charge of teaching are:
-Prof. Jorge Blanco Álvarez.
-Profa. Azucena del Carmen Mora Gutiérrez.
-Prof. Jesus Blanco Álvarez.
Once assigned to a group, students will only have access to the materials uploaded to the virtual classroom by the teachers in charge of teaching that group. Therefore, group changes will not be accepted.
Throughout the semester, students may request individual tutoring sessions (by prior arrangement of the day and time via email) to discuss any issues they deem necessary for the successful completion of the course with their professor.
Tutoring sessions will take place in the offices of Pavilion I, 2nd floor of the Faculty of Veterinary Medicine.
- Prof. Jorge Blanco Álvarez
email: jorge.blanco [at] usc.es (jorge[dot]blanco[at]usc[dot]es)
- Prof. Jesús Blanco Álvarez
email: jesuseulogio.blanco [at] usc.es (jesuseulogio[dot]blanco[at]usc[dot]es)
- Azucena del Carmen Mora Gutiérrez:
email: azucena.mora [at] usc.es (azucena[dot]mora[at]usc[dot]es)
Jesus Eulogio Blanco Alvarez
Coordinador/a- Department
- Microbiology and Parasitology
- Area
- Microbiology
- jesuseulogio.blanco [at] usc.es
- Category
- Professor: University Lecturer
Jorge Blanco Alvarez
- Department
- Microbiology and Parasitology
- Area
- Microbiology
- jorge.blanco [at] usc.es
- Category
- Professor: University Professor
Azucena Del Carmen Mora Gutierrez
- Department
- Microbiology and Parasitology
- Area
- Microbiology
- azucena.mora [at] usc.es
- Category
- Professor: University Professor
Monday | |||
---|---|---|---|
09:00-10:00 | Grupo /TI-ECTS06 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS02 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS05 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS10 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS07 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS03 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS08 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS11 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS01 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS04 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS09 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /TI-ECTS12 | Spanish | Classroom 2 |
Tuesday | |||
09:00-10:00 | Grupo /CLE_01 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /CLE_02 | Spanish | Classroom 5 |
Wednesday | |||
09:00-10:00 | Grupo /CLE_01 | Spanish | Classroom 2 |
09:00-10:00 | Grupo /CLE_02 | Spanish | Classroom 5 |
01.09.2026 09:00-11:00 | Grupo /CLE_01 | Classroom 1 |
01.09.2026 09:00-11:00 | Grupo /CLE_01 | Classroom 2 |
01.09.2026 09:00-11:00 | Grupo /CLE_01 | Classroom 3 |
07.06.2026 12:00-14:00 | Grupo /CLE_01 | Classroom 1 |
07.06.2026 12:00-14:00 | Grupo /CLE_01 | Classroom 2 |