BIOLOGIA VEGETALE E BIOLOGIA ANIMALE - BIOLOGIA MOLECOLARE M - Z

Academic Year 2018/2019 - 1° Year
Teaching Staff Credit Value: 13
Scientific field
  • BIO/15 - Pharmaceutical biology
  • BIO/11 - Molecular biology
Taught classes: 91 hours
Term / Semester: 1° and 2°

Learning Objectives

  • Plant and animal biology

    Gain the ability to:

    describe structures and the fundamental biological processes of the cell and of living organisms using appropriate scientific terminology;
    understand the importance of variability so that we can distinguish and motivate the difference between living organisms;
    independently apply the acquired knowledge to solving problems of biology;
    critically evaluate the implications and results of innovative discoveries in cell biology and living organisms;
    use the knowledge about the basic mechanisms that regulate the living matter and living organisms (animals and plants) as a substrate for the study of other biological materials of their degree course;
    follow the innovative discoveries in cell biology and living organisms by consulting the scientific literature.

  • BIOLOGIA MOLECOLARE

    Theoretical skills of the main biological processes at the basis of the maintenance of the genetic information e its expression in microorganisms and animals.
    Theoretical knowledge of the bio-molecular basic methods supporting the experimental approaches.


Course Structure

  • Plant and animal biology

    The course will be structured in frontal teaching with power point projection and/or short films. During the course there will be exercises and problem based learning.

  • BIOLOGIA MOLECOLARE

    Frontal lectures


Detailed Course Content

  • Plant and animal biology

    Principles of classification of living organisms.

    Autotrophy and heterotrophy organisms.

    Virus: organization, morphology, main features and the relationship with the ecosystem.

    DNA virus and RNA virus. Virus-virus interactions.

    Organization of the plant body.

    Classification of plants.

    Morphology of the animal and plant cells: prokaryotic and eukaryotic organisms.

    Structure and function of the cell: cell wall, cell membrane structure and function, cell permeability, transport, exocytosis and endocytosis.

    Growth of the cell wall. Changes in the cell wall: lignification, mineralization, gelation, pigmentation.

    Intracellular structures

    Chloroplasts, chromoplasts, leucoplasts: structure and functions. Pigments. Biochemical mechanism of photosynthetic light reactions, photorespiration.

    Vacuolar system: origin, development and functions.

    Composition of the vacuolar constituents of pharmaceutical interest.

    Metabolism: primary metabolites, intermediate metabolites and secondary metabolites.

    Characters tissue. Systems of tissues and their classification.

    Meristematic tissues or cells.

    Adult tissues or definitive: system parenchyma, tegument system, conducting system, segregators system and mechanical system.

    Form and structure of the leaf; transpiration, guttation, abscission. Modifications of the leaves.
    Form and structure of the flower. Form and structure of the stem. transport function: Xylem and phloem. Form and structure of the root. Secondary growth.

    Cell cycle. DNA replication, mitosis, meiosis, mutations in the DNA.

    Eterozygous, homozygous and hemizygous, dominant and recessive characters, genotype, phenotype and karyotype, Mendel's laws.

    Genetic code, transcription, translation.

     

    Part 1: 1 CFU - 7h

    The chemical composition of the cell: water, minerals, cellular macromolecules: amino acids, proteins, lipids, carbohydrates. Principles of classification of living organisms: virus, prokaryotes, eukaryotes and their relationship.

    Autotrophy and heterotrophy organisms.

    Part 2: 2 CFU - 14h

    Difference between eukaryotic cell and prokaryotic cell, Structure and transport in the biological membrane. Organelles: endoplasmic reticulum; Golgi apparatus, mitochondria; Lysosomes, Peroxisomes; Ribosomes, Cytoskeleton; Core, Chromatin and chromosome

    Part 3: 2 CFU - 14h

    Difference between plant cell and animal cell: Plastids. Overview of Photosynthesis; photorespiration; C3 plants and C4 plants; vacuoles. Primary metabolites, intermediate metabolites and secondary metabolites. Cell wall. Growth of the cell wall. Modifications of the cell wall: lignification, cutinization, suberification, mineralization, gelification, pigmentation. Vegetable tissues: meristematic tissues; Parenchymal tissues and tegumental tissues; conducting tissues; secretory tissues and mechanical tissues.

    Part 4: 1 CFU - 7h

    Cell division: cell growth, cell cycle and mitosis.Reproduction: asexual reproduction, sexual reproduction and meiosis, gametogenesis, ontogenetic cycles, metagenetic cycle. Overview of genetics: Heterozygous, homozygous and hemizygous, dominant and recessive characters, genotype, phenotype and karyotype, Mendel's laws. Cell cycle. DNA replication, mutations in the DNA. Genetic code, transcription, translation.

    Part 5: 1 CFU - 7h

    Vegetable organography: Shape and structure of the leaf; stomata, transpiration, guttation, abscission. Modifications of the leaves.
    Shape and structure of the flower. Shape and structure of the stem. Transport function: Xilema and Floema. Shape and structure of the root. Secondary growth.

  • BIOLOGIA MOLECOLARE

    STRUCTURE AND STUDY OF MACROMOLECULES

    The Structure of DNA

    The Structure of RNA

     

    MAINTENANCE OF THE GENOME

    Genome Structure, Chromatin and the Nucleosome

    The Replication of DNA

    The Mutability and Repair of DNA

     

    EXPRESSION OF THE GENOME

    Mechanisms of Transcription

    RNA Splicing

    Translation

    The Genetic Code

     

    REGULATION

    Transcriptional Regulation in Prokaryotes

    Transcriptional Regulation in Eukaryotes

     

    TECHNIQUES OF MOLECULAR BIOLOGY


Textbook Information

  • Plant and animal biology
    1. Solomon, Berg, Martin -Biologia- Ed. Edises
    2. D. Sadava, D.V. Hillis, H.C. Heller, M.R. Berenbaum-Biologia-Ed.Zainichelli
    3. N.L. Campbell. -Biologia- Ed. Zanichelli
    4. Solomon, Berg, Martin -Struttura e processi vitali nelle piante- Ed. Edises
    5. Curtis, Barnes, Schnek, Massarini- Invito alla Biologia- Ed Zanichelli
  • BIOLOGIA MOLECOLARE

    1) "Fondamenti di biologia molecolare", Lizabeth A. Allison, Zanichelli editore;; 2) "Genomi 4", T.A. Brown, ed. Edises