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20410235 CITOLOGIA E ISTOLOGIA in Biological sciences L-13 COLASANTI MARCO, D'Ezio Veronica
(syllabus)
Knowledge and understanding: Knowledge of the principles of cell biology and tissue organization. Acquisition of conscious judgment autonomy with reference to: evaluation, interpretation and contextualization of photographs acquired with microscopic techniques. Ability to communicate effectively and with the correct terminology; Applied skills: The basic knowledge acquired through the study of cytology will allow students to apply them to the study of tissues. In addition, students will be able to recognize and comment on a preparation or photograph acquired with a microscopic instrument. Finally, this knowledge will allow students to understand the disciplinary insights that will be carried out in the following years.
Cytology. Cell theory. Methods of studying the cell: the microscope. Macromolecules: The main carbohydrates of biological interest and their polymers. Notes on glycolysis. The main lipids of biological interest. Amino acids and proteins. Notes on the structure and function of proteins. Enzymes. Nucleic acids. DNA and RNA structure. DNA replication, messenger transcription and RNA, genetic code, ribosomes and protein synthesis. Cell membranes: chemical composition, The fluid mosaic model. Intrinsic and extrinsic proteins. Permeability and active transport. Ionic channels. Intercellular junctions: zonula occludens, zonula adherens and desmosomes. Cytoplasmic and secretory pathway, The endoplasmic reticulum, Origin and sorting of secretory and membrane proteins. Golgi apparatus. Lysosomes, peroxisomes, endocytosis, phagocytosis, exocytosis. Structure of mitochondria, Probable origin of mitochondria and plastids, DNA in mitochondria, Notes on energy metabolism: respiration. The cytoskeleton: Microtubules, microfilaments and intermediate filaments. The nucleus of eukaryotes, nuclear envelope and nuclear pores, histones and nucleosomes. Euchromatin and heterochromatin. The nucleolus. Chromosome structure. The cell cycle: the interphase (phases G1, S and G2), Cell division. Haploid, diploid and polyploid cells. Mitosis in animal cells. Meiosis. Phases and sub-phases of meiosis. The meaning of meiosis and crossing over. Recombination.
Histology Epithelial tissue. General characteristics. Coating epithelia. Classification and functions. The basal lamina. Connective tissue. The different connective tissues: general characteristics and specific characteristics of the different connective tissues. The connective proper. Classification of connectives. Extracellular matrix. Connective cells and their function. Blood and signs of cellular immunology. The plasma: composition and functions. Erythrocytes and white blood cells: morphological and functional characteristics. Bone tissue. Spongy bone and compact bone. Microscopic structure of the bone: the osteone. Osteoblasts, osteocytes, osteoclasts. Muscle tissue. Smooth muscle tissue. Skeletal muscle tissue. Structure and ultrastructure of muscle fiber. Myofibrils and myofilaments: the sarcomere. Muscle contraction. Heart muscle tissue. Nervous tissue. The central and peripheral nervous system. Morphology of the neuron. Notes on nerve impulse conduction. The synapse. Neurotransmitters. Neuroglia.
(reference books)
Cytology Essential Cell Biology, Bruce Alberts, Karen Hopkin, Alexander D. Johnson, David Morgan, Martin Raff. Garland Science. Last edition Histology Junqueira's Basic Histology: Text and Atlas, Anthony Mescher. Lange. Last edition
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