67017 - Cellular Biochemistry

Academic Year 2017/2018

  • Teaching Mode: Traditional lectures
  • Campus: Bologna
  • Corso: First cycle degree programme (L) in Biological Sciences (cod. 8012)

Learning outcomes

At the end of the course, the student konws the biochemical mechanisms of different cellular porcess such as the folding, the maturation and the protein traffic into the cells; the inter-cellular comunication, the cytoscheleton organization, the cellular cycle and the mechanism of apoptosis.

Course contents

Traffic and transport of secretion proteins: Rough reticulum and co-translational translocation. SRP and its receptor. Structure of the protein-translocation pore SecY in the ER. Hsp70 and Hsp60 chaperons in the ER. Protein glycosylation in the ER. Calnexin anc quality control. Golgi apparatus: structure, function in lipids biosynthesis and secretion protein glycosylation. Targetting of lysosomal proteins. Trasporto a mezzo di vescicole rivestite: the coatmaers: COPI, COPII and clatrin. Molecular mechanisms of vesicle budding and fusion.

The nucleus Structure of nuclear pores. Protein import in the nucleus: NIS, importins, Ran proteins cycle. Export of mRNA and ribosomal subunits.

Biosynthesis of organelles (mitochondria and peroxisomes). Mitochondrial genome and genetic code. Nucloids. Presequences and mechanisms for protein selection at the mitochondrial outer membrane. Protein traslocons in mitochondrial membranes (TOM, TIM23 and TIM22, Oxa 1, SAM). Mia and Erv1. Import in chloroplasts (TOC and TIC). Peroxisomes: function and biogenesis: peroxines, targeting signals Pts1/Pts2. Peroxisomes assembly: Pex3 and Pex 11. Import into the peroxisomal matrix: the importomer.

Cytoskeleton and molecular motors Organization of cytoskeleton components. Microfilaments: structure of actin, filaments polarity, , intermediate filaments and microtubules. Polarity of cytoskelal elements.Motor proteins and interactions with cytoskeleton: myosins, kinesins and dyneins. Molecular structures of myosins e kinesins.

Cell-cell segnalling Modes o cell-cell segnalling. First messengers: peptidic and lipophilic hormones (steroid, thyroid, estrogen hormones, eicosanoids, etc). Intracellular receptors and nuclear targets (HRE). Membrane receptors. Seven-TM receptors. G proteins. Signal transduction in sensoyy receptors (vision, olfact and hearing). The effector systemsi: adenylate cyclase, phospholipase C, ionic channels.. The second messengers: cAMP, cGMP, DAG and IP3, calcium. Tyrosine kinase receptors: molecular organization, activation and signalling. Structure of SH2 and SH3 domains. Structure of non-receptor tyrosine kinase (Src). Structure, activation and function of Ras; MAP kinases, JAK/STAT and Wnt/Hedgehoge Notch. PI-3-kinase, Akt and mTOR. Beta and gamma isoforms of PLC. IP3 and intracellular calcium stores. Calmodulin and CAM kinase II. cytoskeleton and signal transduction: integrins and FAK/MAP.

Readings/Bibliography

B. Lewin: Cellule. Zanichelli 2008

C. Branden e J. Tooze, Introduzione alla Struttura delle Proteine, II Edizione, Zanichelli 2001

G.M. Cooper e R.E. Hausman, La cellula. Un approccio molecolare, Piccin, Padova, 2009

J. Berg, J.L. Tymoczko e L. Stryer,  Biochimica, V Edizione, Zanichelli 2008


Teaching methods

Classroom lessons

Assessment methods

Oral interview about all the topics treated during the course, with particular regard towards the correct tecnical language and the ability to interconnect the knowlegdes.

Teaching tools

Power point slides, projector, PC

Office hours

See the website of Anna Maria Ghelli