S2008 Developmental and cellular biology of plants

Přírodovědecká fakulta
jaro 2017
Rozsah
4/0/0. 4 kr. (plus ukončení). Doporučované ukončení: zk. Jiná možná ukončení: k.
Vyučující
Tomasz Nodzynski, B.A., M.Sc., Ph.D. (přednášející)
Helene Robert Boisivon, Ph.D. (přednášející)
Garance
Mgr. Jiří Friml, Dr. rer. nat.
Národní centrum pro výzkum biomolekul – Přírodovědecká fakulta
Kontaktní osoba: Tomasz Nodzynski, B.A., M.Sc., Ph.D.
Dodavatelské pracoviště: Národní centrum pro výzkum biomolekul – Přírodovědecká fakulta
Rozvrh
Po 20. 2. až Po 22. 5. St 9:00–11:50 E26/222
Předpoklady
The course will be taught in English.
Omezení zápisu do předmětu
Předmět je otevřen studentům libovolného oboru.
Osnova
  • A. Current approaches and methods of experimental plant genetics
  • 1. Segregation by Mendel law
  • 2. Classification and morphology of plants
  • 3. Anatomy and Physiology of roots
  • 4. Biochemical approaches, heterologous systems.
  • 5. Cell biology, cell structure
  • 6. Genetics: From a phenotype to the gene
  • 7. Plant Model systems
  • 8. How to get your favorite gene
  • a. Candidate gene approach
  • b. From the protein back to the gene
  • c. Functional complementation
  • d. Expression pattern: Enhancer and Gene trap, Differential expression (subtractive hybridization, microarray)
  • e. Forward genetics (The worse the better) Mutagenesis (EMS, T-DNA, transposon, activator tagging), Ups and downs of genetic screening, Gene identification and verification, Suppressor screens
  • f. QTL
  • 3. Towards a gene function
  • a. Reverse genetics (indexed mutant libraries, TILLING)
  • b. Ectopic expression
  • c. Chimeras and mosaics
  • d. Site directed mutagenesis, swaps
  • e. Phenotype analysis - from the eye to molecular markers
  • 4. Expression and localization
  • a. Quick and dirty - Northern and Western blots, RT-PCR
  • b. Reporter genes (transcriptional and translational fusions, applications)
  • c. mRNA in situ hybridization
  • d. Protein in situ localisation
  • 5. Friends and neighbors
  • a. Yeast-two-hybrid
  • b. Split ubiquitin
  • c. Genetic interactions
  • d. Upstream and downstream
  • 6. Special methods and tools
  • a. DR5 auxin response reporter
  • b. Laser ablations and laser capture
  • c. Transient transfection
  • d. Heterologous systems
  • B. Auxin 1. The components
  • a. Receptors
  • b. Signaling
  • Discovery of auxins. Towards the players: biochemistry (ABP1), genetics (AXRs), molecular biology (AUX/IAAs and ARFs), integrative model.
  • c. Auxin transport - PINing down the players
  • Physiology, Chemiosmostic model, molecular components (PINs, AUXs) - expression, localization, function. d.Subcelullar trafficking and cell polarity
  • Cycling of the auxin transport components, auxin transport inhibitors and their effects, relevance of cycling for auxin transport, endocytosis in plants, polar targeting.
  • Isolation of gnom mutant, GNOM protein - biochemical function and role in development. Connection to the auxin transport. GNOM and endosome recycling.
  • 2. Development
  • a. From production to action
  • b. Tropism
  • Physiology, genetics, molecular and cell biology of gravitropism: Integration of approaches for understanding of the single process.
  • c. Root meristem
  • Arabidopsis meristem pattern, intercellular signals: quiescent centre, stem cells, auxin as the positional signal, radial patterning - SHR/SCR.
  • d. Organogenesis - so different and so similar
  • Overview of different organogenesis processes, shoot derived organs, root-derived organs, correlations between local auxin gradients, transport and organ formation.
  • e. Embryogenesis - apical-basal axis formation
  • Pattern formation during embryogenesis, Arabidopsis mutants, gene identities, implication of auxin, auxin distribution and transport, PIN expression, polarities, roles, model.
  • C. Cytokinin - Complexity of plant hormone signaling
  • Biosynthesis, degradation, perception, signal transduction (Histidine kinase two component system), isolation and verification of the receptors and downstream components, Function in plant development.
  • D.Ethylene - A success of forward genetics
  • Genetic dissection of ethylene signaling, molecular characterization and arrangement of the pathway, Histidine kinase two component system
  • E. The complexity pf hormone crosstalk
Výukové metody
Theory class: lectures, class discussions.
Metody hodnocení
Oral examination. Assessment will be based on the interaction with students during the course (Questions, Discussions). Final oral exam will consist in questions related to each parts of the course. To pass the exam, the student will have to answer at least one question from each part of the course.
Vyučovací jazyk
Angličtina
Informace učitele
The course will be taught by lectures on Wednesdays 9am to 12am from 22/2 to 7/5. Location of the course will be in building A26.
Další komentáře
Studijní materiály
Předmět je dovoleno ukončit i mimo zkouškové období.
Předmět je vyučován každoročně.
Předmět je zařazen také v obdobích podzim 2011 - akreditace, jaro 2015, jaro 2016, jaro 2018, jaro 2019, jaro 2020, jaro 2021, jaro 2022, jaro 2023, jaro 2024, jaro 2025.