| Inst. for Jordbrugsvidenskab
45 % Inst. for Plantebiologi 45 % Inst. for Basal Husdyr- og Veterinærvidenskab 10 % | |||||||||||||||
| Tidligst mulig placering | Bachelor 3. år | ||||||||||||||
| Varighed | En blok | ||||||||||||||
| Pointværdi | 7.5 (ECTS) | ||||||||||||||
| Kursustype | Fælleskursus Placeringen som fælleskursus giver fleksibilitet og mulighed for deltagelse på forskellige studieretninger | ||||||||||||||
| Eksamen | Sluteksamen skriftlig prøve Skriftlig auditorieeksamen Alle hjælpemidler tilladt Beskrivelse af eksamen: Four hours written exam based on a number of questions covering most aspects of the course. Vægtning: 100 % 13-skala, intern censur Eksamensdatoer: 05 November 2005 | ||||||||||||||
| Forudsætninger for indstilling til eksamen | Accepted lab reports(75 %) and oral presentation of case | ||||||||||||||
| Rammer for undervisning | Mixture of lectures, laboratory and computer exercises and PBL cases. | ||||||||||||||
| Blokplacering | Block 1 Ugestruktur: A | ||||||||||||||
| Undervisningssprog | Engelsk | ||||||||||||||
| Anbefalede forudsætninger | efter organismebiologi og efter bioinformatik 1 eller lignende forudsætninger for udefra kommende | ||||||||||||||
| Kompetenceområder | |||||||||||||||
| Basic science: Comprehension of integrated approaches using genetics, physiology, biochemistry and bioinformatics to relate plant phenotype with genotype as platforms for molecular models of plant metabolism. Integration of basic plant knowledge to understand complex plant model systems. Applied science: Knowledge of application of molecular tools for plant improvement through molecular breeding for agricultural plant production, biomedicine and plants as green factories. Knowledge of basic laboratory technicques within plant genomics and molecular breeding. Ethics and values: Is aware of the ethics of exploitation of new molecular approaches in plant biotechnology. | |||||||||||||||
| Kursets målsætning | |||||||||||||||
| Provide a basic knowledge about the structure of plant genomes and experience with major techniques used within basic science and molecular breeding. Focus is on closing the gap between phenotypic traits and the increasing information on plant genomes and RNA/DNA/protein sequences. The course initiates from genomics of the two model species rice and Arabidopsis and transfers the principles to cultivated crops to understand the potential of exploitations of the technology. | |||||||||||||||
| Kursusindhold | |||||||||||||||
| Forward and reverse genetics. Mutants: based on TILLING/T-DNA/transposon/spontaneous. Genome sequencing programmes - why the choice of model organisms. Genetic diversity of plants. Phylogenetic trees, pedigrees and dendrograms based on molecular markers and gene sequences. The structure of plant genomes. Molecular marker based maps and linkage analysis. Quantitative traits and their genetics (QTL). Comparative mapping of plant genomes and exploitation of synteni. Functional genomics. Plant in vitro cultures and plant regeneration. Expression profiling (arrays). Integrative genomics. | |||||||||||||||
| Undervisningsform | |||||||||||||||
| 40 % for lectures and discussion classes. 60 % for practical exercises and advice of PBL cases. Students are expected to work in dynamic groups for exercises and PBL and be able to produce short hand written and oral presentation of results. | |||||||||||||||
| Litteraturhenvisninger | |||||||||||||||
| unknown at present | |||||||||||||||
| Kursusansvarlig | |||||||||||||||
| Sven Bode Andersen, sba@life.ku.dk, Institut for Jordbrugsvidenskab/Plante- og Jordvidenskab, Tlf: 35333444 Søren Bak, bak@life.ku.dk, Institut for Plantebiologi og Bioteknologi/Plantebiokemisk Laboratorium, Tlf: 35333346 | |||||||||||||||
| Studienævn | |||||||||||||||
| Studienævn NSN | |||||||||||||||
| Kursusbeskrivelsesomfang | |||||||||||||||
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