Mon. 6 Jun, 2016 - Sun. 12 Jun, 2016
Tue. 7 Jun, 2016
Thesis Defence - Franziska Bandau
Tue. 7 Jun, 2016 10:00 - 13:00
Thesis Defence Department of Plant Physiology
Franziska Bandau
Title: Importance of tannins for responses of aspen to anthropogenic nitrogen enrichment
Faculty Examiner: Lisbeth Jonsson, professor, Stockholm University, Department of Ecology, Environment and Plant Sciences
Supervisor: Benedicte Albrectsen.
Room: Lilla hörsalen, KB3A9
Franziska Bandau
Title: Importance of tannins for responses of aspen to anthropogenic nitrogen enrichment
Faculty Examiner: Lisbeth Jonsson, professor, Stockholm University, Department of Ecology, Environment and Plant Sciences
Supervisor: Benedicte Albrectsen.
Room: Lilla hörsalen, KB3A9
Wed. 8 Jun, 2016
Paul C. Rogers - North American Quaking Aspen: functional effects of elk, fire, and climate on long-term resilience
Wed. 8 Jun, 2016 9:00 - 10:00
Speaker:
Paul C. Rogers
Director, Western Aspen Alliance
Department of Wildland Resources
Utah State University
http://www.western-aspen-alliance.org/
Title: North American Quaking Aspen: functional effects of elk, fire, and climate on long-term resilience
Host: Lars Edenius (VFM, SLU)
Contact:This email address is being protected from spambots. You need JavaScript enabled to view it.
Place: Skogis
Paul C. Rogers
Director, Western Aspen Alliance
Department of Wildland Resources
Utah State University
http://www.western-aspen-alliance.org/
Title: North American Quaking Aspen: functional effects of elk, fire, and climate on long-term resilience
Host: Lars Edenius (VFM, SLU)
Contact:
Place: Skogis
Cutting Edge Seminar - Daniel Cosgrove
Wed. 8 Jun, 2016 15:15 - 16:15
NOTE CHANGED DAY: WEDNESDAY
UPSC Cutting Edge Seminar
Speaker:
Daniel Cosgrove
Department of Biology
The Pennsylvania State University, University Park, PA, USA
Title: Rethinking the architecture and mechanics of growing plant cell walls and mechanisms of cell wall loosening. Insights from biomechanics, atomic force microscopy and the actions of wall-loosening enzymes.
Host: Stephanie Robert
Place: Lilla Hörsalen, KB3A9
UPSC Cutting Edge Seminar
Speaker:
Daniel Cosgrove
Department of Biology
The Pennsylvania State University, University Park, PA, USA
Title: Rethinking the architecture and mechanics of growing plant cell walls and mechanisms of cell wall loosening. Insights from biomechanics, atomic force microscopy and the actions of wall-loosening enzymes.
Host: Stephanie Robert
Place: Lilla Hörsalen, KB3A9
Fri. 10 Jun, 2016
Seminar - Mikko Sillanpää: An efficient genome-wide multilocus epistasis search
Fri. 10 Jun, 2016 13:00 - 14:00
UPSC Seminar
Speaker:
Mikko Sillanpää
Helsinki University, Finland
Title:
An efficient genome-wide multilocus epistasis search
Room: Lilla hörsalen, KB3A9
Host: Rosario Garcia Gil
Abstract
High-throughput laboratory techniques are producing vast amount of genomic marker data – discrete predictors to association studies. Linear regression model is often considered to link study phenotypes and these marker measurements to each other. Number of predictors in multi-marker regression models can easily be much larger than number of observations. Therefore, one needs application of variable selection to find small subset of important predictors out of large number of candidates. Such models can occasionally include also all pairwise locus-by-locus (epistasis) interactions which increases dimensionality of the model very rapidly.
We consider variable selection problem of linear model containing large amount of predictors and all of their pairwise interactions in the model jointly. Our suggested approach (Kärkkäinen et al. 2015) use sure-independence-screening to first drop dimension of the problem by considering marginal importance of each interaction term within the huge loop. Subsequent estimation step then consider Bayesian variable selection approach (Extended Bayesian LASSO – Mutshinda and Sillanpää 2010). We also show that it is important to separate search of main and interaction effects in the algorithm to control number of false positives. Examples illustrates superior performance of our method over PLINK in terms of computation time and empirical power. Our successful examples consider even problem of originally of order of 280,000,000 interactions within a reasonable time frame.
REFERENCES
Mutshinda CM, Sillanpää MJ (2010) Extended Bayesian LASSO for multiple quantitative trait loci mapping and unobserved phenotype prediction. Genetics 186: 1067-1075.
Kärkkäinen HP, Li Z, Sillanpää MJ (2015) An efficient genome-wide multilocus epistasis search. Genetics 201: 865-870.
Speaker:
Mikko Sillanpää
Helsinki University, Finland
Title:
An efficient genome-wide multilocus epistasis search
Room: Lilla hörsalen, KB3A9
Host: Rosario Garcia Gil
Abstract
High-throughput laboratory techniques are producing vast amount of genomic marker data – discrete predictors to association studies. Linear regression model is often considered to link study phenotypes and these marker measurements to each other. Number of predictors in multi-marker regression models can easily be much larger than number of observations. Therefore, one needs application of variable selection to find small subset of important predictors out of large number of candidates. Such models can occasionally include also all pairwise locus-by-locus (epistasis) interactions which increases dimensionality of the model very rapidly.
We consider variable selection problem of linear model containing large amount of predictors and all of their pairwise interactions in the model jointly. Our suggested approach (Kärkkäinen et al. 2015) use sure-independence-screening to first drop dimension of the problem by considering marginal importance of each interaction term within the huge loop. Subsequent estimation step then consider Bayesian variable selection approach (Extended Bayesian LASSO – Mutshinda and Sillanpää 2010). We also show that it is important to separate search of main and interaction effects in the algorithm to control number of false positives. Examples illustrates superior performance of our method over PLINK in terms of computation time and empirical power. Our successful examples consider even problem of originally of order of 280,000,000 interactions within a reasonable time frame.
REFERENCES
Mutshinda CM, Sillanpää MJ (2010) Extended Bayesian LASSO for multiple quantitative trait loci mapping and unobserved phenotype prediction. Genetics 186: 1067-1075.
Kärkkäinen HP, Li Z, Sillanpää MJ (2015) An efficient genome-wide multilocus epistasis search. Genetics 201: 865-870.