Genetics and Genomics of Light Response adaptation in Arabidopsis thaliana Justin Borevitz Ecology & Evolution University of Chicago

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Presentation transcript:

Genetics and Genomics of Light Response adaptation in Arabidopsis thaliana Justin Borevitz Ecology & Evolution University of Chicago

Widely Distributed Olivier Loudet

Talk Outline Light Response Wild Collections –Local Population Sampling/ structure Seasonal Growth Chambers –KasC/ VanC RILs Whole Genome SNP/Tiling Arrays –Single Feature Polymorphisms (SFPs) –Potential deletions/ Copy Number Variants Aquilegia Light Response Wild Collections –Local Population Sampling/ structure Seasonal Growth Chambers –KasC/ VanC RILs Whole Genome SNP/Tiling Arrays –Single Feature Polymorphisms (SFPs) –Potential deletions/ Copy Number Variants Aquilegia

Light Affects the Entire Plant Life Cycle de-etiolation hypocotyl }

Quantitative Trait Loci

Local Population Variation

Local adaptation under strong selection

Seasonal Variation Matt Horton Megan Dunning

Collections 807 Lines from 25 Midwest Populations –(Diane Byers IL state) – growing! 1101 Lines from UK, 51 populations –(Eric Holub Warwick, UK) – growing! > 500 lines N and S Sweden (Nordborg) > 400 Lines France and Midwest (Bergelson) 400 lines Midwest (Borevitz) 857 Accessions stock center (Randy Scholl) –Others welcome… Will be genotyped with Sequenom 149 SNPs $0.03 per

Variation within a field (web link)

Within and Between Variation BAKKER, E. G., STAHL, E. A., TOOMAJIAN, C., NORDBORG, M., KREITMAN, M. & BERGELSON, J. Distribution of genetic variation within and among local populations of Arabidopsis thaliana over its species range. Molecular Ecology 15 (5),

48 Non singleton SNPs of 87 tested Megan Dunning, poster #268 Local Population Structure in the Midwest

120 SNPs of 149 tested including inbred lines Norman Warthmann` Global Population Structure

Regional/Seasonal Variation What is Local Adaptation? Predictable Seasonal changes unique to each location. Tossa Del Mar Spain Lund Sweden

Seasons in the Growth Chamber Changing Day length Cycle Light Intensity Cycle Light Colors Cycle Temperature Sweden Spain Seasons in the Growth Chamber Changing Day length Cycle Light Intensity Cycle Light Colors Cycle Temperature Geneva Scientific/ Percival Developmental Plasticity == Behavior

Kurt Spokas Version 2.0a June 2006 USDA-ARS Website Midwest Area (Morris,MN)

I II III IV V Genetic map of the Kas-1 x Col-gl1 RIL population 55 markers from Wolyn et al. (2004) & 64 additional SNP markers.

Sweden 1 Col-gl1 Kas1 Sweden 2 Col-gl1 Kas1 Spain 1 Col-gl1 Kas1 Spain 2 Col-gl1 Kas1 Distribution of flowering time among 96 Kas-1/Col-gl1 RILs Number of RILs

Kas/Col flowering time QTL FRI Chr3 Chr4Chr5

Kas/Col flowering time QTL GxE Chr4 FRI Chr1 FLM Chr4 FRI

Environment and Epistasis ABC

768 VanC AIL-RILs SNPs Stock Center Release (Evadne Smith) 768 VanC AIL-RILs SNPs Stock Center Release (Evadne Smith) Van no mitochondrial insertion FLC Total Leaf Number

RNA DNA Universal Whole Genome Array Transcriptome Atlas Expression levels Tissues specificity Transcriptome Atlas Expression levels Tissues specificity Gene/Exon Discovery Gene model correction Non-coding/ micro-RNA Gene/Exon Discovery Gene model correction Non-coding/ micro-RNA Alternative Splicing Comparative Genome Hybridization (CGH) Insertion/Deletions Copy Number Polymorphisms Comparative Genome Hybridization (CGH) Insertion/Deletions Copy Number Polymorphisms Methylation Chromatin Immunoprecipitation ChIP chip Chromatin Immunoprecipitation ChIP chip Polymorphism SFPs Discovery/Genotyping Polymorphism SFPs Discovery/Genotyping Control for hybridization/genetic polymorphisms to understand TRUE expression variation RNA Immunoprecipitation RIP chip RNA Immunoprecipitation RIP chip Antisense transcription Allele Specific Expression

Which arrays should be used? cDNA array Long oligo array BAC array

Which arrays should be used? Gene array Exon array Tiling array 35bp tile, 25mers 10bp gaps

Which arrays should be used? Tiling/SNP array k SNPs, 1.6M tiling probes SNP array Ressequencing array How about multiple species? Microbial communities?

SNP SFP MMMMMM MMMMMM Chromosome (bp) conservation SNP ORFa start AAAAA Transcriptome Atlas ORFb deletion Improved Genome Annotation

Potential Deletions

Deltap0FALSECalledFDR % % % % % SFP detection Genotype effect on tiling arrays IntergenicExonintron SFPs total %8.86%3.53%5.71% SFPs/gene0>=1>=2>=3>=4>=5 genes

Chip genotyping of a Recombinant Inbred Line 29kb interval

Copy Number Variation ( Potential Deletions) >500 potential deletions 45 confirmed by Ler sequence 23 (of 114) transposons Disease Resistance (R) gene clusters Single R gene deletions Genes involved in Secondary metabolism Unknown genes

Fast Neutron deletions FKF1 80kb deletion CHR1cry2 10kb deletion CHR1 Het Sam Hazen (Scripps)

Natural Copy Variation on Tiling Arrays Segregating self seed from wild ME isolate (Early – Late)

Potential Deletions Suggest Candidate Genes FLOWERING1 QTL Chr1 (bp) Flowering Time QTL caused by a natural deletion in FLM FLM FLM natural deletion (Werner et al PNAS 2005)

Experimental Design of Association Study Sample > 3000 wild strains, 149 SNPs Select 3*384 less structured reference fine mapping set for SFP resequencing Scan Genome for variation/selection Measure phenotype in Seasonal Chambers Haplotype map/ LD recombination blocks Associate Quantitative phenotypes with HapMap

Array Haplotyping Inbred lines Low effective recombination due to partial selfing Extensive LD blocks ColLerCviKasBayShahLzNd Chromosome1 ~500kb

Aquilegia (Columbines) Recent adaptive radiation, 350Mb genome

Species with > 20k ESTs 11/14/2003 Animal lineage: good coverage Plant lineage: crop plant coverage

Genetics of Speciation along a Hybrid Zone

NSF Genome Complexity Microarray development –QTL candidates Physical Map (BAC tiling path) –Physical assignment of ESTs QTL for pollinator preference –~400 RILs, map abiotic stress –QTL fine mapping/ LD mapping Develop transformation techniques –VIGS Whole Genome Sequencing (JGI?) Scott Hodges (UCSB) Elena Kramer (Harvard) Magnus Nordborg (USC) Justin Borevitz (U Chicago) Jeff Tompkins (Clemson)

NaturalVariation.org USC Magnus Nordborg Paul Marjoram Max Planck Detlef Weigel Scripps Sam Hazen University of Michigan Sebastian Zoellner USC Magnus Nordborg Paul Marjoram Max Planck Detlef Weigel Scripps Sam Hazen University of Michigan Sebastian Zoellner University of Chicago Xu Zhang Yan Li Peter Roycewicz Evadne Smith Michigan State Shinhan Shiu Purdue Ivan Baxter University of Chicago Xu Zhang Yan Li Peter Roycewicz Evadne Smith Michigan State Shinhan Shiu Purdue Ivan Baxter

Aquilegia (Columbines)

Scott Hodges (UCSB) Elena Kramer (Harvard) Magnus Nordborg (USC) Justin Borevitz (U Chicago) Jeff Tompkins (Clemson)

300 F4 RILs growing (Evadne Smith) TIGR gene index 85,000 ESTs >16,00 SNPs Complete BAC physical map Clemson Nimblegen arrays of 5 floral whorls Whole Genome Shotgun Sequencing 2007 JGI

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