New resources and strategies for genome-wide mapping in sorghum Geoff Morris Research Assistant...
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- Slide 1
- New resources and strategies for genome-wide mapping in sorghum
Geoff Morris Research Assistant Professor Kresovich Lab University
of South Carolina
- Slide 2
- Why do we need gene-resolution mapping (or causal variants)?
More accurate marker-assisted selection, in breeding programs and
from germplasm Leverage knowledge from other crops and model plant
species
- Slide 3
- Genotyping- by-sequencing identified 265,000 SNP markers
- Slide 4
- An atlas of genomic variation in 1000 sorghum accessions
Genetic Variation: Recombination rates:
- Slide 5
- Mapping genes underlying trait variation using genome-wide
association studies (GWAS) * Causative A T Phenotype Tallest Taller
Tall Short Shorter Shortest p < 10 -8 p = 10 -0 Quantitative
trait locus (Candidate gene) Height T A Linked SNP G C C G Unlinked
SNP G C G C G C G
- Slide 6
- GWAS reveals multiple loci controlling panicle branch length
CLV1 APO1 SP1 ID1 LUG BDE1,ID1 TCP,TLK GDD 1 THE1 LOM3 DFL2 F-box
protein in rice (Ikeda et al. 2005 Dev Biol) Receptor-like kinase
in maize (Lunde and Hake 2009 Genetics) Peptide transporter in rice
(Li et al. 2009 Plant J) Aberrant panicle organization1 ortholog
Short panicle1 homolog Thick tassel dwarf1 homolog
- Slide 7
- Back to basics: Pigmentation
- Slide 8
- Testing GWAS with validated flavonoid genes The classical testa
gene B2 was cloned as Tannin1 G/T polymorphism found in GBS data
Positive control for GWAS in sorghum Wu et al. PNAS 2012
- Slide 9
- Mapping testa (presence/absence) in an association panel GLM
and CMLM (K, Q+K) identify the locus but not the gene
- Slide 10
- Synthetic associations can prevent gene-level resolution in
GWAS tan1-a allele Synthetic associations MAF=20% MAF=46% Orozco et
al. 2010 Caused by multiple independent mutations in the same
gene:
- Slide 11
- Gene-resolution mapping of Tannin1 GLM (Q) and MLM (K) do map
Tannin1 precisely
- Slide 12
- Precise mapping of Tannin1 in recombinant inbred lines One day
of scratch tests + GBS data = Precise mapping of Tannin1 Stem borer
mapping population (n=263)
- Slide 13
- Pericarp pigmentation in the sorghum association panel Ibraheem
et al. 2010 Yellow seed1 cloned by Chopra lab
- Slide 14
- Basal seedling (coleoptile) pigmentation mapped in a RIL
Arabidopsis TT8 Maize B1
- Slide 15
- Adult plant pigmentation (tan vs. purple) mapped in a RIL
Colocalizes with classical P locus Maps to cluster of DFR (Maize
A1)
- Slide 16
- Lessons learned Higher-density genotyping will yield more
useful mapping results Genotyping-by-sequencing gets the most out
of existing investments in RILs GWAS can provide gene-resolution
mapping but signals may be complex/indirect Best of both worlds:
Nested Association Mapping (NAM) Regional Mapping (RegMap)
- Slide 17
- Mapping climate-associated alleles in a high-resolution global
diversity panel 700,000 SNPs genotyped in 2,500 source-identified
accessions of African and Asian origin
- Slide 18
- More info: www.morrislab.org Starting November 1 Assistant
Professor Sorghum Genetics and Genomics Department of Agronomy
- Slide 19
- Project team University of South Carolina Stephen Kresovich,
Davina Rhodes, Zachary Brenton Cornell University/Institute for
Genomic Diversity/USDA-ARS SNP pipeline: Ed Buckler, Jeff Glaubitz,
James Harriman Genotyping: Sharon Mitchell, Charlotte Acharya
International Crops Research Institute for the Semi-Arid Tropics
(ICRISAT Patancheru, India) Punna Ramu* Germplasm: Tom Hash, Oscar
Riera-Lizarazu, Hari Upadhyaya, Santosh Deshpande, Vinayan Madhumal
Bioinformatics: Trushar Shah University of Illinois Phenotypes:
Patrick Brown Iowa State University Jianming Yu Funding
NSF/Gates-Basic Research to Enable Agricultural Development
USDA-Feedstock Genomics