mixed models for qtlxe in multi-parent populations (ampril ... · mixed models for qtlxe in...
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Mixed models for QTLxE in multi-parent populations (AMPRIL, NAM, diallel)
Fred van Eeuwijk &
Martin Boer, Joao Paulo, Hans Jansen, Marcos Malosetti, Marco Bink
MAGIC, Cambridge, 13 June 2013
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Mixed model QTL mapping
► Phenotype = | Replicate +| Incomplete block within replicate +| Genotype + | error
► QTL mapping:| Genotype =
• QTLs + • residual genotype
QTLs are found by ‘regression’ on marker information (conditional QTL genotype probabilities given marker genotypes and map/ IBD)
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QTL mixed model for multiple environments (QTLxE)
► Phenotype =
| Environment mean +
| Environment specific QTLs +
| Environment specific residual genetic effect +
| Environment specific error
► Mean
► VCOV (genetic part)
| Residual genetic variation should allow environment specific variances and correlations
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QTL mixed model for multiple traits (genetic correlations)
► Phenotype =| Trait mean +
| Trait specific QTLs +
| Trait specific residual genetic effect +
| Trait specific error
► VCOV for residual genetic variation between traits should allow for trait specific variances and correlations
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Multiple traits (genetic correlations) in multiple environments (QTLxE)
► Phenotype
| Trait-environment mean +
| Trait-environment specific QTLs +
| Trait-environment specific residual genetic effect +
| Trait-environment specific error
► VCOV
| Genetic variances differ across trait-environment combinations
| Genetic correlations between traits can be environment specific
| Genetic correlations between environments can be trait specific
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QTL e ffe c ts
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p t_ l e a f.SP2p t_ l e a f.SP1p t_ l e a f.NL 2p t_ l e a f.NL 1
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L UE.SP2L UE.SP1L UE.NL 2L UE.NL 1L AI .SP2L AI .SP1L AI .NL 2L AI .NL 1INL .SP2INL .SP1INL .NL 2INL .NL 1
DW V.SP2DW V.SP1DW V.NL 2DW V.NL 1DW S.SP2DW S.SP1DW S.NL 2DW S.NL 1DW L .SP2DW L .SP1DW L .NL 2DW L .NL 1DW F .SP2DW F .SP1DW F .NL 2DW F .NL 1
Ax l .SP2Ax l .SP1Ax l .NL 2Ax l .NL 1
12 11 10 9 8 7 6 5 4 3 2 1
Chromosomes
Env
ironm
ents
Multi‐trait multi‐environment QTL analysis
Trai
ts x
Env
ironm
ents
Nurudeen Alimi
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Number of QTLs and explained variance when increasing model
complexity, without going to genomic prediction Fr
eque
ncy
0 5 10 20 30
050
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Freq
uenc
y
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Freq
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Percentage of Explained Variance
Figure 7: Histogram of Explained Variance by individual QTLs as detected by ME, MT and MTME analyses. MTME produced far more QTLs than ME and MT but many of the extra QTLs
from MTME are of small effects.
ME MT MTME
Nurudeen Alimi
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QTL mapping in multi-parent populations
► Phenotype =
| Population intercept +
| Population specific QTLs +
| Pop. spec. res. genetic effect +
| Pop. spec. error
► Calculate identity by descent between offspring and parents/ ancestors/ founders for use as genetic predictors/ regressors, xi .
► Statistical analysis by mixed models or Bayesian techniques
ci
ci
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ic
Gax
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i = genotypec = cross / population
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Literature and software
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Multi-population QTL analysis: Case 1Arabidopsis Multi-Parent RIL population
►Statistics
► Fred van Eeuwijk
► João Paulo
► Martin Boer
► Paul Keizer
► Marco Bink
►Biology
► Xueqing Huang
► Sigi Effgen
► Maarten Koornneef
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A B C DA x x xB x x xC x xD x x x
A = P1xP2 = Col x Kyo-1B = P3xP4 = Cvi x ShaC = P5xP6 = Eri-1 x An-1D = P7xP8 = Ler x C24
Arabidopsis Multi Parent RIL population (AMPRIL)
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AMPRILMulti-parent, multi-population
► Inclusion of a certain amount of natural genetic variation
► Possibility to study new combinations of alleles
► Higher power due to higher probability of segregation (diallel of F1*’s)
| Segregation in at least one, but hopefully more sub populations
► Higher precision| 4-way cross followed by 4 generations of inbreeding
► Residual heterozygosity in F4 allows fine mapping by producing NILs (HIFs)
► Epistasis: QTL x population & QTL x QTL
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Founder Allele IBD probability : LG 1Col Kyo Cvi Sha Eri An Ler C24
A B C D
AB01 AB02 BA41 AC01 AC02 CA46 DA01 DA02 AD41 BC01 BC02 CB49 DB01 DB02 BD45 CD01 CD02 DC46
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QTL mapping procedure
► Simple Interval mapping: testing single QTL| y = Pop + {X + X.Pop} + residual
| X532 x 8 : IBD information; row = F4 line; column = parent/founder
| For convenience the QTL effects are not written explicitly alongside the genetic design matrix
| Residual is cross dependent
► Deviance test for QTLs and QTL by cross interactions
► Composite Interval Mapping| Model: y = Pop + {∑ QTL + ∑ QTL.Pop}+ {X + X.Pop} + residual
► Final model by back selection
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Flowering time, SIM profileFlowering time
30
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QTL effects
0
An
Eri
Kyo
Col
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C24
3
Ler
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Cvi
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Foun
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Chromosomes
-log1
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)
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QTL profiles obtained from Simple Interval Mapping (SIM) and from Composite
Interval Mapping (CIM), for three traits.Simple Interval mapping Composite interval mapping
FT
RLW
SM
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Effects and standard errors of four QTL retained in the final model for flowering
time expressed in days, % genotypic variation explained
Chr Pos h2QTL Cross Cvi Sha Ler C24 Col Kyo Eri An SE (min,max)
1 39 1.6% 0.43 -0.24 0.30 -1.73 -0.65 0.34 -0.50 1.99 (0.56,0.65)1 112 3.5% -1.31 1.78 0.11 -1.38 -0.59 2.73 0.09 -0.88 (0.62,0.79)4 2 28.4% -3.35 3.40 -2.58 4.30 -2.63 7.26 -1.60 -3.25 (1.38,1.49) AB -0.98 -0.55 - - -0.63 -1.93 - -
(1.45,2.01)
AC - - - - -0.69 3.47 0.25 -0.94 4(a) 2 2.8% AD - - -1.49 0.84 0.70 0.18 - -
BC 0.27 1.53 - - - - 0.86 1.75 BD -0.09 -0.17 1.80 -1.54 - - - -
CD - - -0.92 1.71 - - -1.49 -1.58 5 12 17.5% 6.79 -3.98 -3.66 -1.30 5.47 -0.42 2.75 -1.23 (0.79,1.05)
(a) interaction effects of cross by QTL
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Acc
umul
atio
n of
cer
tain
ty
Posterior inference on model parameters
Priors
Model
Data TRAIT PEDIGREE MARKER
effect(k)
loc(k)
gtp (xk)
NQTL
Bayesian Analysis
QTLN
k kkN 12,~ xy
2,~k
Nk 0 ],[~ 1 Mk U ][~ PoiNQTL
Simplified Hierarchical Model for QTL mapping in pedigreed populations. Explanation abbreviations:gtp = genotypes for the k-thQTLloc = location of the k-th QTLN_QTL = number of QTL in model (= random variable)gtp may be separated into founder genotypes and non-founder segregation indicators (cf. Thompson 2000)effect may comprise additive, non-additive, epistatic, etc.
Marco Bink
M2
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Slide 18
M2 Simplified Hierarchical Model for QTL mapping in pedigreed populations. Explanation abbreviations:gtp = genotypes for the k-th QTLloc = location of the k-th QTLN_QTL = number of QTL in model (= random variable)gtp may be separated into founder genotypes and non-founder segregation indicators (cf. Thompson 2000)effect may comprise additive, non-additive, epistatic, etc.Bink, 8-11-2009
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Bayesian QTL mapping: trait FT
Marco Bink
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Comparing mixed model and Bayesian analysisComposite interval mapping
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Epistasis
► Start off with the final QTL subset, i.e.
y = Pop + X40 + X113 + X396 + {X396.Pop} + X507 + residual
► Test epistasis between identified QTLs i and j
y = cross + X40 + X113 + (X396 + X396.Pop)+ X507
+ Xi + Xj + Xi·Xj + residual
► Test the epistatic effect corresponding to the product matrix Xi·Xj via deviance test for variance component
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Significant epistatic interactions in the AMPRIL population
Trait QTLi (chr,pos) QTLj (chr,pos) -
log10(P) h2QTLxQTL
FT (1,112) (4,2) 1.98 1.7% FT (4,2) (5,12) 3.12 2.6% TLN (1,121) (4,2) 1.45 1.4% TLN (4,2) (5,13) 1.97 2.5% RLN (1,19) (1,121) 1.44 1.2% RLN (1,121) (4,2) 1.60 1.4% RLN (4,2) (5,13) 1.52 2.2% CLN (4,2) (5,14) 2.23 2.6% LA (1,17) (3,56) 1.60 2.4% LW (1,123) (2,83) 1.37 0.7% PW (1,18) (1,144) 2.03 2.3% PW (3,56) (5,115) 1.37 1.7% RPA (1,37) (2,55) 2.25 3.2% SM (2,56) (3,92) 1.51 2.0% SM (2,56) (4,2) 1.46 1.6% TBN (1,121) (4,2) 2.39 2.3% RBN (1,123) (4,2) 1.60 2.2% RBN (4,2) (5,13) 2.70 4.8% SBN (4,2) (5,13) 2.10 2.5%
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Conclusions use AMPRIL
►Power: QTLs with explained variance below 2% detected
►Epistasis: effects with explained variance between 1 and 2% were detected
►Precision: expected nr of cross-overs 3.625 | (larger than for 2-way RIL, 2.5; 4-way RIL, 3.0)
►Confirmation of detected: by HIFs
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Multi-population QTL analysis: Case 2NAM population in maize (Buckler)►Marcos Malosetti
►Amy Jacobson
►Joao Paulo
►Martin Boer
►Fred van Eeuwijk
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NAM populations
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QTL mixed model for multiple environments (QTLxE)
► Phenotype =
| Environment mean +
| Environment specific QTLs +
| Environment specific residual genetic effect +
| Environment specific error
ijijjijij GaxP
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Ear height: population 19 (B73xMS71)
QTL+QTLxE analysis for EH (CIM; VCOV = FA model)Main Effects analysis for EH
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Population 24 (B73xP39)
07A
06PR
QTL+QTLxE analysis for EH (CIM; VCOV = FA model)
Single Trait Single Environment QTL analysis
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Multiple populations in single environment
►Linkage Analysis
►Phenotype =| Population Mean +
| Population specific QTLs +
| Population specific residual genetic effect +
| Population specific error
)( kikikikik GaxP
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Linkage Analysis for Environment 06PR
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Multiple populations in multiple environments
►Linkage Analysis
►Phenotype =| Pop.Env Mean +
| Pop.Env specific QTLs +
| Pop.Env specific residual genetic effect +
| Pop.Env specific error
| Residual genetic effect and error: unstructured VCOV
}{ )()( jkijkijkijkijk GaxP
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Multi-Population Multi-Environment
Population 24
Population 19
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Conclusions
►Mixed model QTL mapping is a flexible tool to analyse multi-population data
| Set-up design vectors/matrices to represent genetic data (IBD/IBS)
| Test for environment and/or population specific QTLs (fixed/ random)
| Structure residual genetic effects (environment, population) in appropriate ways for valid testing
| Take care to model within environment/ trial error structure (randomization based + spatial)
| Use of multiple populations offers straightforward way of testing QTL x background interactions