Experimental Estimation of Mutation Rates in a Wheat Population With a Gene Genealogy Approach

Raquin, Anne-Laure; Depaulis, Frantz; Lambert, Amaury; Galic, Nathalie; Brabant, Philippe; Goldringer, Isabelle

doi:10.1534/genetics.107.071332

Cited by 25 publications

(20 citation statements)

References 64 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The Ne value for the in situ population was similar to those observed in experimental populations of another autogamous species (i.e. wheat) that were multiplied ex situ for 10-15 generations sowing a similar number of plants as sown by farmers for this landrace (Goldringer et al 2001;Raquin et al 2008). In contrast, Ne values after one or two generations of ex situ multiplication were ten times lower than the Ne value Fig.…”

Section: Discussionsupporting

confidence: 77%

See 1 more Smart Citation

Effectiveness of in situ and ex situ conservation of crop diversity. What a Phaseolus vulgaris L. landrace case study can tell us

Negri

Tiranti

2010

Genetica

View full text Add to dashboard Cite

The effectiveness of in situ (on-farm) and ex situ conservation strategies to maintain total genetic diversity was assessed in a threatened Phaseolus vulgaris L. landrace. Farmer seed lots (subpopulations) were sampled initially and then after in situ and ex situ multiplication (two locations). The number of plants used in the ex situ multiplications (120) was much larger than that normally used in germplasm bank procedures and the farmer seed lots were kept separate. In situ, the landrace was multiplied by each farmer with the usual population size. Eighty plants from the initial population, the in situ and the two ex situ multiplications were individually tested using 26 microsatellite markers. Most of the genetic parameters showed a consistent decline in the ex situ populations compared with the in situ population, with a notable loss of less frequent alleles. The differentiation among the farmer subpopulations increased when the multiplication took place outside of the adaptation area. Although 120 plants were multiplied in each ex situ cycle, a bottleneck effect was present. In addition, tests for neutrality detected three loci that are involved in pathogen response and are potentially under selective effects. The diversity conservation and the management practices of autogamous landrace crops are discussed.

show abstract

Section: Discussionsupporting

confidence: 77%

“…As commonly found (Frankham 1995;Goldringer et al 2001;Raquin et al 2008), the estimated effective size was much smaller than the demographic effective size based on the true number of plants cultivated in each generation.…”

Section: Discussionmentioning

confidence: 59%

Effectiveness of in situ and ex situ conservation of crop diversity. What a Phaseolus vulgaris L. landrace case study can tell us

Negri

Tiranti

2010

Genetica

View full text Add to dashboard Cite

show abstract

“…Conversely, 31 markers were polymorphic in the evolved population but not among the parents. This could be explained by (i) alleles specific of the four lines missing from our parental panel, (ii) alleles lost for some parental lines during the management procedure in genebanks (regeneration through selfing cycles; Esquinas-Alcazar 2005), as they could have presented initial residual heterozygosity, (iii) contamination (migration) despite the isolation of plots (Hucl and Matus-Cadiz 2001), and (iv) mutation, as found for SSR markers in another wheat experimental population (Raquin et al 2008). The observed heterozygosity in the evolved population was 3.2%.…”

Section: Evolution Between the Initial And The Evolved Populationsmentioning

confidence: 97%

Efficiently Tracking Selection in a Multiparental Population: The Case of Earliness in Wheat

Thepot

Restoux

Goldringer³

et al. 2014

Genetics

Self Cite

View full text Add to dashboard Cite

Multiparental populations are innovative tools for fine mapping large numbers of loci. Here we explored the application of a wheat Multiparent Advanced Generation Inter-Cross (MAGIC) population for QTL mapping. This population was created by 12 generations of free recombination among 60 founder lines, following modification of the mating system from strict selfing to strict outcrossing using the ms1b nuclear male sterility gene. Available parents and a subset of 380 SSD lines of the resulting MAGIC population were phenotyped for earliness and genotyped with the 9K i-Select SNP array and additional markers in candidate genes controlling heading date. We demonstrated that 12 generations of strict outcrossing rapidly and drastically reduced linkage disequilibrium to very low levels even at short map distances and also greatly reduced the population structure exhibited among the parents. We developed a Bayesian method, based on allelic frequency, to estimate the contribution of each parent in the evolved population. To detect loci under selection and estimate selective pressure, we also developed a new method comparing shifts in allelic frequency between the initial and the evolved populations due to both selection and genetic drift with expectations under drift only. This evolutionary approach allowed us to identify 26 genomic areas under selection. Using association tests between flowering time and polymorphisms, 6 of these genomic areas appeared to carry flowering time QTL, 1 of which corresponds to Ppd-D1, a major gene involved in the photoperiod sensitivity. Frequency shifts at 4 of 6 areas were consistent with earlier flowering of the evolved population relative to the initial population. The use of this new outcrossing wheat population, mixing numerous initial parental lines through multiple generations of panmixia, is discussed in terms of power to detect genes under selection and association mapping. Furthermore we provide new statistical methods for use in future analyses of multiparental populations.KEYWORDS QTL detection; parental contribution; recombinant population; selection detection; experimental evolution; multiparental populations; Multiparent Advanced Generation Inter-Cross (MAGIC); MPPA LTHOUGH the recent development of genome sequencing in crop species has strongly increased capacity for gene discovery, the accurate mapping of genes controlling the genetic variation of complex traits (QTL) remains a key objective. The principal mapping methods rely on the detection of statistical association between polymorphisms at molecular markers and quantitative variation of phenotypic traits and were historically developed for progenies of biparental crosses with parents chosen for their extreme phenotypes at a trait of interest. These populations are powerful resources for QTL detection, but have low precision as few effective meioses (and thus subsequent recombinations) occur during their development. As a result, large parental haplotype blocks are preserved in the segregating population. In a...

show abstract

“…But since it's an interspecific and interploidy cross, with a high level of progeny heterozygosity, and the molecular markers were the hypervariable microsatellites, it's not such a surprise when novel alleles present. It's considered that the instability of the simple repeats are mainly caused by the unequal crossing over during recombination and polymerase slippage during DNA replication (Sia et al 1997;Raquin et al 2008), and the allele mutations or variations of the SSR loci is correlated both with the high heterozygosity and the presence of multiple alleles (Vigouroux et al 2002;Ellegren 2004). It's suggested that six of the seven SSR loci in present study had null alleles as have been reported in Actinidia by Fraser et al (2005).…”

Section: Discussionmentioning

confidence: 99%

Vitamin C, flower color and ploidy variation of hybrids from a ploidy-unbalanced Actinidia interspecific cross and SSR characterization

Zhang

Wang

et al. 2010

Euphytica

View full text Add to dashboard Cite

Seedlings derived from an Actinidia interspecific cross between the hexaploid Actinidia chinensis var. deliciosa 'Jinkui' and the diploid male A. eriantha 9 A. chinensis var. chinensis 'Chaohong' hybrid were analyzed using flow cytometry, SSR markers and phenotypic observations. The results show that the leaf vitamin C content of this hybrid population has a mid-parent heterosis. Separation of flower color in the progeny was also observed, progeny with red flowers lighter than 'Chaohong', white flowers as in 'Jinkui' and intermediate types with a red base to the petals and white margins were all present. Flow cytometry analysis confirmed that most of the progeny were tetraploids, and molecular marker data showed that most of these tetraploid progeny had three alleles from the hexaploid parent and one allele from the diploid parent. UPGMA analysis based on the SSR markers showed that the diploid parent was completely separated from the hexaploid parent and all the progeny.

show abstract

Experimental Estimation of Mutation Rates in a Wheat Population With a Gene Genealogy Approach

Cited by 25 publications

References 64 publications

Effectiveness of in situ and ex situ conservation of crop diversity. What a Phaseolus vulgaris L. landrace case study can tell us

Effectiveness of in situ and ex situ conservation of crop diversity. What a Phaseolus vulgaris L. landrace case study can tell us

Efficiently Tracking Selection in a Multiparental Population: The Case of Earliness in Wheat

Vitamin C, flower color and ploidy variation of hybrids from a ploidy-unbalanced Actinidia interspecific cross and SSR characterization

Contact Info

Product

Resources

About