Search Results - "Charcosset, A."

Predicting genomic selection efficiency to optimize calibration set and to assess prediction accuracy in highly structured populations by Rincent, R., Charcosset, A., Moreau, L.

“…Key message We propose a criterion to predict genomic selection efficiency for structured populations. This criterion is useful to define optimal calibration…”
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Revisiting hybrid breeding designs using genomic predictions: simulations highlight the superiority of incomplete factorials between segregating families over topcross designs by Seye, A. I., Bauland, C., Charcosset, A., Moreau, L.

“…Key message Simulations showed that hybrid performances issued from an incomplete factorial between segregating families of two heterotic groups enable to…”
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Connected populations for detecting quantitative trait loci and testing for epistasis: an application in maize by Blanc, G, Charcosset, A, Mangin, B, Gallais, A, Moreau, L

“…Quantitative trait loci (QTL) detection experiments have often been restricted to large biallelic populations. Use of connected multiparental crosses has been…”
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Maximizing the reliability of genomic selection by optimizing the calibration set of reference individuals: comparison of methods in two diverse groups of maize inbreds (Zea mays L.) by Rincent, R, Laloë, D, Nicolas, S, Altmann, T, Brunel, D, Revilla, P, Rodríguez, V M, Moreno-Gonzalez, J, Melchinger, A, Bauer, E, Schoen, C-C, Meyer, N, Giauffret, C, Bauland, C, Jamin, P, Laborde, J, Monod, H, Flament, P, Charcosset, A, Moreau, L

“…Genomic selection refers to the use of genotypic information for predicting breeding values of selection candidates. A prediction formula is calibrated with…”
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Combined linkage and linkage disequilibrium QTL mapping in multiple families of maize (Zea mays L.) line crosses highlights complementarities between models based on parental haplotype and single locus polymorphism by Bardol, N, Ventelon, M, Mangin, B, Jasson, S, Loywick, V, Couton, F, Derue, C, Blanchard, P, Charcosset, A, Moreau, Laurence

“…Advancements in genotyping are rapidly decreasing marker costs and increasing marker density. This opens new possibilities for mapping quantitative trait loci…”
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Meta-analysis of QTL involved in silage quality of maize and comparison with the position of candidate genes by Truntzler, M, Barrière, Y, Sawkins, M. C, Lespinasse, D, Betran, J, Charcosset, A, Moreau, L

“…A meta-analysis of quantitative trait loci (QTL) associated with plant digestibility and cell wall composition in maize was carried out using results from 11…”
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General and specific combining abilities in a maize (Zea mays L.) test-cross hybrid panel: relative importance of population structure and genetic divergence between parents by Larièpe, A., Moreau, L., Laborde, J., Bauland, C., Mezmouk, S., Décousset, L., Mary-Huard, T., Fiévet, J. B., Gallais, A., Dubreuil, P., Charcosset, A.

“…Key message General and specific combining abilities of maize hybrids between 288 inbred lines and three tester lines were highly related to population…”
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Association mapping for phenology and plant architecture in maize shows higher power for developmental traits compared with growth influenced traits by Bouchet, S, Bertin, P, Presterl, T, Jamin, P, Coubriche, D, Gouesnard, B, Laborde, J, Charcosset, A

“…Plant architecture, phenology and yield components of cultivated plants have repeatedly been shaped by selection to meet human needs and adaptation to…”
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The genetic basis of heterosis: multiparental quantitative trait loci mapping reveals contrasted levels of apparent overdominance among traits of agronomical interest in maize (Zea mays L.) by Larièpe, A, Mangin, B, Jasson, S, Combes, V, Dumas, F, Jamin, P, Lariagon, C, Jolivot, D, Madur, D, Fiévet, J, Gallais, A, Dubreuil, P, Charcosset, A, Moreau, L

“…Understanding the genetic bases underlying heterosis is a major issue in maize (Zea mays L.). We extended the North Carolina design III (NCIII) by using three…”
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Out of America: tracing the genetic footprints of the global diffusion of maize by Mir, C, Zerjal, T, Combes, V, Dumas, F, Madur, D, Bedoya, C, Dreisigacker, S, Franco, J, Grudloyma, P, Hao, P. X, Hearne, S, Jampatong, C, Laloë, D, Muthamia, Z, Nguyen, T, Prasanna, B. M, Taba, S, Xie, C. X, Yunus, M, Zhang, S, Warburton, M. L, Charcosset, A

“…Maize was first domesticated in a restricted valley in south-central Mexico. It was diffused throughout the Americas over thousands of years, and following the…”
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Mesenchymal stem cell therapy induces glucocorticoid synthesis in colonic mucosa and suppresses radiation-activated T cells: new insights into MSC immunomodulation by Bessout, R, Sémont, A, Demarquay, C, Charcosset, A, Benderitter, M, Mathieu, N

“…Non-neoplastic tissues around an abdomino-pelvic tumor can be damaged by the radiotherapy protocol, leading to chronic gastrointestinal complications that…”
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Dent and Flint maize diversity panels reveal important genetic potential for increasing biomass production by Rincent, R, Nicolas, S, Bouchet, S, Altmann, T, Brunel, D, Revilla, P, Malvar, R. A, Moreno-Gonzalez, J, Campo, L, Melchinger, A. E, Schipprack, W, Bauer, E, Schoen, C.-C, Meyer, N, Ouzunova, M, Dubreuil, P, Giauffret, C, Madur, D, Combes, V, Dumas, F, Bauland, C, Jamin, P, Laborde, J, Flament, P, Moreau, L, Charcosset, A

“…KEY MESSAGE : Genetic and phenotypic analysis of two complementary maize panels revealed an important variation for biomass yield. Flowering and biomass QTL…”
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Maize introduction into Europe: the history reviewed in the light of molecular data by REBOURG, C, CHASTANET, M, GOUESNARD, B, WELCKER, C, DUBREUIL, P, CHARCOSSET, A

“…The resolution that can be obtained from molecular genetic markers affords new prospects for understanding the dispersion of agricultural species from their…”
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Marker-Assisted Introgression of Quantitative Trait Loci by Hospital, F, Charcosset, A

“…The use of molecular markers for the introgression of one or several superior QTL alleles into a recipient line is investigated using analytic and simulation…”
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Experimental evaluation of several cycles of marker-assisted selection in maize by Moreau, L, Charcosset, A, Gallais, A

“…Issue Title: Procs XII Eucarpia Biometrics in Plant Breeding Conf., La Coruña, Spain, 3-5 Sept. 2003 Selected Papers A program was initiated in 1994 to compare…”
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Detection of marker-QTL associations by studying change in marker frequencies with selection by Gallais, A, Moreau, L, Charcosset, A

“…The value of selective genotyping for the detection of QTL has already been studied from a theoretical point of view but with the assumption of a negligible…”
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Diversity and linkage disequilibrium features in a composite public/private dent maize panel: consequences for association genetics as evaluated from a case study using flowering time by Truntzler, M, Ranc, N, Sawkins, M. C, Nicolas, S, Manicacci, D, Lespinasse, D, Ribière, V, Galaup, P, Servant, F, Muller, C, Madur, D, Betran, J, Charcosset, A, Moreau, L

“…Recent progress in genotyping and resequencing techniques have opened new opportunities for deciphering quantitative trait variation by looking for…”
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BioMercator: integrating genetic maps and QTL towards discovery of candidate genes by Arcade, Anne, Labourdette, Aymeric, Falque, Matthieu, Mangin, Brigitte, Chardon, Fabien, Charcosset, Alain, Joets, Johann

“…Breeding programs face the challenge of integrating information from genomics and from quantitative trait loci (QTL) analysis in order to identify genomic…”
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Genetic architecture of flowering time in maize as inferred from quantitative trait loci meta-analysis and synteny conservation with the rice genome by Chardon, F, Virlon, B, Moreau, L, Falque, M, Joets, J, Decousset, L, Murigneux, A, Charcosset, A

“…Genetic architecture of flowering time in maize was addressed by synthesizing a total of 313 quantitative trait loci (QTL) available for this trait. These were…”
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More on the efficiency of marker-assisted selection by HOSPITAL, F, MOREAU, L, LACOUDRE, F, CHARCOSSET, A, GALLAIS, A

“…Computer simulations were used to study the efficiency of marker-assisted selection (MAS) based on an index combining the phenotypic value and the molecular…”
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