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Items: 12

1.

Genomic Bayesian functional regression models with interactions for predicting wheat grain yield using hyper-spectral image data.

Montesinos-López A, Montesinos-López OA, Cuevas J, Mata-López WA, Burgueño J, Mondal S, Huerta J, Singh R, Autrique E, González-Pérez L, Crossa J.

Plant Methods. 2017 Jul 27;13:62. doi: 10.1186/s13007-017-0212-4. eCollection 2017.

2.

Single-Step Genomic and Pedigree Genotype × Environment Interaction Models for Predicting Wheat Lines in International Environments.

Pérez-Rodríguez P, Crossa J, Rutkoski J, Poland J, Singh R, Legarra A, Autrique E, Campos GL, Burgueño J, Dreisigacker S.

Plant Genome. 2017 Jul;10(2). doi: 10.3835/plantgenome2016.09.0089.

3.

Identification of genomic regions for grain yield and yield stability and their epistatic interactions.

Sehgal D, Autrique E, Singh R, Ellis M, Singh S, Dreisigacker S.

Sci Rep. 2017 Feb 1;7:41578. doi: 10.1038/srep41578.

4.

Wheat quality improvement at CIMMYT and the use of genomic selection on it.

Guzman C, Peña RJ, Singh R, Autrique E, Dreisigacker S, Crossa J, Rutkoski J, Poland J, Battenfield S.

Appl Transl Genom. 2016 Oct 29;11:3-8. doi: 10.1016/j.atg.2016.10.004. eCollection 2016 Dec. Review.

5.

Canopy Temperature and Vegetation Indices from High-Throughput Phenotyping Improve Accuracy of Pedigree and Genomic Selection for Grain Yield in Wheat.

Rutkoski J, Poland J, Mondal S, Autrique E, Pérez LG, Crossa J, Reynolds M, Singh R.

G3 (Bethesda). 2016 Sep 8;6(9):2799-808. doi: 10.1534/g3.116.032888.

6.

Grain yield, adaptation and progress in breeding for early-maturing and heat-tolerant wheat lines in South Asia.

Mondal S, Singh RP, Mason ER, Huerta-Espino J, Autrique E, Joshi AK.

Field Crops Res. 2016 Jun;192:78-85.

7.

Increased prediction accuracy in wheat breeding trials using a marker × environment interaction genomic selection model.

Lopez-Cruz M, Crossa J, Bonnett D, Dreisigacker S, Poland J, Jannink JL, Singh RP, Autrique E, de los Campos G.

G3 (Bethesda). 2015 Feb 6;5(4):569-82. doi: 10.1534/g3.114.016097.

8.

Validation of the LittlEARS((R)) Auditory Questionnaire in children with normal hearing.

Coninx F, Weichbold V, Tsiakpini L, Autrique E, Bescond G, Tamas L, Compernol A, Georgescu M, Koroleva I, Le Maner-Idrissi G, Liang W, Madell J, Mikić B, Obrycka A, Pankowska A, Pascu A, Popescu R, Radulescu L, Rauhamäki T, Rouev P, Kabatova Z, Spitzer J, Thodi Ch, Varzic F, Vischer M, Wang L, Zavala JS, Brachmaier J.

Int J Pediatr Otorhinolaryngol. 2009 Dec;73(12):1761-8. doi: 10.1016/j.ijporl.2009.09.036. Epub 2009 Oct 17.

PMID:
19836842
9.

Molecular mapping of wheat. Homoeologous group 3.

Nelson JC, Deynze AE, Sorrells ME, Autrique E, Lu YH, Negre S, Bernard M, Leroy P.

Genome. 1995 Jun;38(3):525-33.

PMID:
18470186
10.

Molecular mapping of wheat. Homoeologous group 2.

Nelson JC, Deynze AE, Sorrells ME, Autrique E, Lu YH, Merlino M, Atkinson M, Leroy P.

Genome. 1995 Jun;38(3):516-24.

PMID:
18470185
11.

A molecular linkage map of cultivated oat.

O'Donoughue LS, Sorrells ME, Tanksley SD, Autrique E, Deynze AV, Kianian SF, Phillips RL, Wu B, Rines HW, Rayapati PJ, Lee M, Penner GA, Fedak G, Molnar SJ, Hoffman D, Salas CA.

Genome. 1995 Apr;38(2):368-80.

PMID:
18470176
12.

Molecular markers for four leaf rust resistance genes introgressed into wheat from wild relatives.

Autrique E, Tanksley SD, Sorrells ME, Singh RP.

Genome. 1995 Feb;38(1):75-83.

PMID:
18470154

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