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Items: 1 to 20 of 361

1.

Partial resistance of Medicago truncatula to Aphanomyces euteiches is associated with protection of the root stele and is controlled by a major QTL rich in proteasome-related genes.

Djébali N, Jauneau A, Ameline-Torregrosa C, Chardon F, Jaulneau V, Mathé C, Bottin A, Cazaux M, Pilet-Nayel ML, Baranger A, Aouani ME, Esquerré-Tugayé MT, Dumas B, Huguet T, Jacquet C.

Mol Plant Microbe Interact. 2009 Sep;22(9):1043-55. doi: 10.1094/MPMI-22-9-1043.

2.

AER1, a major gene conferring resistance to Aphanomyces euteiches in Medicago truncatula.

Pilet-Nayel ML, Prospéri JM, Hamon C, Lesné A, Lecointe R, Le Goff I, Hervé M, Deniot G, Delalande M, Huguet T, Jacquet C, Baranger A.

Phytopathology. 2009 Feb;99(2):203-8. doi: 10.1094/PHYTO-99-2-0203.

3.

A complex genetic network involving a broad-spectrum locus and strain-specific loci controls resistance to different pathotypes of Aphanomyces euteiches in Medicago truncatula.

Hamon C, Baranger A, Miteul H, Lecointe R, Le Goff I, Deniot G, Onfroy C, Moussart A, Prosperi JM, Tivoli B, Delourme R, Pilet-Nayel ML.

Theor Appl Genet. 2010 Mar;120(5):955-70. doi: 10.1007/s00122-009-1224-x. Epub 2009 Dec 12.

PMID:
20012740
4.

Characterization of the interaction between the bacterial wilt pathogen Ralstonia solanacearum and the model legume plant Medicago truncatula.

Vailleau F, Sartorel E, Jardinaud MF, Chardon F, Genin S, Huguet T, Gentzbittel L, Petitprez M.

Mol Plant Microbe Interact. 2007 Feb;20(2):159-67.

5.

Proteomic profiling unravels insights into the molecular background underlying increased Aphanomyces euteiches-tolerance of Medicago truncatula.

Colditz F, Braun HP, Jacquet C, Niehaus K, Krajinski F.

Plant Mol Biol. 2005 Oct;59(3):387-406.

PMID:
16235107
6.

Genetic dissection of resistance to anthracnose and powdery mildew in Medicago truncatula.

Ameline-Torregrosa C, Cazaux M, Danesh D, Chardon F, Cannon SB, Esquerré-Tugayé MT, Dumas B, Young ND, Samac DA, Huguet T, Jacquet C.

Mol Plant Microbe Interact. 2008 Jan;21(1):61-9.

7.

New consistent QTL in pea associated with partial resistance to Aphanomyces euteiches in multiple French and American environments.

Hamon C, Baranger A, Coyne CJ, McGee RJ, Le Goff I, L'anthoëne V, Esnault R, Rivière JP, Klein A, Mangin P, McPhee KE, Roux-Duparque M, Porter L, Miteul H, Lesné A, Morin G, Onfroy C, Moussart A, Tivoli B, Delourme R, Pilet-Nayel ML.

Theor Appl Genet. 2011 Jul;123(2):261-81. doi: 10.1007/s00122-011-1582-z. Epub 2011 Apr 11.

PMID:
21479935
8.
9.

High-density genome-wide association mapping implicates an F-box encoding gene in Medicago truncatula resistance to Aphanomyces euteiches.

Bonhomme M, André O, Badis Y, Ronfort J, Burgarella C, Chantret N, Prosperi JM, Briskine R, Mudge J, Debéllé F, Navier H, Miteul H, Hajri A, Baranger A, Tiffin P, Dumas B, Pilet-Nayel ML, Young ND, Jacquet C.

New Phytol. 2014 Mar;201(4):1328-42. doi: 10.1111/nph.12611. Epub 2013 Nov 28.

10.

QTL meta-analysis provides a comprehensive view of loci controlling partial resistance to Aphanomyces euteiches in four sources of resistance in pea.

Hamon C, Coyne CJ, McGee RJ, Lesné A, Esnault R, Mangin P, Hervé M, Le Goff I, Deniot G, Roux-Duparque M, Morin G, McPhee KE, Delourme R, Baranger A, Pilet-Nayel ML.

BMC Plant Biol. 2013 Mar 16;13:45. doi: 10.1186/1471-2229-13-45.

11.

Two alternative recessive quantitative trait loci influence resistance to spring black stem and leaf spot in Medicago truncatula.

Kamphuis LG, Lichtenzveig J, Oliver RP, Ellwood SR.

BMC Plant Biol. 2008 Mar 26;8:30. doi: 10.1186/1471-2229-8-30.

13.

MtQRRS1, an R-locus required for Medicago truncatula quantitative resistance to Ralstonia solanacearum.

Ben C, Debellé F, Berges H, Bellec A, Jardinaud MF, Anson P, Huguet T, Gentzbittel L, Vailleau F.

New Phytol. 2013 Aug;199(3):758-72. doi: 10.1111/nph.12299. Epub 2013 May 2.

14.

Quantitative trait locus responsible for resistance to Aphanomyces root rot (black root) caused by Aphanomyces cochlioides Drechs. in sugar beet.

Taguchi K, Ogata N, Kubo T, Kawasaki S, Mikami T.

Theor Appl Genet. 2009 Jan;118(2):227-34. doi: 10.1007/s00122-008-0891-3. Epub 2008 Sep 24.

PMID:
18813904
15.

Natural diversity in the model legume Medicago truncatula allows identifying distinct genetic mechanisms conferring partial resistance to Verticillium wilt.

Ben C, Toueni M, Montanari S, Tardin MC, Fervel M, Negahi A, Saint-Pierre L, Mathieu G, Gras MC, Noël D, Prospéri JM, Pilet-Nayel ML, Baranger A, Huguet T, Julier B, Rickauer M, Gentzbittel L.

J Exp Bot. 2013 Jan;64(1):317-32. doi: 10.1093/jxb/ers337. Epub 2012 Dec 3.

16.

Quantitative trait loci for partial resistance to Aphanomyces root rot in pea.

Pilet-Nayel L, Muehlbauer FJ, McGee RJ, Kraft JM, Baranger A, Coyne CJ.

Theor Appl Genet. 2002 Dec;106(1):28-39. Epub 2002 Jul 2.

PMID:
12582868
17.

Identification of quantitative trait loci controlling partial clubroot resistance in new mapping populations of Arabidopsis thaliana.

Jubault M, Lariagon C, Simon M, Delourme R, Manzanares-Dauleux MJ.

Theor Appl Genet. 2008 Jul;117(2):191-202. doi: 10.1007/s00122-008-0765-8. Epub 2008 Apr 22.

PMID:
18427770
18.

Do jasmonates play a role in arbuscular mycorrhiza-induced local bioprotection of Medicago truncatula against root rot disease caused by Aphanomyces euteiches?

Hilou A, Zhang H, Franken P, Hause B.

Mycorrhiza. 2014 Jan;24(1):45-54. doi: 10.1007/s00572-013-0513-z. Epub 2013 Jun 29.

PMID:
23812608
19.

Root response to Fusarium solani f. sp . glycines: temporal accumulation of transcripts in partially resistant and susceptible soybean.

Iqbal MJ, Yaegashi S, Ahsan R, Shopinski KL, Lightfoot DA.

Theor Appl Genet. 2005 May;110(8):1429-38. Epub 2005 Apr 7.

PMID:
15815926
20.

Proteomic approach: identification of Medicago truncatula proteins induced in roots after infection with the pathogenic oomycete Aphanomyces euteiches.

Colditz F, Nyamsuren O, Niehaus K, Eubel H, Braun HP, Krajinski F.

Plant Mol Biol. 2004 May;55(1):109-20.

PMID:
15604668
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