| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1051015648 |
| P356 | DOI | 10.1186/S12864-015-1829-1 |
| P932 | PMC publication ID | 4546216 |
| P698 | PubMed publication ID | 26293353 |
| P5875 | ResearchGate publication ID | 281139270 |
| P50 | author | Magnus Karlsson | Q40152722 |
| Malin Elfstrand | Q56483524 | ||
| P2093 | author name string | Dan Funck Jensen | |
| Fredrik Heyman | |||
| Sara Hosseini | |||
| P2860 | cites work | The Medicago genome provides insight into the evolution of rhizobial symbioses | Q22122164 |
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| Transcriptome of Aphanomyces euteiches: new oomycete putative pathogenicity factors and metabolic pathways | Q31148719 | ||
| Proteomic approach: identification of Medicago truncatula proteins induced in roots after infection with the pathogenic oomycete Aphanomyces euteiches | Q33210008 | ||
| Association between border cell responses and localized root infection by pathogenic Aphanomyces euteiches | Q33351907 | ||
| Network modeling reveals prevalent negative regulatory relationships between signaling sectors in Arabidopsis immune signaling | Q33641416 | ||
| Identification of genes differentially expressed in a resistant reaction to Mycosphaerella pinodes in pea using microarray technology. | Q33791434 | ||
| Comprehensive transcriptome analysis of the highly complex Pisum sativum genome using next generation sequencing | Q33898632 | ||
| Differential expression of eight chitinase genes in Medicago truncatula roots during mycorrhiza formation, nodulation, and pathogen infection | Q33907753 | ||
| Disruption of the Eng18B ENGase gene in the fungal biocontrol agent Trichoderma atroviride affects growth, conidiation and antagonistic ability | Q34269078 | ||
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| Signalling network construction for modelling plant defence response | Q34525702 | ||
| Characterization of a class of small auxin-inducible soybean polyadenylated RNAs | Q35052871 | ||
| Characterization of a small auxin-up RNA (SAUR)-like gene involved in Arabidopsis thaliana development | Q35060944 | ||
| Suppression of the auxin response pathway enhances susceptibility to Phytophthora cinnamomi while phosphite-mediated resistance stimulates the auxin signalling pathway | Q35125765 | ||
| The incompatible interaction betweenPhytophthora parasiticavar.nicotianaerace 0 and tobacco is suppressed in transgenic plants expressing antisense lipoxygenase sequences | Q37455205 | ||
| Molecular response to the pathogen Phytophthora sojae among ten soybean near isogenic lines revealed by comparative transcriptomics | Q37484965 | ||
| Recent advances in PAMP-triggered immunity against bacteria: pattern recognition receptors watch over and raise the alarm | Q37533855 | ||
| Early molecular events in PAMP-triggered immunity. | Q37553521 | ||
| Estimating genome conservation between crop and model legume species | Q37593183 | ||
| Root rot disease of legumes caused by Aphanomyces euteiches | Q37761204 | ||
| An interactive power analysis tool for microarray hypothesis testing and generation | Q38519140 | ||
| Phytophthora capsici-tomato interaction features dramatic shifts in gene expression associated with a hemi-biotrophic lifestyle | Q40619718 | ||
| Molecular and cytological responses of Medicago truncatula to Erysiphe pisi | Q42472172 | ||
| A reference genome for common bean and genome-wide analysis of dual domestications | Q42664823 | ||
| Host and nonhost resistance in Medicago-Colletotrichum interactions | Q42945398 | ||
| Evaluation of candidate reference genes for expression studies in Pisum sativum under different experimental conditions | Q44146853 | ||
| An Arabidopsis mutant defective in jasmonate response is allelic to the auxin-signaling mutant axr1. | Q44177265 | ||
| The Phytophthora parasitica RXLR effector penetration-specific effector 1 favours Arabidopsis thaliana infection by interfering with auxin physiology. | Q44789328 | ||
| The role of the jasmonate response in plant susceptibility to diverse pathogens with a range of lifestyles | Q44888236 | ||
| Patterns of gene expression upon infection of soybean plants by Phytophthora sojae | Q45117665 | ||
| Transcriptional regulation of the ethylene response factor LeERF2 in the expression of ethylene biosynthesis genes controls ethylene production in tomato and tobacco | Q46100211 | ||
| A novel Arabidopsis-oomycete pathosystem: differential interactions with Phytophthora capsici reveal a role for camalexin, indole glucosinolates and salicylic acid in defence | Q46570763 | ||
| Characterization of pea aphid resistance in Medicago truncatula. | Q46815818 | ||
| Salicylic acid inhibits pathogen growth in plants through repression of the auxin signaling pathway | Q46963493 | ||
| An Arabidopsis Callose Synthase, GSL5, Is Required for Wound and Papillary Callose Formation | Q47446380 | ||
| Durable broad-spectrum powdery mildew resistance in pea er1 plants is conferred by natural loss-of-function mutations in PsMLO1. | Q48057151 | ||
| Partial Resistance ofMedicago truncatulatoAphanomyces euteichesIs Associated with Protection of the Root Stele and Is Controlled by a Major QTL Rich in Proteasome-Related Genes | Q57450737 | ||
| Cytological, genetic, and molecular analysis to characterize compatible and incompatible interactions between Medicago truncatula and Colletotrichum trifolii | Q80439736 | ||
| Comparative mapping between Medicago sativa and Pisum sativum | Q80514336 | ||
| Inactivation of pea genes by RNAi supports the involvement of two similar O-methyltransferases in the biosynthesis of (+)-pisatin and of chiral intermediates with a configuration opposite that found in (+)-pisatin | Q80814379 | ||
| AER1, a major gene conferring resistance to Aphanomyces euteiches in Medicago truncatula | Q83216069 | ||
| The phenylpropanoid pathway and plant defence-a genomics perspective | Q84457691 | ||
| P4510 | describes a project that uses | limma | Q112236343 |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Aphanomyces euteiches | Q4779503 |
| Phytophthora pisi | Q107460930 | ||
| P304 | page(s) | 627 | |
| P577 | publication date | 2015-08-21 | |
| P1433 | published in | BMC Genomics | Q15765854 |
| P1476 | title | Deciphering common and specific transcriptional immune responses in pea towards the oomycete pathogens Aphanomyces euteiches and Phytophthora pisi | |
| P478 | volume | 16 |
| Q90411522 | Exchanges at the Plant-Oomycete Interface That Influence Disease |
| Q52579901 | Genomics analysis of Aphanomyces spp. identifies a new class of oomycete effector associated with host adaptation. |
| Q38442405 | Transcription Profiling Analysis of Mango-Fusarium mangiferae Interaction |
| Q64226366 | Transcriptome Analysis Reveals New Insights into the Bacterial Wilt Resistance Mechanism Mediated by Silicon in Tomato |
| Q92496432 | Transcriptome analysis of Actinidia chinensis in response to Botryosphaeria dothidea infection |
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