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Transcriptome analysis reveals class IX ethylene response factors show specific up-regulation in resistant but not susceptible Medicago truncatula lines following infection with Rhizoctonia solani.
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- European Journal of Plant Pathology, 2018, v. 152, n. 2, p. 549, doi. 10.1007/s10658-018-1492-x
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- Article
Phoma medicaginis colonizes Medicago truncatula root nodules and affects nitrogen fixation capacity.
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- European Journal of Plant Pathology, 2015, v. 141, n. 2, p. 375, doi. 10.1007/s10658-014-0549-8
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- Article
Assessment of Polygala paniculata (Polygalaceae) characteristics for evolutionary studies of legume–rhizobia symbiosis.
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- Journal of Plant Research, 2020, v. 133, n. 1, p. 109, doi. 10.1007/s10265-019-01159-x
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Mining the Cicer arietinum genome for the mildew locus O ( Mlo) gene family and comparative evolutionary analysis of the Mlo genes from Medicago truncatula and some other plant species.
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- Journal of Plant Research, 2017, v. 130, n. 2, p. 239, doi. 10.1007/s10265-016-0868-2
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Improving the genome editing efficiency of CRISPR/Cas9 in Arabidopsis and Medicago truncatula.
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- Planta: An International Journal of Plant Biology, 2020, v. 252, n. 2, p. 1, doi. 10.1007/s00425-020-03415-0
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Genome-wide identification and comparative analysis of alternative splicing across four legume species.
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- Planta: An International Journal of Plant Biology, 2019, v. 249, n. 4, p. 1133, doi. 10.1007/s00425-018-03073-3
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Application of flow cytometry with a fluorescent dye to measurement of intracellular nitric oxide in plant cells.
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- Planta: An International Journal of Plant Biology, 2018, v. 248, n. 2, p. 279, doi. 10.1007/s00425-018-2901-2
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Medicago truncatula Gaertn. as a model for understanding the mechanism of growth promotion by bacteria from rhizosphere and nodules of alfalfa.
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- Planta: An International Journal of Plant Biology, 2016, v. 243, n. 5, p. 1169, doi. 10.1007/s00425-016-2469-7
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Acquisition and loss of desiccation tolerance in seeds: from experimental model to biological relevance.
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- Planta: An International Journal of Plant Biology, 2015, v. 241, n. 3, p. 563, doi. 10.1007/s00425-014-2240-x
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Systemic regulation of sulfur homeostasis in Medicago truncatula.
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- Planta: An International Journal of Plant Biology, 2014, v. 239, n. 1, p. 79, doi. 10.1007/s00425-013-1958-1
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microRNA profiling of root tissues and root forming explant cultures in Medicago truncatula.
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- Planta: An International Journal of Plant Biology, 2013, v. 238, n. 1, p. 91, doi. 10.1007/s00425-013-1871-7
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- Article
Overexpression of a Medicago truncatula stress-associated protein gene ( MtSAP1) leads to nitric oxide accumulation and confers osmotic and salt stress tolerance in transgenic tobacco.
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- Planta: An International Journal of Plant Biology, 2012, v. 236, n. 2, p. 567, doi. 10.1007/s00425-012-1635-9
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Comparative RNA sequencing-based transcriptome profiling of ten grapevine rootstocks: shared and specific sets of genes respond to mycorrhizal symbiosis.
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- Mycorrhiza, 2023, v. 33, n. 5/6, p. 369, doi. 10.1007/s00572-023-01119-3
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- Article
Rhizophagus irregularis improves Hg tolerance of Medicago truncatula by upregulating the Zn transporter genes ZIP2 and ZIP6.
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- Mycorrhiza, 2023, v. 33, n. 1/2, p. 23, doi. 10.1007/s00572-022-01100-6
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Physiological and transcriptomic response of Medicago truncatula to colonization by high- or low-benefit arbuscular mycorrhizal fungi.
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- Mycorrhiza, 2022, v. 32, n. 3/4, p. 281, doi. 10.1007/s00572-022-01077-2
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MtCOPT2 is a Cu<sup>+</sup> transporter specifically expressed in Medicago truncatula mycorrhizal roots.
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- Mycorrhiza, 2020, v. 30, n. 6, p. 781, doi. 10.1007/s00572-020-00987-3
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Facilitation of plant water uptake by an arbuscular mycorrhizal fungus: a Gordian knot of roots and hyphae.
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- Mycorrhiza, 2020, v. 30, n. 2/3, p. 299, doi. 10.1007/s00572-020-00949-9
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In vitro mycorrhization of pear (Pyrus communis).
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- Mycorrhiza, 2019, v. 29, n. 6, p. 607, doi. 10.1007/s00572-019-00919-w
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The plasma membrane proteome of Medicago truncatula roots as modified by arbuscular mycorrhizal symbiosis.
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- Mycorrhiza, 2018, v. 28, n. 1, p. 1, doi. 10.1007/s00572-017-0789-5
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Beneficial contribution of the arbuscular mycorrhizal fungus, Rhizophagus irregularis, in the protection of Medicago truncatula roots against benzo[a]pyrene toxicity.
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- Mycorrhiza, 2017, v. 27, n. 5, p. 465, doi. 10.1007/s00572-017-0764-1
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Real-time PCR quantification of arbuscular mycorrhizal fungi: does the use of nuclear or mitochondrial markers make a difference?
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- Mycorrhiza, 2017, v. 27, n. 6, p. 577, doi. 10.1007/s00572-017-0777-9
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Arbuscular mycorrhizal symbiosis can mitigate the negative effects of night warming on physiological traits of Medicago truncatula L.
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- Mycorrhiza, 2015, v. 25, n. 2, p. 131, doi. 10.1007/s00572-014-0595-2
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Quantification of arbuscular mycorrhizal fungal DNA in roots: how important is material preservation?
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- Mycorrhiza, 2015, v. 25, n. 3, p. 205, doi. 10.1007/s00572-014-0602-7
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Comparison of systemic and local interactions between the arbuscular mycorrhizal fungus Funneliformis mosseae and the root pathogen Aphanomyces euteiches in Medicago truncatula.
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- Mycorrhiza, 2014, v. 24, n. 6, p. 419, doi. 10.1007/s00572-013-0553-4
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Do jasmonates play a role in arbuscular mycorrhiza-induced local bioprotection of Medicago truncatula against root rot disease caused by Aphanomyces euteiches?
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- Mycorrhiza, 2014, v. 24, n. 1, p. 45, doi. 10.1007/s00572-013-0513-z
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Effects of Rhizophagus irregularis MUCL 41833 on the reproduction of Radopholus similis in banana plantlets grown under in vitro culture conditions.
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- Mycorrhiza, 2013, v. 23, n. 4, p. 279, doi. 10.1007/s00572-012-0467-6
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The exudate from an arbuscular mycorrhizal fungus induces nitric oxide accumulation in Medicago truncatula roots.
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- Mycorrhiza, 2012, v. 22, n. 4, p. 259, doi. 10.1007/s00572-011-0400-4
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Expression analysis of seed-specific genes in four angiosperm species with an emphasis on the unconserved expression patterns of homologous genes.
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- Seed Science Research, 2013, v. 23, n. 4, p. 223, doi. 10.1017/S0960258513000305
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- Article
Modifying thioredoxin expression in cereals leads to improved pre-harvest sprouting resistance and changes in other grain properties.
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- Seed Science Research, 2012, v. 22, n. S1, p. S30, doi. 10.1017/S0960258511000353
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A snapshot of the transcriptome of Medicago truncatula (Fabales: Fabaceae) shoots and roots in response to an arbuscular mycorrhizal fungus and the pea aphid (Acyrthosiphon pisum) (Hemiptera: Aphididae).
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- Environmental Entomology, 2023, v. 52, n. 4, p. 667, doi. 10.1093/ee/nvad070
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Genome-wide analysis of polygalacturonase gene family in Medicago truncatula.
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- Chinese Journal of Bioinformatics, 2020, v. 18, n. 1, p. 31, doi. 10.12113/201907005
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Genome-wide analysis of autophagy-related genes in Medicago truncatula highlights their roles in seed development and response to drought stress.
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- Scientific Reports, 2021, v. 11, n. 1, p. 1, doi. 10.1038/s41598-021-02239-6
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Pea aphid promotes amino acid metabolism both in Medicago truncatula and bacteriocytes to favor aphid population growth under elevated CO<sub>2</sub>.
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- Global Change Biology, 2013, v. 19, n. 10, p. 3210, doi. 10.1111/gcb.12260
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Genome-Wide Identification and Expression Analysis of Metal Tolerance Protein Gene Family in Medicago truncatula Under a Broad Range of Heavy Metal Stress.
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- Frontiers in Genetics, 2021, v. 12, p. 1, doi. 10.3389/fgene.2021.713224
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Proteomics analysis of Medicago truncatula response to infection by the phytopathogenic bacterium Ralstonia solanacearum points to jasmonate and salicylate defence pathways.
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- Cellular Microbiology, 2018, v. 20, n. 4, p. 1, doi. 10.1111/cmi.12796
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The core metabolome and root exudation dynamics of three phylogenetically distinct plant species.
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- Nature Communications, 2023, v. 14, n. 1, p. 1, doi. 10.1038/s41467-023-37164-x
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- Article
Genetic Diversity Analysis of Major Intrinsic Proteins (MIPs) among Maize (Zea mays L.), Chickpea (Cicer arietinum L.) and Barrel Medic (Medicago truncatula L.) by using Phylogenetic Inferences.
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- Pakistan Journal of Agricultural Research, 2018, v. 31, n. 3, p. 234, doi. 10.17582/journal.pjar/2018/31.3.234.245
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- Article
HIGH-THROUGHPUT AGROBACTERIUM-MEDIATED TRANSFORMATION OF MEDICAGO TRUNCATULA IN COMPARISON TO TWO EXPRESSION VECTORS.
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- Pakistan Journal of Agricultural Research, 2016, v. 29, n. 2, p. 119
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Metabolite shift in Medicago truncatula occurs in phosphorus deprivation.
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- Journal of Experimental Botany, 2022, v. 73, n. 7, p. 2093, doi. 10.1093/jxb/erab559
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Plant circadian clock control of Medicago truncatula nodulation via regulation of nodule cysteine-rich peptides.
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- Journal of Experimental Botany, 2022, v. 73, n. 7, p. 2142, doi. 10.1093/jxb/erab526
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Systemic control of nodule formation by plant nitrogen demand requires autoregulation-dependent and independent mechanisms.
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- Journal of Experimental Botany, 2021, v. 72, n. 22, p. 7942, doi. 10.1093/jxb/erab374
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Three classes of hemoglobins are required for optimal vegetative and reproductive growth of Lotus japonicus: genetic and biochemical characterization of LjGlb2-1.
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- Journal of Experimental Botany, 2021, v. 72, n. 22, p. 7778, doi. 10.1093/jxb/erab376
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Identification of a gene responsible for seedpod spine formation and other phenotypic alterations using whole-genome sequencing analysis in Medicago truncatula.
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- Journal of Experimental Botany, 2021, v. 72, n. 22, p. 7769, doi. 10.1093/jxb/erab359
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A new method to visualize CEP hormone–CEP receptor interactions in vascular tissue in vivo.
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- Journal of Experimental Botany, 2021, v. 72, n. 18, p. 6164, doi. 10.1093/jxb/erab244
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Multigene editing reveals that MtCEP1/2/12 redundantly control lateral root and nodule number in Medicago truncatula.
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- Journal of Experimental Botany, 2021, v. 72, n. 10, p. 3661, doi. 10.1093/jxb/erab093
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Distinct genetic basis for root responses to lipo-chitooligosaccharide signal molecules from different microbial origins.
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- Journal of Experimental Botany, 2021, v. 72, n. 10, p. 3821, doi. 10.1093/jxb/erab096
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The F-box protein MIO1/SLB1 regulates organ size and leaf movement in Medicago truncatula.
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- Journal of Experimental Botany, 2021, v. 72, n. 8, p. 2995, doi. 10.1093/jxb/erab033
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Potassium content diminishes in infected cells of Medicago truncatula nodules due to the mislocation of channels MtAKT1 and MtSKOR/GORK.
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- Journal of Experimental Botany, 2021, v. 72, n. 4, p. 1336, doi. 10.1093/jxb/eraa508
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The Medicago truncatula Yellow Stripe1-Like3 gene is involved in vascular delivery of transition metals to root nodules.
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- Journal of Experimental Botany, 2020, v. 71, n. 22, p. 7257, doi. 10.1093/jxb/eraa390
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Dwarf and Increased Branching 1 controls plant height and axillary bud outgrowth in Medicago truncatula.
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- Journal of Experimental Botany, 2020, v. 71, n. 20, p. 6355, doi. 10.1093/jxb/eraa364
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