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Is N‐feedback involved in the regulation of nitrogenase activity in Medicago truncatula?
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- Journal of Plant Nutrition & Soil Science, 2020, v. 183, n. 1, p. 42, doi. 10.1002/jpln.201900432
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Physiological and genetic changes during natural senescence of Medicago truncatula root nodules.
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- Journal of Plant Nutrition & Soil Science, 2019, v. 182, n. 3, p. 385, doi. 10.1002/jpln.201800233
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- Article
Genetic control and molecular responses of Medicago truncatula to cadmium stress.
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- Euphytica, 2023, v. 219, n. 8, p. 1, doi. 10.1007/s10681-023-03200-6
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Identification of transcripts associated with the acquisition of superior freezing tolerance in recurrently-selected populations of alfalfa.
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- Euphytica, 2020, v. 216, n. 2, p. 1, doi. 10.1007/s10681-020-2559-2
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Physiological and metabolomic analysis of a knockout mutant suggests a critical role of MtP5CS3 gene in osmotic stress tolerance of Medicago truncatula.
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- Euphytica, 2013, v. 193, n. 1, p. 101, doi. 10.1007/s10681-013-0957-4
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- Article
红芸豆 miR395 家族成员的鉴定及其与 结瘤相关的表达分析.
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- Journal of Shanxi Agricultural Sciences, 2023, v. 51, n. 10, p. 1170, doi. 10.3969/j.issn.1002-2481.2023.10.08
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Juvenile hormone mediates the positive effects of nitrogen fertilization on weight and reproduction in pea aphid.
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- Pest Management Science, 2018, v. 74, n. 11, p. 2511, doi. 10.1002/ps.4932
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Differential accumulation of leucine and methionine in red and green pea aphids leads to different fecundity in response to nitrogen fertilization.
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- Pest Management Science, 2018, v. 74, n. 8, p. 1779, doi. 10.1002/ps.4875
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A Novel Medicago truncatule AKT1-null Mutant Impairs Potassium and Sodium Ions Uptake and Affects Root Nodulation.
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- Egyptian Journal of Botany, 2021, v. 61, n. 1, p. 303, doi. 10.21608/ejbo.2021.38709.1536
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Parental environments and interactions with conspecifics alter salinity tolerance of offspring in the annual Medicago truncatula.
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- Journal of Ecology, 2013, v. 101, n. 5, p. 1281, doi. 10.1111/1365-2745.12125
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- Article
Remote cis-Regulatory Region Is Required for NIN Expression in the Pericycle to Initiate Nodule Primordium Formation in Medicago truncatula.
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- Plant Cell, 2019, v. 31, n. 1, p. 68, doi. 10.1105/tpc.18.00478
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- Article
Goldilocks Principle: MtNFH1 Ensures Optimal Nod Factor Activity.
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- Plant Cell, 2018, v. 30, n. 2, p. 267, doi. 10.1105/tpc.18.00114
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- Article
Role of the Nod Factor Hydrolase MtNFH1 in Regulating Nod Factor Levels during Rhizobial Infection and in Mature Nodules of Medicago truncatula.
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- Plant Cell, 2018, v. 30, n. 2, p. 397, doi. 10.1105/tpc.17.00420
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NIN Transcription Factor Coordinates Diverse Nodulation Programs in Different Tissues of the Medicago truncatula Root.
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- Plant Cell, 2015, v. 27, n. 12, p. 3410, doi. 10.1105/tpc.15.00461
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Sleep Like Death: Identification of Genes Related to Seed Longevity in Medicago truncatula and Arabidopsis.
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- Plant Cell, 2015, v. 27, n. 10, p. 2671, doi. 10.1105/tpc.15.00833
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Transcriptional Repressor MYB2 Regulates Both Spatial and Temporal Patterns of Proanthocyandin and Anthocyanin Pigmentation in Medicago truncatula.
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- Plant Cell, 2015, v. 27, n. 10, p. 2860, doi. 10.1105/tpc.15.00476
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Flavonoids and Auxin Transport Inhibitors Rescue Symbiotic Nodulation in the Medicago truncatula Cytokinin Perception Mutant cre1.
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- Plant Cell, 2015, v. 27, n. 8, p. 2210, doi. 10.1105/tpc.15.00231
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Suppression of Arbuscule Degeneration in Medicago truncatula phosphate transporter4 Mutants Is Dependent on the Ammonium Transporter 2 Family Protein AMT2;3.
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- Plant Cell, 2015, v. 27, n. 4, p. 1352, doi. 10.1105/tpc.114.131144
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Small GTPase ROP10 of Medicago truncatula Is Required for Both Tip Growth of Root Hairs and Nod Factor-Induced Root Hair Deformation.
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- Plant Cell, 2015, v. 27, n. 3, p. 806, doi. 10.1105/tpc.114.135210
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Root Hair "Infectome" of Medicago truncatula Uncovers Changes in Cell Cycle Genes and Reveals a Requirement for Auxin Signaling in Rhizobial Infection.
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- Plant Cell, 2014, v. 26, n. 12, p. 4680, doi. 10.1105/tpc.114.133496
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Soybean miR172c Targets the Repressive AP2 Transcription Factor NNC1 to Activate ENOD40 Expression and Regulate Nodule Initiation.
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- Plant Cell, 2014, v. 26, n. 12, p. 4782, doi. 10.1105/tpc.114.131607
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Nod Factor Receptors Form Heteromeric Complexes and Are Essential for Intracellular Infection in Medicago Nodules.
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- Plant Cell, 2014, v. 26, n. 10, p. 4188, doi. 10.1105/tpc.114.129502
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Adjustment of Host Cells for Accommodation of Symbiotic Bacteria: Vacuole Defunctionalization, HOPS Suppression, and TIP1g Retargeting in Medicago.
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- Plant Cell, 2014, v. 26, n. 9, p. 3809, doi. 10.1105/tpc.114.128736
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STM/BP-Like KNOXI Is Uncoupled from ARP in the Regulation of Compound Leaf Development in Medicago truncatula.
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- Plant Cell, 2014, v. 26, n. 4, p. 1464, doi. 10.1105/tpc.114.123885
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H+-ATPase HA1 of Medicago truncatula Is Essential for Phosphate Transport and Plant Growth during Arbuscular Mycorrhizal Symbiosis.
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- Plant Cell, 2014, v. 26, n. 4, p. 1808, doi. 10.1105/tpc.113.120436
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H+-ATPase That Energizes Nutrient Uptake during Mycorrhizal Symbioses in Rice and Medicago truncatula.
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- Plant Cell, 2014, v. 26, n. 4, p. 1818, doi. 10.1105/tpc.113.120527
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STENOFOLIA Recruits TOPLESS to Repress ASYMMETRIC LEAVES2 at the Leaf Margin and Promote Leaf Blade Outgrowth in Medicago truncatula.
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- Plant Cell, 2014, v. 26, n. 2, p. 650, doi. 10.1105/tpc.113.121947
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Trans-Acting Short Interfering RNA3 Pathway and NO APICAL MERISTEM Antagonistically Regulate Leaf Margin Development and Lateral Organ Separation, as Revealed by Analysis of an argonaute7/lobed leaflet1 Mutant in Medicago truncatula.
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- Plant Cell, 2013, v. 25, n. 12, p. 4845, doi. 10.1105/tpc.113.117788
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C2H2 Transcription Factor REGULATOR OF SYMBIOSOME DIFFERENTIATION Represses Transcription of the Secretory Pathway Gene VAMP721a and Promotes Symbiosome Development in Medicago truncatula.
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- Plant Cell, 2013, v. 25, n. 9, p. 3584, doi. 10.1105/tpc.113.114017
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Two Direct Targets of Cytokinin Signaling Regulate Symbiotic Nodulation in Medicago truncatula.
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- Plant Cell, 2012, v. 24, n. 9, p. 3838, doi. 10.1105/tpc.112.103267
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Recent Evolution of a Symbiotic Ion Channel in the Legume Family Altered Ion Conductance and Improved Functionality in Calcium Signaling.
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- Plant Cell, 2012, v. 24, n. 6, p. 2528, doi. 10.1105/tpc.112.098475
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Loss of Abaxial Leaf Epicuticular Wax in Medicago truncatula irg1/palm1 Mutants Results in Reduced Spore Differentiation of Anthracnose and Nonhost Rust Pathogens.
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- Plant Cell, 2012, v. 24, n. 1, p. 353, doi. 10.1105/tpc.111.093104
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Regulation of Compound Leaf Development in Medicago truncatula by Fused Compound Leaf1, a Class M KNOX Gene.
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- Plant Cell, 2011, v. 23, n. 11, p. 3929, doi. 10.1105/tpc.111.089128
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Strigolactone Biosynthesis in Medicago truncatula and Rice Requires the Symbiotic GRAS-Type Transcription Factors NSP1 and NSP2.
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- Plant Cell, 2011, v. 23, n. 10, p. 3853, doi. 10.1105/tpc.111.089771
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Medicago truncatula CYP716A12 Is a Multifunctional Oxidase Involved in the Biosynthesis of Hemolytic Saponins.
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- Plant Cell, 2011, v. 23, n. 8, p. 3070, doi. 10.1105/tpc.111.087312
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Symbiotic Rhizobia Bacteria Trigger a Change in Localization and Dynamics of the Medicago truncatula Receptor Kinase LYK3.
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- Plant Cell, 2011, v. 23, n. 7, p. 2774, doi. 10.1105/tpc.111.086389
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- Article
STENOFOLIA Regulates Blade Outgrowth and Leaf Vascular Patterning in Medicago truncatula and Nicotiana sylvestris.
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- Plant Cell, 2011, v. 23, n. 6, p. 2125, doi. 10.1105/tpc.111.085340
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Developmental Analysis of a Medicago truncatula smooth leaf margin1 Mutant Reveals Context-Dependent Effects on Compound Leaf Development.
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- Plant Cell, 2011, v. 23, n. 6, p. 2106, doi. 10.1105/tpc.111.085464
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MATE2 Mediates Vacuolar Sequestration of Flavonoid Glycosides and Glycoside Malonates in Medicago truncatula.
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- Plant Cell, 2011, v. 23, n. 4, p. 1536, doi. 10.1105/tpc.110.080804
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Pea GIGAS Gene Is a FLOWERING LOCUS T Homolog Necessary for Graft-Transmissible Specification of Flowering but Not for Responsiveness to Photoperiod.
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- Plant Cell, 2011, v. 23, n. 1, p. 147, doi. 10.1105/tpc.110.081042
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Medicago truncatula E3 Ubiquitin Ligase PUB1 Interacts with the LYK3 Symbiotic Receptor and Negatively Regulates Infection and Nodulation.
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- Plant Cell, 2010, v. 22, n. 10, p. 3474, doi. 10.1105/tpc.110.075861
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Environmental Regulation of Lateral Root Emergence in Medicago truncatula Requires the HD-Zip I Transcription Factor HB1.
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- Plant Cell, 2010, v. 22, n. 7, p. 2171, doi. 10.1105/tpc.110.074823
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Two Medicago truncatula Half-ABC Transporters Are Essential for Arbuscule Development in Arbuscular Mycorrhizal Symbiosis.
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- Plant Cell, 2010, v. 22, n. 5, p. 1483, doi. 10.1105/tpc.110.074955
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Genomic and Coexpression Analyses Predict Multiple Genes Involved in Triterpene Saponin Biosynthesis in Medicago truncatula.
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- Plant Cell, 2010, v. 22, n. 3, p. 850, doi. 10.1105/tpc.109.073270
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Evolution of flowering time in a selfing annual plant: Roles of adaptation and genetic drift.
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- Ecology & Evolution (20457758), 2022, v. 12, n. 1, p. 1, doi. 10.1002/ece3.8555
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Transcriptional Programs and Regulators Underlying Age-Dependent and Dark-Induced Senescence in Medicago truncatula.
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- Cells (2073-4409), 2022, v. 11, n. 9, p. N.PAG, doi. 10.3390/cells11091570
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General Patterns and Species-Specific Differences in the Organization of the Tubulin Cytoskeleton in Indeterminate Nodules of Three Legumes.
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- Cells (2073-4409), 2021, v. 10, n. 5, p. 1012, doi. 10.3390/cells10051012
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Identification and Expression Analysis of BURP Domain-Containing Genes in Medicago truncatula.
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- Frontiers in Plant Science, 2016, p. 1, doi. 10.3389/fpls.2016.00485
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Genome-Wide Identification and Expression Analysis of the 14-3-3 Family Genes in Medicago truncatula.
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- Frontiers in Plant Science, 2016, p. 1, doi. 10.3389/fpls.2016.00320
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Both Free Indole-3-Acetic Acid and Photosynthetic Performance are Important Players in the Response of Medicago truncatula to Urea and Ammonium Nutrition Under Axenic Conditions.
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- Frontiers in Plant Science, 2016, p. 1, doi. 10.3389/fpls.2016.00140
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- Article