about
Involvement of the leaf-specific multidrug and toxic compound extrusion (MATE) transporter Nt-JAT2 in vacuolar sequestration of nicotine in Nicotiana tabacumCharacterization of Shikonin Derivative Secretion in Lithospermum erythrorhizon Hairy Roots as a Model of Lipid-Soluble Metabolite Secretion from PlantsGalactinol synthase gene of Coptis japonica is involved in berberine tolerance.Changes in the bacterial community of soybean rhizospheres during growth in the fieldTissue-specific transcriptome analysis in nodules of Lotus japonicus.Root exudation of phytochemicals in Arabidopsis follows specific patterns that are developmentally programmed and correlate with soil microbial functionsPyrosequencing assessment of rhizosphere fungal communities from a soybean field.Molecular Characterization of LjABCG1, an ATP-Binding Cassette Protein in Lotus japonicus.Molecular assessment of the bacterial community associated with Cassava (Manihot esculenta Crantz) cultivation in Cameroon.Caffeine fostering of mycoparasitic fungi against phytopathogens.Genome-wide analysis of ATP-binding cassette (ABC) proteins in a model legume plant, Lotus japonicus: comparison with Arabidopsis ABC protein family.Molecular Characterization of LjSWEET3, a Sugar Transporter in Nodules of Lotus japonicus.A Dicarboxylate Transporter, LjALMT4, Mainly Expressed in Nodules of Lotus japonicus.The Full-Size ABCG Transporters Nb-ABCG1 and Nb-ABCG2 Function in Pre- and Postinvasion Defense against Phytophthora infestans in Nicotiana benthamiana.Comparison of genetic structures and biochemical properties of tandem cutinase-type polyesterases from Thermobifida alba AHK119.Do soybeans select specific species of Bradyrhizobium during growth?Signaling from soybean roots to rhizobium: An ATP-binding cassette-type transporter mediates genistein secretion.From defense to symbiosis: limited alterations in the kinase domain of LysM receptor-like kinases are crucial for evolution of legume-Rhizobium symbiosis.A coumarin-specific prenyltransferase catalyzes the crucial biosynthetic reaction for furanocoumarin formation in parsley.LjMATE1: a citrate transporter responsible for iron supply to the nodule infection zone of Lotus japonicus.Developmental and nutritional regulation of isoflavone secretion from soybean roots.Molecular cloning and characterization of a geranyl diphosphate-specific aromatic prenyltransferase from lemon.Functional analysis of jasmonic acid-responsive secondary metabolite transporters.Arabidopsis ABCB21 is a facultative auxin importer/exporter regulated by cytoplasmic auxin concentration.Involvement of auxin distribution in root nodule development of Lotus japonicus.LjABCB1, an ATP-binding cassette protein specifically induced in uninfected cells of Lotus japonicus nodulesMetabolic engineering for the production of prenylated polyphenols in transgenic legume plants using bacterial and plant prenyltransferasesSynthesis and Secretion of Isoflavones by Field-Grown SoybeanConvergent evolution of the UbiA prenyltransferase family underlies the independent acquisition of furanocoumarins in plantsRhizosphere modelling reveals spatiotemporal distribution of daidzein shaping soybean rhizosphere bacterial communityUptake of adenine by purine permeases of Coffea canephora
P50
Q28543443-B294B398-46A2-4BB0-951D-6D86A0844599Q28828896-5609CA4F-8552-43E8-9070-36EB07CD94CDQ33318650-D9DA0737-8271-492B-90EF-306254801531Q33793642-1E8D8DDD-2B61-470F-ABF3-FADE134D904EQ34203279-AA3CEA2E-98F7-4C5D-8BBB-607D1DD121A6Q34577220-3383AA93-4A8E-4D90-BDE1-D3666AD7B0B8Q35283918-03E219DF-ED78-474E-BB50-D2D336B651F6Q35791984-794E1773-B163-47A3-83D3-CBDC19949A0DQ36285759-0BDCFA48-F993-459C-A78D-1F96684782A6Q36913243-79D07E5A-D4C8-4271-A3A6-556A01F778A0Q38306597-8D1F66BE-2323-4FF9-ABB9-789C7F0E1BBDQ39070398-4CB1CA41-A926-4725-BF3E-B97BF7DE2E21Q39763585-DC76A8FB-B5CC-4CED-BB90-A859888C5EECQ40787095-EF23EBB0-5975-473A-939D-3394153DD26CQ41016376-4F51B312-00B7-4FE2-AD54-5401A075854AQ41291748-075A5A4A-9B52-47A7-8DD0-9023FE6B52A8Q41975357-8036CE50-6759-4BC1-884A-EF1690394489Q43665950-A94BC96C-235B-415C-AB4C-103804CED03AQ44604817-B32F2060-3558-4C35-897D-2CF62C887F9AQ46675073-8C4A01E3-9799-482C-BD70-49443BD2A30FQ46701554-7847D468-B08F-4C73-8027-B8A611DAF533Q46858929-1DC5AB98-0326-473D-B549-0DC897E807F5Q50747319-CFBCC5FE-44E4-461D-9CBF-050446643528Q50775897-2AD99612-7984-43D3-B8A9-A42276977DDBQ53263668-3995E123-2C59-4BAB-AA32-74BA5DF00165Q83157287-2A80E3D6-BD3E-42DB-B390-C0520B29582DQ84747943-9BC85499-533B-4D84-BC21-B80EEC118AE8Q88360612-01E54A3B-D8A3-442E-960D-0809069418D3Q90895146-01BA3177-511F-4E93-9007-4104D5B14045Q92241173-AB10F2CE-87DB-4F8D-AFF9-E2B1646FB660Q93183690-BED202FE-6998-442F-BCCE-C24ED0ACAC67
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Akifumi Sugiyama
@ast
Akifumi Sugiyama
@en
Akifumi Sugiyama
@es
type
label
Akifumi Sugiyama
@ast
Akifumi Sugiyama
@en
Akifumi Sugiyama
@es
prefLabel
Akifumi Sugiyama
@ast
Akifumi Sugiyama
@en
Akifumi Sugiyama
@es
P106
P108
P1153
57194383456
P21
P31
P496
0000-0002-9643-6639
P569
2000-01-01T00:00:00Z