about
Cloning, expression, and chromosomal localization of the human uridine nucleotide receptor geneInhibition of gene expression in plant cells by expression of antisense RNAEarly genes and auxin actionEnzyme action in the regulation of plant hormone responsesOdyssey of auxin.Structure and elicitor or u.v.-light-stimulated expression of two 4-coumarate:CoA ligase genes in parsley.The auxin-inducible GH3 homologue Pp-GH3.16 is downregulated in Pinus pinaster root systems on ectomycorrhizal symbiosis establishment.Arabidopsis thaliana GH3.9 influences primary root growth.Perturbation of auxin homeostasis by overexpression of wild-type IAA15 results in impaired stem cell differentiation and gravitropism in roots.Ethylene Inhibits Root Elongation during Alkaline Stress through AUXIN1 and Associated Changes in Auxin Accumulation.Tn10-encoded tet repressor can regulate an operator-containing plant promoterMolecular cloning of cDNAs for auxin-induced mRNAs and developmental expression of the auxin-inducible genes.Expression of the maize Cat3 catalase gene is under the influence of a circadian rhythm.Transcription and RNA stability are important determinants of higher plant chloroplast RNA levels.Kinetic basis for the conjugation of auxin by a GH3 family indole-acetic acid-amido synthetase.Auxin conjugates: their role for plant development and in the evolution of land plants.Two auxin-responsive domains interact positively to induce expression of the early indoleacetic acid-inducible gene PS-IAA4/5.Genome-wide analysis of the GH3 family in apple (Malus × domestica).Neutron irradiation affects the expression of genes involved in the response to auxin, senescence and oxidative stress in Arabidopsis.Insights into auxin signaling in plant-pathogen interactions.2,4-D and IAA Amino Acid Conjugates Show Distinct Metabolism in Arabidopsis.Auxin in action: signalling, transport and the control of plant growth and development.Hormone crosstalk in wound stress response: wound-inducible amidohydrolases can simultaneously regulate jasmonate and auxin homeostasis in Arabidopsis thaliana.Rapid transcriptional regulation by phytochrome of the genes for phytochrome and chlorophyll a/b-binding protein in Avena sativaArabidopsis GH3.5 regulates salicylic acid-dependent and both NPR1-dependent and independent defense responses.Cloning and expression of SgCYP450-4 from Siraitia grosvenorii.Indole-3-acetic acid and fusicoccin cause cytosolic acidification of corn coleoptile cells.Putative receptor for the plant growth hormone auxin identified and characterized by anti-idiotypic antibodies.Ferritin gene transcription is regulated by iron in soybean cell cultures.Jasmonate signalling: a copycat of auxin signalling?Auxin: simply complicated.Soybean GH3 promoter contains multiple auxin-inducible elements.Modulation of gene expression by auxin.Auxin response under osmotic stress.Salt stress leads to differential expression of two isogenes of phosphoenolpyruvate carboxylase during Crassulacean acid metabolism induction in the common ice plant.Altered architecture and enhanced drought tolerance in rice via the down-regulation of indole-3-acetic acid by TLD1/OsGH3.13 activation.Light represses transcription of asparagine synthetase genes in photosynthetic and nonphotosynthetic organs of plants.Transcriptional activation of plant defense genes by fungal elicitor, wounding, and infection.DNA elements responsive to auxin.Differential light regulated expression of nuclear genes encoding chloroplast and cytosolic glyceraldehyde-3-phosphate dehydrogenase in Nicotiana tabacum.
P2860
Q24313567-E762CFE8-87E7-4954-A209-FB70A9138874Q24630544-3A03CF86-880C-4484-A9CC-94A25B630B14Q24670098-3C367D55-B553-4BC6-9FDB-D69C5334256AQ26829990-B22D688E-A8D1-4BCB-8BD8-D5B9B0A5F623Q30318591-11EF740E-D25C-4095-BAE1-89DAE443E25BQ33232943-91491124-57FB-48E6-BE55-E6DB4C42CFF1Q33239627-66128153-E91C-4CEF-9E9C-B2EC9FF973B4Q33343596-D640E957-699E-41BD-BBA6-23420E9F0BF5Q33355441-2223D517-439F-49AA-AB09-42ACBC0CEAD0Q33361004-7746F9F6-33E9-468B-813A-7D127F849EBCQ33555808-8C702569-0064-44E5-8627-0CEFDBAA23E6Q33731901-AE2A45A0-4878-4B8E-A496-DA78456F460DQ33777222-85013305-3174-495D-B147-A8440FA33D05Q33929133-8CF852FC-FF8D-42B2-9857-5FA35C3B917CQ34144692-B78612E0-99EE-45BB-8EF0-F114595D0686Q34163619-0221AA11-0A3F-48BA-AC76-A401A3158298Q34447263-C52613FF-4B58-47C2-83EC-F1CA1F98CD0EQ34702769-F361DCE5-980B-4DB7-8773-F0C4BC682CA0Q35045651-E3653884-78EC-4467-81BE-0DD1486B9752Q35970215-B15EFF08-F8C9-471A-B689-EAB459E524EEQ36081740-36BF325F-7774-4276-B97C-C82DA0C5CB46Q36600952-79124F78-327C-4C6D-9538-B2F7B763DAFEQ36692033-1246D459-7C20-4363-BAB3-3CFF4B47C289Q36849139-4C99DCBB-0125-458E-9061-52E57F21FAF0Q37080501-14863A2C-8E56-44DD-ADCC-B5F28A6C9E6FQ37352212-52E76C9A-A18F-47C8-844A-E72B69078F92Q37409069-5DFD6601-69C3-4548-A8C0-298F622470E8Q37536454-F2BEEEFD-CE57-41AC-B873-26E166376789Q37595506-BA83ED42-960C-49AB-A007-BEFE2B054518Q38101140-B0571437-A3CA-4A77-B7F0-D55AF0D9CE5BQ38106585-8A665D2E-0091-4632-AFDC-ED86B6C8DC91Q38308626-3735DAEA-6F7D-4F41-A172-2FD80A2EB935Q38729225-68A9D3BC-9495-485F-BD6A-97948F90BE90Q38799914-4410F5F9-A7F2-4828-892A-68A471925BDBQ38958540-70D4568F-A3FF-4F4C-8C32-9D3A8381ADB8Q39626943-D2C0AE94-A9C6-40D4-A28D-438BAB56B1F4Q40641033-C9F8283F-7812-42A7-9F8F-002EFC44D0AAQ40658224-533A3A7F-A289-4140-A3C7-0472E5EE6F74Q41076886-3B574714-C12F-41DB-B4B6-2B0FF12F15FEQ41091698-57980EF6-931B-4AA9-AF42-3ABA49FAE678
P2860
description
1985 nî lūn-bûn
@nan
1985年の論文
@ja
1985年論文
@yue
1985年論文
@zh-hant
1985年論文
@zh-hk
1985年論文
@zh-mo
1985年論文
@zh-tw
1985年论文
@wuu
1985年论文
@zh
1985年论文
@zh-cn
name
Rapid induction of selective transcription by auxins
@en
type
label
Rapid induction of selective transcription by auxins
@en
prefLabel
Rapid induction of selective transcription by auxins
@en
P2860
P356
P1476
Rapid induction of selective transcription by auxins
@en
P2093
P2860
P304
P356
10.1128/MCB.5.6.1197
P407
P577
1985-06-01T00:00:00Z