Sequence and analysis of chromosome 4 of the plant Arabidopsis thaliana.Mayer K.F.X., Schueller C., Wambutt R., Murphy G., Volckaert G., Pohl T., Duesterhoeft A., Stiekema W., Entian K.-D.[...], McCombie W.R.View abstractCited forNUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA]Straincv. ColumbiaCategorySequencesSourceUniProtKB unreviewed (TrEMBL)PubMedEurope PMCNature 402:769-777 (1999)Cited in99+99+Mapped to3
Araport11: a complete reannotation of the Arabidopsis thaliana reference genome.Cheng C.Y., Krishnakumar V., Chan A.P., Thibaud-Nissen F., Schobel S., Town C.D.View abstractCited forGENOME REANNOTATIONStraincv. ColumbiaCategorySequencesSourceUniProtKB unreviewed (TrEMBL)PubMedEurope PMCPlant J. 89:789-804 (2017)Cited in99+99+
The PS-IAA4/5-like family of early auxin-inducible mRNAs in Arabidopsis thaliana.Abel S., Nguyen M.D., Theologis A.View abstractCategoryExpressionSourceTAIR: AT4G14550PubMedEurope PMCJ. Mol. Biol. 251:533-549 (1995)Cited in14Mapped to21
The long intergenic noncoding RNA ARES modulates root architecture in Arabidopsis.Roule T., Legascue M.F., Barrios A., Gaggion N., Crespi M., Ariel F., Blein T.View abstractSourceTAIR: AT4G14550PubMedEurope PMCIUBMB Life 75:880-892 (2023)Mapped to6
LBD18 and IAA14 antagonistically interact with ARF7 via the invariant Lys and acidic residues of the OPCA motif in the PB1 domain.Nguyen U.T., Pandey S.K., Kim J.View abstractAnnotationLBD18 and IAA14 antagonistically interact with ARF7 via the invariant Lys and acidic residues of the OPCA motif in the PB1 domain.CategoriesFunction, InteractionSourceGeneRif: 827102, TAIR: AT4G14550PubMedEurope PMCPlanta 258:26-26 (2023)Mapped to12
Auxin inhibits chlorophyll accumulation through ARF7-IAA14-mediated repression of chlorophyll biosynthesis genes in <i>Arabidopsis</i>.Luo W.G., Liang Q.W., Su Y., Huang C., Mo B.X., Yu Y., Xiao L.T.View abstractSourceTAIR: AT4G14550PubMedEurope PMCFront Plant Sci 14:1172059-1172059 (2023)Mapped to17
Transcription factors KNAT3 and KNAT4 are essential for integument and ovule formation in Arabidopsis.Chen J.J., Wang W., Qin W.Q., Men S.Z., Li H.L., Mitsuda N., Ohme-Takagi M., Wu A.M.View abstractSourceTAIR: AT4G14550PubMedEurope PMCPlant Physiol 191:463-478 (2023)Mapped to12
The growth of Arabidopsis primary root is repressed by several and diverse amino acids through auxin-dependent and independent mechanisms and MPK6 kinase activity.Ravelo-Ortega G., Lopez-Bucio J.S., Ruiz-Herrera L.F., Pelagio-Flores R., Ayala-Rodriguez J.A., de la Cruz H.R., Guevara-Garcia A.A., Lopez-Bucio J.View abstractCategoriesFunction, Phenotypes & VariantsSourceTAIR: AT4G14550PubMedEurope PMCPlant Sci 302:110717-110717 (2021)Mapped to28
Aux/IAA14 Regulates microRNA-Mediated Cold Stress Response in <i>Arabidopsis</i> Roots.Aslam M., Sugita K., Qin Y., Rahman A.View abstractAnnotationAux/IAA14 Regulates microRNA-Mediated Cold Stress Response in Arabidopsis Roots.CategoriesFunction, ExpressionSourceGeneRif: 827102PubMedEurope PMCInt J Mol Sci 21:E8441-E8441 (2020)Mapped to6
HBI1 acts downstream of ERECTA and SWR1 in regulating inflorescence architecture through the activation of the brassinosteroid and auxin signaling pathways.Cai H., Chai M., Chen F., Huang Y., Zhang M., He Q., Liu L., Yan M., Qin Y.View abstractCategoryFunctionSourceTAIR: AT4G14550PubMedEurope PMCNew Phytol 229:414-428 (2021)Mapped to23
Drought-induced protein (Di19-3) plays a role in auxin signaling by interacting with IAA14 in Arabidopsis.Maitra Majee S., Sharma E., Singh B., Khurana J.P.View abstractCategoryFunctionSourceTAIR: AT4G14550PubMedEurope PMCPlant Direct 4:e00234-e00234 (2020)Mapped to15
ABI3 mediated repression of RAV1 gene expression promotes efficient dehydration stress response in Arabidopsis thaliana.Sengupta S., Ray A., Mandal D., Nag Chaudhuri R.View abstractCategoriesFunction, ExpressionSourceTAIR: AT4G14550PubMedEurope PMCBiochim Biophys Acta Gene Regul Mech 1863:194582-194582 (2020)Mapped to20
Mutation of MEDIATOR 18 and chromate trigger twinning of the primary root meristem in Arabidopsis.Ruiz-Aguilar B., Raya-Gonzalez J., Lopez-Bucio J.S., Reyes de la Cruz H., Herrera-Estrella L., Ruiz-Herrera L.F., Martinez-Trujillo M., Lopez-Bucio J.View abstractCategoriesFunction, Phenotypes & VariantsSourceTAIR: AT4G14550PubMedEurope PMCPlant Cell Environ 43:1989-1999 (2020)Mapped to10
Root-knot nematodes induce gall formation by recruiting developmental pathways of post-embryonic organogenesis and regeneration to promote transient pluripotency.Olmo R., Cabrera J., Diaz-Manzano F.E., Ruiz-Ferrer V., Barcala M., Ishida T., Garcia A., Andres M.F., Ruiz-Lara S.[...], Escobar C.View abstractCategoriesNames, Function, ExpressionSourceTAIR: AT4G14550PubMedEurope PMCNew Phytol 227:200-215 (2020)Mapped to24
Reactive oxygen species and reactive carbonyl species constitute a feed- forward loop in auxin signaling for lateral root formation.Biswas M.S., Fukaki H., Mori I.C., Nakahara K., Mano J.View abstractCategoriesFunction, ExpressionSourceTAIR: AT4G14550PubMedEurope PMCPlant J 100:536-548 (2019)Mapped to12
Callus Initiation from Root Explants Employs Different Strategies in Rice and Arabidopsis.Guo F., Zhang H., Liu W., Hu X., Han N., Qian Q., Xu L., Bian H.View abstractCategoryFunctionSourceTAIR: AT4G14550PubMedEurope PMCPlant Cell Physiol 59:1782-1789 (2018)Mapped to14
Alternative polyadenylation is involved in auxin-based plant growth and development.Hong L., Ye C., Lin J., Fu H., Wu X., Li Q.Q.View abstractCategoryFunctionSourceTAIR: AT4G14550PubMedEurope PMCPlant J 93:246-258 (2018)Mapped to11
Molecular Transducers from Roots Are Triggered in Arabidopsis Leaves by Root-Knot Nematodes for Successful Feeding Site Formation: A Conserved Post-Embryogenic <i>De novo</i> Organogenesis Program?Olmo R., Cabrera J., Moreno-Risueno M.A., Fukaki H., Fenoll C., Escobar C.View abstractCategoriesFunction, ExpressionSourceTAIR: AT4G14550PubMedEurope PMCFront Plant Sci 8:875-875 (2017)Mapped to15
Transcriptional Regulation of Arabidopsis Polycomb Repressive Complex 2 Coordinates Cell-Type Proliferation and Differentiation.de Lucas M., Pu L., Turco G., Gaudinier A., Morao A.K., Harashima H., Kim D., Ron M., Sugimoto K.[...], Brady S.M.View abstractCategoriesFunction, ExpressionSourceTAIR: AT4G14550PubMedEurope PMCPlant Cell 28:2616-2631 (2016)Mapped to99+
Very-long-chain fatty acids restrict regeneration capacity by confining pericycle competence for callus formation in Arabidopsis.Shang B., Xu C., Zhang X., Cao H., Xin W., Hu Y.View abstractCategoriesFunction, Phenotypes & VariantsSourceTAIR: AT4G14550PubMedEurope PMCProc Natl Acad Sci U S A 113:5101-5106 (2016)Mapped to12
Ca(2+)-regulated and diurnal rhythm-regulated Na(+)/Ca(2+) exchanger AtNCL affects flowering time and auxin signalling in Arabidopsis.Li P., Zhang G., Gonzales N., Guo Y., Hu H., Park S., Zhao J.View abstractCategoryFunctionSourceTAIR: AT4G14550PubMedEurope PMCPlant Cell Environ. 39:377-392 (2016)Cited in1Mapped to10
The circadian clock rephases during lateral root organ initiation in Arabidopsis thaliana.Voss U., Wilson M.H., Kenobi K., Gould P.D., Robertson F.C., Peer W.A., Lucas M., Swarup K., Casimiro I.[...], Bennett M.J.View abstractCategoriesFunction, ExpressionSourceTAIR: AT4G14550PubMedEurope PMCNat Commun 6:7641-7641 (2015)Mapped to6
Interaction between glucose and brassinosteroid during the regulation of lateral root development in Arabidopsis.Gupta A., Singh M., Laxmi A.View abstractCategoriesFunction, Phenotypes & VariantsSourceTAIR: AT4G14550PubMedEurope PMCPlant Physiol 168:307-320 (2015)Mapped to20
Chromate induces adventitious root formation via auxin signalling and SOLITARY-ROOT/IAA14 gene function in Arabidopsis thaliana.Lopez-Bucio J., Ortiz-Castro R., Ruiz-Herrera L.F., Juarez C.V., Hernandez-Madrigal F., Carreon-Abud Y., Martinez-Trujillo M.View abstractCategoriesFunction, ExpressionSourceTAIR: AT4G14550PubMedEurope PMCBiometals 28:353-365 (2015)Mapped to5
Auxin-induced degradation dynamics set the pace for lateral root development.Guseman J.M., Hellmuth A., Lanctot A., Feldman T.P., Moss B.L., Klavins E., Calderon Villalobos L.I., Nemhauser J.L.View abstractCategoryFunctionSourceTAIR: AT4G14550PubMedEurope PMCDevelopment 142:905-909 (2015)Mapped to5