Rab7 homologs in Arabidopsis thaliana.Ueda T., Wada Y., Nakano A.Cited forNUCLEOTIDE SEQUENCE [MRNA]CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)Submission Submitted to EMBL/GenBank/DDBJ databases (SEP-2001)Cited in8
Structural analysis of Arabidopsis thaliana chromosome 3. I. Sequence features of the regions of 4,504,864 bp covered by sixty P1 and TAC clones.Sato S., Nakamura Y., Kaneko T., Katoh T., Asamizu E., Tabata S.View abstractCited forNUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA]Straincv. ColumbiaCategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCDNA Res. 7:131-135 (2000)Cited in99+99+
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. ColumbiaCategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPlant J. 89:789-804 (2017)Cited in99+99+
Empirical analysis of transcriptional activity in the Arabidopsis genome.Yamada K., Lim J., Dale J.M., Chen H., Shinn P., Palm C.J., Southwick A.M., Wu H.C., Kim C.J.[...], Ecker J.R.View abstractCited forNUCLEOTIDE SEQUENCE [LARGE SCALE MRNA]Straincv. ColumbiaCategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCScience 302:842-846 (2003)Cited in99+Mapped to2
Full-length cDNA from Arabidopsis thaliana.Brover V.V., Troukhan M.E., Alexandrov N.A., Lu Y.-P., Flavell R.B., Feldmann K.A.Cited forNUCLEOTIDE SEQUENCE [LARGE SCALE MRNA]CategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)Submission Submitted to EMBL/GenBank/DDBJ databases (MAR-2002)Cited in99+
Analysis of the small GTPase gene superfamily of Arabidopsis.Vernoud V., Horton A.C., Yang Z., Nielsen E.View abstractCited forGENE FAMILY, NOMENCLATURECategoriesNamesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPlant Physiol. 131:1191-1208 (2003)Cited in79Mapped to70
Mechanisms governing the endosomal membrane recruitment of the core retromer in Arabidopsis.Zelazny E., Santambrogio M., Pourcher M., Chambrier P., Berne-Dedieu A., Fobis-Loisy I., Miege C., Jaillais Y., Gaude T.View abstractCited forFUNCTION, INTERACTION WITH VPS35A, SUBCELLULAR LOCATIONCategoriesFunction, Interaction, Subcellular LocationSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 288:8815-8825 (2013)Cited in2Mapped to13
Activation of the Rab7 GTPase by the MON1-CCZ1 complex is essential for PVC-to-vacuole trafficking and plant growth in Arabidopsis.Cui Y., Zhao Q., Gao C., Ding Y., Zeng Y., Ueda T., Nakano A., Jiang L.View abstractCited forFUNCTION, ACTIVITY REGULATION, SUBCELLULAR LOCATION, MUTAGENESIS OF THR-22 AND GLN-67CategoriesFunction, Phenotypes & Variants, Subcellular LocationSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPlant Cell 26:2080-2097 (2014)Cited in5Mapped to3
Distinct sets of tethering complexes, SNARE complexes, and Rab GTPases mediate membrane fusion at the vacuole in Arabidopsis.Takemoto K., Ebine K., Askani J.C., Krueger F., Gonzalez Z.A., Ito E., Goh T., Schumacher K., Nakano A., Ueda T.View abstractCited forSUBCELLULAR LOCATIONCategoriesSubcellular LocationSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCProc. Natl. Acad. Sci. U.S.A. 115:E2457-E2466 (2018)Cited in13Mapped to6
Interaction between VPS35 and RABG3f is necessary as a checkpoint to control fusion of late compartments with the vacuole.Rodriguez-Furlan C., Domozych D., Qian W., Enquist P.A., Li X., Zhang C., Schenk R., Winbigler H.S., Jackson W.[...], Hicks G.R.View abstractCategoriesInteraction, Interaction, Subcellular LocationSourcepGenN:31570580, pGenN:31570580, TAIR: AT3G18820PubMedEurope PMCProc Natl Acad Sci U S A 116:21291-21301 (2019)Mapped to15
MONENSIN SENSITIVITY1 (MON1)/CALCIUM CAFFEINE ZINC SENSITIVITY1 (CCZ1)- Mediated Rab7 Activation Regulates Tapetal Programmed Cell Death and Pollen Development.Cui Y., Zhao Q., Xie H.T., Wong W.S., Wang X., Gao C., Ding Y., Tan Y., Ueda T.[...], Jiang L.View abstractAnnotationMON1/CALCIUM CAFFEINE ZINC SENSITIVITY1 (CCZ1)-mediated Rab7 activation was indispensable for vacuolar trafficking of tapetum degradation-related cysteine proteases.CategoriesFunctionSourceGeneRif: 821415PubMedEurope PMCPlant Physiol 173:206-218 (2017)Mapped to8
Identification of regulatory and cargo proteins of endosomal and secretory pathways in Arabidopsis thaliana by proteomic dissection.Heard W., Sklenar J., Tome D.F., Robatzek S., Jones A.M.View abstractCategoriesSubcellular LocationSourceTAIR: AT3G18820PubMedEurope PMCMol. Cell. Proteomics 14:1796-1813 (2015)Cited in1Mapped to17
Retromer association with membranes: plants have their own rules!Zelazny E., Santambrogio M., Gaude T.View abstractCategoriesFunction, InteractionSourceTAIR: AT3G18820PubMedEurope PMCPlant Signal Behav 8:e25312-e25312 (2013)Mapped to3
Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis.Wang Y., Zhang W.Z., Song L.F., Zou J.J., Su Z., Wu W.H.View abstractCategoriesNames, ExpressionSourceTAIR: AT3G18820PubMedEurope PMCPlant Physiol. 148:1201-1211 (2008)Cited in3Mapped to99+
Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection.Ascencio-Ibanez J.T., Sozzani R., Lee T.J., Chu T.M., Wolfinger R.D., Cella R., Hanley-Bowdoin L.View abstractCategoriesExpressionSourceTAIR: AT3G18820PubMedEurope PMCPlant Physiol 148:436-454 (2008)Mapped to99+
VPS9a, the common activator for two distinct types of Rab5 GTPases, is essential for the development of Arabidopsis thaliana.Goh T., Uchida W., Arakawa S., Ito E., Dainobu T., Ebine K., Takeuchi M., Sato K., Ueda T., Nakano A.View abstractCategoriesFunctionSourceTAIR: AT3G18820PubMedEurope PMCPlant Cell 19:3504-3515 (2007)Cited in4Mapped to17
A high content in lipid-modified peripheral proteins and integral receptor kinases features in the arabidopsis plasma membrane proteome.Marmagne A., Ferro M., Meinnel T., Bruley C., Kuhn L., Garin J., Barbier-Brygoo H., Ephritikhine G.View abstractCategoriesPTM / Processing, Subcellular LocationSourceTAIR: AT3G18820PubMedEurope PMCMol. Cell. Proteomics 6:1980-1996 (2007)Cited in27Mapped to99+
Control of root cap formation by MicroRNA-targeted auxin response factors in Arabidopsis.Wang J.-W., Wang L.-J., Mao Y.-B., Cai W.-J., Xue H.-W., Chen X.-Y.View abstractCategoriesExpressionSourceTAIR: AT3G18820PubMedEurope PMCPlant Cell 17:2204-2216 (2005)Cited in1Mapped to9
Localization of organelle proteins by isotope tagging (LOPIT).Dunkley T.P., Watson R., Griffin J.L., Dupree P., Lilley K.S.View abstractCategoriesSubcellular LocationSourceTAIR: AT3G18820PubMedEurope PMCMol Cell Proteomics 3:1128-1134 (2004)Mapped to99+
Identification of new intrinsic proteins in Arabidopsis plasma membrane proteome.Marmagne A., Rouet M.-A., Ferro M., Rolland N., Alcon C., Joyard J., Garin J., Barbier-Brygoo H., Ephritikhine G.View abstractCategoriesSubcellular LocationSourceTAIR: AT3G18820PubMedEurope PMCMol. Cell. Proteomics 3:675-691 (2004)Cited in42Mapped to99+
Analysis of the Arabidopsis nuclear proteome and its response to cold stress.Bae M.S., Cho E.J., Choi E.Y., Park O.K.View abstractCategoriesSubcellular LocationSourceTAIR: AT3G18820PubMedEurope PMCPlant J 36:652-663 (2003)Mapped to99+
An ATP-binding cassette transporter GhWBC1 from elongating cotton fibers.Zhu Y.Q., Xu K.X., Luo B., Wang J.W., Chen X.Y.View abstractCategoriesExpressionSourceTAIR: AT3G18820PubMedEurope PMCPlant Physiol 133:580-588 (2003)Cited in1Mapped to2
Evolution of the Rab family of small GTP-binding proteins.Pereira-Leal J.B., Seabra M.C.View abstractCategoriesNames, Family & DomainsSourceTAIR: AT3G18820PubMedEurope PMCJ Mol Biol 313:889-901 (2001)Mapped to75