Sequence and analysis of chromosome 1 of the plant Arabidopsis thaliana.Theologis A., Ecker J.R., Palm C.J., Federspiel N.A., Kaul S., White O., Alonso J., Altafi H., Araujo R.[...], Davis R.W.View abstractCited forNUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA]Straincv. ColumbiaCategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCNature 408:816-820 (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
The genetic architecture of shoot branching in Arabidopsis thaliana: a comparative assessment of candidate gene associations vs. quantitative trait locus mapping.Ehrenreich I.M., Stafford P.A., Purugganan M.D.View abstractCited forNUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 1-247, VARIANTSStraincv. Ag-0, cv. An-1, cv. Br-0, cv. C24, cv. Ct-1, cv. Cvi-1, cv. Edi-0, cv. Ga-0, cv. Kas-1, cv. Kin-0, cv. Landsberg erecta, cv. Ll-0, cv. Lz-0, cv. Ms-0, cv. Mt-0, cv. Nd-1, cv. Nok-3, cv. Oy-0, cv. Se-0, cv. Sorbo, cv. Tsu-1, cv. Van-0, cv. Wa-1, cv. WassilewskijaCategoriesSequencesSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCGenetics 176:1223-1236 (2007)Cited in1399+Mapped to8
Bus, a bushy Arabidopsis CYP79F1 knockout mutant with abolished synthesis of short-chain aliphatic glucosinolates.Reintanz B., Lehnen M., Reichelt M., Gershenzon J., Kowalczyk M., Sandberg G., Godde M., Uhl R., Palme K.View abstractCited forIDENTIFICATION, FUNCTION, TISSUE SPECIFICITY, SUBCELLULAR LOCATION, DISRUPTION PHENOTYPEStraincv. ColumbiaCategoriesFunction, Expression, Phenotypes & Variants, Subcellular LocationSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPlant Cell 13:351-367 (2001)Cited in2
Cytochrome P450 CYP79F1 from Arabidopsis catalyzes the conversion of dihomomethionine and trihomomethionine to the corresponding aldoximes in the biosynthesis of aliphatic glucosinolates.Hansen C.H., Wittstock U., Olsen C.-E., Hick A.J., Pickett J.A., Halkier B.A.View abstractCited forFUNCTION, CATALYTIC ACTIVITY, TISSUE SPECIFICITYCategoriesFunction, ExpressionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCJ. Biol. Chem. 276:11078-11085 (2001)Cited in1
CYP79F1 and CYP79F2 have distinct functions in the biosynthesis of aliphatic glucosinolates in Arabidopsis.Chen S., Glawischnig E., Joergensen K., Naur P., Joergensen B., Olsen C.-E., Hansen C.H., Rasmussen H., Pickett J.A., Halkier B.A.View abstractCited forCATALYTIC ACTIVITY, BIOPHYSICOCHEMICAL PROPERTIES, TISSUE SPECIFICITY, DISRUPTION PHENOTYPECategoriesFunction, Expression, Phenotypes & VariantsSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPlant J. 33:923-937 (2003)Cited in1
Modulation of CYP79 genes and glucosinolate profiles in Arabidopsis by defense signaling pathways.Mikkelsen M.D., Petersen B.L., Glawischnig E., Jensen A.B., Andreasson E., Halkier B.A.View abstractCited forINDUCTION BY METHYL JASMONATECategoriesExpressionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPlant Physiol. 131:298-308 (2003)Cited in3Mapped to8
Functional analysis of the tandem-duplicated P450 genes SPS/BUS/CYP79F1 and CYP79F2 in glucosinolate biosynthesis and plant development by Ds transposition-generated double mutants.Tantikanjana T., Mikkelsen M.D., Hussain M., Halkier B.A., Sundaresan V.View abstractCited forFUNCTIONStraincv. WassilewskijaCategoriesFunctionSourceUniProtKB reviewed (Swiss-Prot)PubMedEurope PMCPlant Physiol. 135:840-848 (2004)Cited in2Mapped to2
Genome-wide association study reveals novel players in defense hormone crosstalk in Arabidopsis.Proietti S., Caarls L., Coolen S., Van Pelt J.A., Van Wees S.C.M., Pieterse C.M.J.View abstractCategoriesFunction, ExpressionSourceTAIR: AT1G16410PubMedEurope PMCPlant Cell Environ. 41:2342-2356 (2018)Cited in1Mapped to35
Endogenous Arabidopsis messenger RNAs transported to distant tissues.Thieme C.J., Rojas-Triana M., Stecyk E., Schudoma C., Zhang W., Yang L., Minambres M., Walther D., Schulze W.X.[...], Kragler F.View abstractCategoriesFunction, ExpressionSourceTAIR: AT1G16410PubMedEurope PMCNat. Plants 1:15025-15025 (2015)Cited in1Mapped to99+
BjuB.CYP79F1 Regulates Synthesis of Propyl Fraction of Aliphatic Glucosinolates in Oilseed Mustard Brassica juncea: Functional Validation through Genetic and Transgenic Approaches.Sharma M., Mukhopadhyay A., Gupta V., Pental D., Pradhan A.K.View abstractCategoriesFunction, ExpressionSourceTAIR: AT1G16410PubMedEurope PMCPLoS One 11:e0150060-e0150060 (2016)Cited in2Mapped to2
Glucose signalling positively regulates aliphatic glucosinolate biosynthesis.Miao H., Wei J., Zhao Y., Yan H., Sun B., Huang J., Wang Q.View abstractCategoriesFunction, Phenotypes & VariantsSourceTAIR: AT1G16410PubMedEurope PMCJ Exp Bot 64:1097-1109 (2013)Mapped to10
Water stress and aphid feeding differentially influence metabolite composition in Arabidopsis thaliana (L.).Mewis I., Khan M.A., Glawischnig E., Schreiner M., Ulrichs C.View abstractCategoriesExpressionSourceTAIR: AT1G16410PubMedEurope PMCPLoS One 7:e48661-e48661 (2012)Mapped to20
The rolD oncogene promotes axillary bud and adventitious root meristems in Arabidopsis.Falasca G., Altamura M.M., D'Angeli S., Zaghi D., Costantino P., Mauro M.L.View abstractCategoriesFunction, Expression, Phenotypes & VariantsSourceTAIR: AT1G16410PubMedEurope PMCPlant Physiol Biochem 48:797-804 (2010)Mapped to1
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: AT1G16410PubMedEurope PMCPlant Physiol 148:436-454 (2008)Mapped to99+
Metabolic engineering of aliphatic glucosinolates in Chinese cabbage plants expressing Arabidopsis MAM1, CYP79F1, and CYP83A1.Zang Y.X., Kim J.H., Park Y.D., Kim D.H., Hong S.B.View abstractCategoriesExpression, Function, Function, Phenotypes & VariantsSourcepGenN:18593532, pGenN:18593532, TAIR: AT1G16410PubMedEurope PMCBMB Rep 41:472-478 (2008)Mapped to7
Glucosinolate metabolism and its control.Grubb C.D., Abel S.View abstractCategoriesNamesSourceTAIR: AT1G16410PubMedEurope PMCTrends Plant Sci 11:89-100 (2006)Mapped to36
Variations in CYP74B2 (hydroperoxide lyase) gene expression differentially affect hexenal signaling in the Columbia and Landsberg erecta ecotypes of Arabidopsis.Duan H., Huang M.Y., Palacio K., Schuler M.A.View abstractCategoriesExpressionSourceTAIR: AT1G16410PubMedEurope PMCPlant Physiol. 139:1529-1544 (2005)Cited in2Mapped to99+