Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi2g1v0231800 |
Transcript ID | LotjaGi2g1v0231800.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Acyl-[acyl]-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase; TAIR: AT4G29540.2 bacterial transferase hexapeptide repeat-containing protein; Swiss-Prot: sp|Q9SU91|LPXA_ARATH Probable acyl-[acyl]-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase, mitochondrial; TrEMBL-Plants: tr|A0A072UJ42|A0A072UJ42_MEDTR UDP-N-acetylglucosamine acyltransferase; Found in the gene: LotjaGi2g1v0231800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:69092338..69098091) extracted from Lotus japonicus Gifu genome v1.2.
TTTTGTTGAATAAAACACATTTTCACTTAACAGTTTATAATAAATATTATGATGGGATTATGAATTTATATTGATAATAA CAATCTTATTTGTAACATATATTTTTTTTTTACCTTTTTTGACCTTATGTTCTACAATAAAATTAAAAGAAATAGAAAAT TACTGTCGTTCCCTGGAGCTTATGCGCAGCTTCTGAAAACCATAGGAAACCAAACATGTCGTTCCTCAAACTTGGCACTC GCAGACCCTTTTCCTTTTCATCTGCACTCCGAATCTTCCATCCACGCTTCTTCTCTTGTATGTTCCTTCTATTGAAGAAC TTGCTAGTGCTTGTGTTAACCATCATCAATGCTACAAATTGATCCATTTTTGTTGTTGTTGTTTGTTGTCTGTGAGTTGT TTGTGACATTTATCTGACCTCGTAGATGTTGCGGAGGGGGAGAGTGTTCACGCTTCCGATGCTACGAAGCCAAGCTTCAT CCACCCTAGTGCTGTAGTTCACCCCAATGCCGTCATCGGTGAGGTACTTTCTCTTCTTGTTCTTCTCTTGGTTCAACCAA ACTTTGCTCCTTTTTTCCTCAATTGTTATTGGGTAGTTCAAATGCTATTATTTGGGAACTGGGTATCTGTCAGTTTTTTC TTATGTGATGCCAACTGAGAAGTAGGAACAAAAGTGTCCATCTTGTACACCATTATTTGTTATTGCCTTTTGTTTGAATG TAGTTTCGAATTGGATCCCTGACTTTGTCATTGGTTTTTCAAGTTTTAATTTAAGTTAGTGTTAGTTAACTGTTTTATTG ATGGTTAGAGTAGTTAGTTTTCGGTTGTAACTGACTATGTAGATTGTAACTGCATCGCTGGATGCTTAGCAACTTGTATA TAAGCTTTTGCTAGTTGAATGATATGCAAGAGATTCATTTTCTCTCAAAAGGTTATTCAATTTGTCGAGGAGGTAATTAG GGATGGGGTTTCCTCTACGGTTGAAAATCAACTGCTCCCTACCATGCCTATTCAAAATGTTTGCTTATAGATAAAGATAG GAACTACACCAGCAAGAAAAATTTTGCTACCATACTATCAGAATTCAGAACTGCACTTGGTACAGTTTGATTCTGACTGT AGAGGATTCTGTTACTACTTTTAGGCCCTCTTGACCAGTAATATATGTGATTGACCATAAGGGAAAAAAGGACAGGTAAC TTCTGTTTTGCAATTCTATAAGGACGGAAGATGAAGTATTGGAGCTTCAAGATAGAACATGGTGTTTGTTCTTCACATGT AATGCGTGCTTCTTATTATGTTGTACTAATCTAAGATGCTTTGTTTGAATATCAATGCAAATTGTAGTCTGGAACTGTAA TTTTTTCCATTCATCAACCATGTCTTCAGACTTCATGTTTTGTGGTAATGTGTCTTCTGCTTTTTATGTTTAGGGAGTTT CAATTGGACCTTTTTGTTCTGTTAGTTCCTACGCTAAGCTGGGGAACGGTTGTCAACTATATCCCGGAAGCCATATTTTT GGAAGTACTGAGTTAGGGGACAATTGCATGTTGATGACGTGAGTTCAAGCTTAATATCACAGTTTTTTTTCTGAGTTTGT GCTCCTTGAAATAGTCTTTATCTTGAACCATTTCATGACCATGTTTTTTTGGGGAACATTGTCTGCAGTGGTGCTATTGT TGGTGACGATTATCCTGGATGCACCATAATTGGAAGCAATAACATAATAGGATATCATGCTGTGGTTGGTGTTAAATGCC AGGACTTGAAATACAAGGTATGGTCTTCTTTAATTGGTAGAGCCCCCCAGAATGTCAGGGTTATTACATTGACATTGCTG CTGTTTATAACCCACTTTGAACTGATGAAATAGGAATCATGCCATTTTTAACATAACTATCAACCCTTTCTTTAGTCAGG AAGAAAAAGAAGTTGGGGCAAGGGGGGCGATTAAGTTGATTGAAAATGGTTAAAAATAGTCTATAAAAATGTGTGGCTTT TGACATTTTGTCTTCCCAGTCTTCTGGAAATCCTGACAAGGTCTTCATATTTATTCAGTCAATGTGACTAAAATATTACT GATATATTAGTGGCTAAGTGAGGTCTTCCCTCATTTTTTCCTCCATGTGAAGCCTTTGGTATTGTTTGTGCAAGACCTTT TACCTGTGTCGATTTCTTGAACTGTTTTACAATGCCTTTTTTTATTGCCTGTTTACCTGGCACATTTTTCTCTTTGTTCT TCTTTTCTATAAGTTGAGTTGCATTCTGACTGAATAGTATCTCCACCTTTGCTTCATTGATTGGTTTAAAACTTTCATTT TTTCCTCCATGTGAAGCCTTTGGCATTGTTTGTGCAAGACCTTTTACCTGTGTCGATTTCTTGAACTGTTTTACAATGCC TTTTTTTATTGCCTGTTTACCTGGCACATTTTTCTCTTTGTTCTTCTTTTCTTTTCTATAAGTTGAGTTGCATTCTGACT GAATAGTAGCTCCACCTTTGCTTCATTGATTGGTTTAAAACTTTCATTTTTTTTACAGTAAATGTTGTCTTTCAGAAAGA TGCATGCAAGCAAAAGAGATTAAACTAAAATAAATTACTTCCAACTCAAATTAGCAATTTTATATAATGACAGATTGGTT TATAGTGTAGAAACAATACTGCTACCAGTTTAAGCGCTCTAGAGAAAGTATACAAATGATATTCATTTAAGTATTTAACA GGACACTTCACATAAAAGTTTTTTGGATTTGAAGGATGAATAAATCAGAGGCCTTGGATTTCATTGTGCTCTTTGGTACC ATCAGGATAAGGCACATGAATGATTTTTATTTATGTATCTCAATATTGTCCTTTTCTGGTTTCCTTATTTTATTTGTTTT TCCCTTCATGTTGTTGTGGTTACTATTTGTTGGAGTCCATTTCTGTGTGGGATGTGGGCACAATAAGGAGAGCGTTGTCA ATATATTTAGTTATTTAGGCTTGTTACTTTCAGCACATGTTTTGGCCGTCAATTATGGCTAACTATTGTCCTATAGGCTT AATTATACTTTTAGTGCCCTAATTTGGACTATGTATGATTTCTGTCTCTTTTTTTTTAACTGATTAAATCTCTCTAGTTT TAAAACAAAGCAAAGTCAGTCCTTGAATCAATTTTCATGTGCTTAAATATCTTTAATCTTTATTTTCTATTCAAATACTT TGGGGCTTTATGATTGACTGGAGGTATGAGATAATTTGAAAAGTTTAAATGTTAGATATTTAGTAGAAAAGTGATAAAAT TTGAAGGATTTATATGATGTGAGATTAGGGTTTAAAGACGGGGGAAATTTGAGATTTTTTTTTCTTCTGAAATTTAATAT TTTGGTTGGTAAGTTTTGAGTGAAAGAAGGTTTAAATGATTTAATTGATTCAATTATGTGAACATTTTCGCAACATGAGA ATGAGAGTTTTAAGTAGAGCAAAAGTGATAGAGGGACTTAATTGTGACAAGTCAAAATTTAGAGACTAAATTTCCTTAAG GTAATTGGGGTGGGGGGGACCAAAATCACACATAAGCTATAATAAAGGACTAAATTTGCAATTAAGCCCCTCCTATATAT AAATCAATTTTGAATGTATGCACTCTACTGCTCAAGTAGCTAACTCATGTAATTCATGTCTATCTTATTTTGGAATATGT TCTTAATTGTGTTTGCCATGTAGCCAGAGGATGAGTGTTTCCTGGAAGTTGGACACAATAATGATATAAGGGAACATACT TCAATCCACCGATCTTCAAAATCAACAGATAGGACGGTAAGACGGCTTCAGAGTTTTTTTACGAAAAATGAAAAATAGAA ATTTCCAGACTCAAGCATATATACCTTTTCATACTCTTACTATGATATTATCATCAGGTTATTGGTGATGAAAATTTAAT TATGGGATCTTGTCACATTGCCCATGATTGCAAGATTGGTAATAGCAATATTTTTGCTAATAATACTCTTCTAGCTGGAC ACGTTGAGGTGGAGGTAAGCTGTTCTGAAGAATTAGAGTACCTTTTTATGATAGAAGTTTCCTTTTTCTTGTAATTTAAA CATGAGGTTGGAAAATTGATTAAAACTCTTCACATGTAGGACTGTGTTCACACTGCAGGTGCCACTGTTGTTCACCAATT CTGCCATCTTGGTTCTTTCTCTTTTCTTGGTGGTGGTTCTGTGGTAGGTTTTCTTTTAATCTCATGGTTTGGTATAAATT TGTATTTTTTTTTGTTACATAGGAAAGTAATATCAATATGTTTTGTAACAAGGGACATGAATGTTGCACAATCATGTAAG GATATTGTACAAAATCTAAGCCAGCCACTAAAAGTTTGTGATATCTAGTTATTGAGTGGCTGACACCGAAGGCTCTGAGT TCTGAGGATTGTGTGTGGAATATATTATTTTAAATAAAAGCAAGTTTGTCAAAATGGTTTTGTTCTTGTCTTTGGTTTTC AATAATCAACATAGCATGACTTTTCACTAGGACGATTTCAGCAAAACTTTAAGATAGCGTCTGGTACACAGGGACTGTCC ATTTTTGGAATGCATTACTGACTGTAAAATCTAAATTTCCCTTATTGAAGAACTTGTTGACGCAAATACTTTTACCTTGC CAAATGATATACAATTACTCAGGTGTGCAACTACAATGTCATGGTTGTTACATGAATGAAGGTTTCACAAGATGTCCCGA AGTACATGATGGTATCTGGAGAAAGAGCTGAGCTGCGCGGTCTAAATTTAGTAGGACTGACTCGACGTGGATTCAGCATA GAAGAGGTTTATGCTCACCATTTCTAATATTGTTGTTCAATTATATGTTATTGCAACTAAACAGTTTTCTTGGGTAACAT CCAGATCAGGAGTCTTAGAGCAGCTTATCGAAAGATATTCATGTGTGTGGATGCAAGTGTCGGGTCTTTTGAAGAAAGAC TTGCACAAGTGGTATTTTTTTGCTTGTCTAGTGCTCTGAGGGTGTTAATGATGGATGCTTCTTATGGGAGTCAAAATCTA AGATATACTTGTTTTGCAGGAACAAGATAATAAATTGATTCACGTTCCTGCTGTGCGTGCTATGTTGCAGTCTATTCATG ACTCTTTTGCAGAAGATCGACGTGGAATATGCAGGTTTAGGGTCTGGAATGGAATGGCTCTAGAAGCATGCTGAGGTTAG TTTGTTGATACTTTTTATGCTTCCCCATATATTGAGTTGGCATGGACAAAAACAAGGGGGAGAGCGACTCTCTTTTTTTA ACATCAACTTGTGATTATGAAACTGTTGTAGTTAGCCAGTATTAAATGGTGGTTCATTGGTTATAAAGTATGCACAATTT TGCAGATATGTCTTGCAATTTCTGCTAAATTGCGAGCACATGTTCATTGATGTATTCTATGATTGGTCTCCGGAAGCTCT ACAGAAGGAAGTTGGTTTACGTTGGAGCGGTTCTCCTCATTTCTATAATTTGTAGAAGAGTTTGTTGTATTATTAAGTGC TTACTAATCTCTAATTTTTGTATAGGTTCTTATTGTATACAGACACATTTCTCTTCAAGTGGTAGATTATATTGTTAATT TTTGGTCAATGAACGTTATCTTTGGATTTGGTCTTGCCTTTAACCCACCAAAGTTTGGTTCAAATTCACGCCTTATGCGA AGTTTCACATTGACTAGATATATAGCTAAATAAGTGTTTATAAATGGTAAAACAATGAAGGTTCAGTAAGCAAC
CDS sequence (LotjaGi2g1v0231800.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCGTTCCTCAAACTTGGCACTCGCAGACCCTTTTCCTTTTCATCTGCACTCCGAATCTTCCATCCACGCTTCTTCTC TTATGTTGCGGAGGGGGAGAGTGTTCACGCTTCCGATGCTACGAAGCCAAGCTTCATCCACCCTAGTGCTGTAGTTCACC CCAATGCCGTCATCGGTGAGGGAGTTTCAATTGGACCTTTTTGTTCTGTTAGTTCCTACGCTAAGCTGGGGAACGGTTGT CAACTATATCCCGGAAGCCATATTTTTGGAAGTACTGAGTTAGGGGACAATTGCATGTTGATGACTGGTGCTATTGTTGG TGACGATTATCCTGGATGCACCATAATTGGAAGCAATAACATAATAGGATATCATGCTGTGGTTGGTGTTAAATGCCAGG ACTTGAAATACAAGCCAGAGGATGAGTGTTTCCTGGAAGTTGGACACAATAATGATATAAGGGAACATACTTCAATCCAC CGATCTTCAAAATCAACAGATAGGACGGTTATTGGTGATGAAAATTTAATTATGGGATCTTGTCACATTGCCCATGATTG CAAGATTGGTAATAGCAATATTTTTGCTAATAATACTCTTCTAGCTGGACACGTTGAGGTGGAGGACTGTGTTCACACTG CAGGTGCCACTGTTGTTCACCAATTCTGCCATCTTGGTTCTTTCTCTTTTCTTGGTGGTGGTTCTGTGGTTTCACAAGAT GTCCCGAAGTACATGATGGTATCTGGAGAAAGAGCTGAGCTGCGCGGTCTAAATTTAGTAGGACTGACTCGACGTGGATT CAGCATAGAAGAGATCAGGAGTCTTAGAGCAGCTTATCGAAAGATATTCATGTGTGTGGATGCAAGTGTCGGGTCTTTTG AAGAAAGACTTGCACAAGTGGAACAAGATAATAAATTGATTCACGTTCCTGCTGTGCGTGCTATGTTGCAGTCTATTCAT GACTCTTTTGCAGAAGATCGACGTGGAATATGCAGGTTTAGGGTCTGGAATGGAATGGCTCTAGAAGCATGCTGA
Protein sequence (LotjaGi2g1v0231800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSFLKLGTRRPFSFSSALRIFHPRFFSYVAEGESVHASDATKPSFIHPSAVVHPNAVIGEGVSIGPFCSVSSYAKLGNGC QLYPGSHIFGSTELGDNCMLMTGAIVGDDYPGCTIIGSNNIIGYHAVVGVKCQDLKYKPEDECFLEVGHNNDIREHTSIH RSSKSTDRTVIGDENLIMGSCHIAHDCKIGNSNIFANNTLLAGHVEVEDCVHTAGATVVHQFCHLGSFSFLGGGSVVSQD VPKYMMVSGERAELRGLNLVGLTRRGFSIEEIRSLRAAYRKIFMCVDASVGSFEERLAQVEQDNKLIHVPAVRAMLQSIH DSFAEDRRGICRFRVWNGMALEAC
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
PANTHER | 24 | 337 | 314 | 2.1E-161 | ||
Gene3D | 38 | 257 | 220 | 1.9E-62 | – | |
SUPERFAMILY | 40 | 252 | 213 | 1.79E-46 | ||
Pfam | 45 | 70 | 26 | 9.7E-6 | ||
CDD | 46 | 330 | 285 | 5.30594E-113 | ||
Pfam | 169 | 202 | 34 | 1.5E-6 | ||
Pfam | 240 | 331 | 92 | 2.3E-22 | ||
Gene3D | 258 | 341 | 84 | 1.3E-35 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Biological process | Lipid biosynthetic process | The chemical reactions and pathways resulting in the formation of lipids, compounds soluble in an organic solvent but not, or sparingly, in an aqueous solvent. | ||
Molecular function | Acyl-[acyl-carrier-protein]-UDP-N-acetylglucosamine O-acyltransferase activity | Catalysis of the reaction: (R)-3-hydroxytetradecanoyl-[acyl-carrier protein] + UDP-N-acetylglucosamine = [acyl-carrier protein] + UDP-3-O-(3-hydroxytetradecanoyl)-N-acetylglucosamine. |
Expression pattern of LotjaGi2g1v0231800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…