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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0460300 |
| Transcript ID | LotjaGi4g1v0460300.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | UDP-N-acetylglucosamine--N-acetylmuramyl-(Pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase; TAIR: AT1G73740.1 UDP-Glycosyltransferase superfamily protein; Swiss-Prot: sp|B3QWT7|MURG_CHLT3 UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase; TrEMBL-Plants: tr|K7KRG7|K7KRG7_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0460300 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:83099675..83109380) extracted from Lotus japonicus Gifu genome v1.2.
CTAAGCAAAAATTTCACTAAGAGAAGGTGAATGTTCCGACTCAAACAATATTACCTTTTATGGATTATTTATGTATTGTG AACATGTTAAAAATTGGTCAACTCATGAATATGTTTTTACAACTGACATTTATGTCTTTTTGCAATATGGTCCATATGCT CTAAAACTTGGTAAACCATGTTTTTCTTAGTACACAACAGACACATGTAGACTTGTATCAGAAAAATAAAACAAAAGAGC TTATTTGTTGATTTGTTGAAGACAGAACAGAGAATGATGTCCTCTTCCACTTCCAAGATGCATCATCTTGATCTTCAGCT TCAAACTACCTTAATGGCTACTACCACTTTTTCCCACCTCACCCAGGCAAGTCTCTGTTTCTTTCCCCCTTACAATTTTG TCCCCTCTCTTCTGAACTCTCTTTTGCACTATAACAGAAGGAGCCTTCAACTCTCATGCAGCAGCTTGTCTTCTAACGAC AATGACCACAACCTCCGAGTAGTCTTTGCGGGCGGCGGTACTGGCAGCAATGTGTACCCCGCGGTGGCCATCGCGGAAGA GCTCAAAACATCAAACCCCGCGTGCGAGTTTCTCTTTGTTGGCAGCCCCAACAGCATTGAGAGCACTGCAGTCACCTCTG CAGGGTACAACTTTGCCCCTGTTCTCTCACTCTGTTTCTCCCCTGTTTCATCCATCACTCTGTTTCAACTCTGTTCTTCC CCTTGCCGTTTTGTAAAATCCCTGATCCAATGCTCACGCCACCTCCGAGATTTCAAACCTCACATTGTTGTTGGAACCGG TGGCTATGTCTCTTTCCCCGTTTGCCTCGCCGCGAAAATCAACAACATCATGGTTGTGATTCATGAACCAAACTCTGCCC CTGGTTTCGTAAACTCTGTTCTTGCCCTGTTTGCTCATAAAATCTTTGTTGCTTTCAACTCAACCGTTGATAGCTTCCCC AGAAACAAGTGCGTGGTGTGTGGAAACCCGGTGAGGTTGTCTCTCAGAAACCCGGTTTCGAAGGCGGCTGCAAGGTCTCA TTTTTTCCCTGGTTATGGGGAATCGAGTGATTCCGAGAAGGACAAGGTTTTGTTAGTTCTTGGTGGTTCTTTAGGTGCTA ATGCTGTAAACATAGCTATGCTGAATTTGTATCATCAGATGCTGAGACAGAACAATGGCTTGTACCTTATATGGCAAACT GGGGTTGAAACGTATGATGAAATGGACAGCCTAGTTAAAAATCATCCACGCTTGTACTTGACACCGTAAGTGCTTCTTGT TCCATCCTACATTGTTTGAATGTTTTCTAGCATTTTTTGTTCTACTGAGAATTGTTCTAGAATCACTTTTGTCTAGAAGC TACAAGTCTTAACTTCATAGTAAGCATGTGTTGGATTCTTCATATTTTAAGATATCTTAGTTTGTTGTTAGTTCTTCAAT GGAATATATTCACCTTTTGAGAAAGTAAATGAAGTGTGGTGATTCATCTAAAACTAGTATGTTTGTTAGCAAGTGGAACT GTGTGGAGATGCTTTTGAACTTTCTATTCATCAAAGAACTATATTCATATATCGTGAAAGATTGTGTTGAGATTTTGGAG TAAAAAAACTCATTTGGATACCAGTTGAGTTAACCTGAAACCACATTCATCTCAATCCATAAGATGAGTTATGTTCACTT TTAGTCTCCAACTAAGCGCTAACGCATGTTATCATTCAATCCTCAAATTAGGTTAAATATCTGAATAATACATCATGGTC CTCGTTGTTCTTTGACTTGATTTCTAGTCTTATAATGTTGAATTCGATATTGTTTAGTTTAAATATTTATTGACAGAACT GTTTTCAATAATTTGATTTTAGATAGAGCCCAATAGCATTATTTGATCAAGTAAGCGACCCCAATTCAGTATAAAAAGGC TCTAGGAGTATCTAATTGTCCTTTCATTTTGGTGAATAGTCACTTCTGAGTTTGATAATGATGCATATTGATGAGCTCAA ATATTCGATGTTATTCAACCCATAAACCAAAAAACTATGATTAATGATAAATTCACACCAACTTTCTGATTTCTCTTTCA TTTCATTTACACTAACTTTTGCTACATATGTTTATCTGCATTTTCTATCACATTATATTGGAATTGAATCAGAGAAATGA AGATGAAAGGCAAAAGTCTCTCATTGATTAAAAAGAAAGAATTGAGTTCATACGATGTATCTGGAATGGTGCTTCCCATT ATCTGTAATAACTGTCATCAGTTATAACTCACTACTTACCTAAAGGAAACTAACAGAAGTTACAGAACTAACTTTTACAA AACATAATATCTATTCTAATATTCCAATACATCACCTATCATATTACTCATCTATCTCTCTTCTCTTCTTATCTCGCTCT TGTGTGAGTGGAATTAAAGTGCGAACGAATTATTATTCTTAAACTATTTAGAAAACGGATGCTTTATCTAGGAACTTTTT TCTGTTAACCAATTTTGAGCTATAAACTGTTATTTCCATCCACATATTACTATGTACTCCCTAAATTCACTAAAAGTTAG TTGCAGTTTTGTAGCACACTCTTCAGCAATGAACATATTGTGTATATAAGTCATTTCTGAAGCTCTTGTAATCCTTTTGA ATTTCATTGACATATCTCCTTGTTATGAAGGTTCATGCACTGTATGGATTTGGCATATGCTGCTGCAGACTTGATTGTAT CTAGAGCGGGTGCAATGACTTGCTATGAAATATTGGCAACTGGGAAACCTTCTATCCTGGTAGTAACATATTGTGTTTAG ATGTTCACTGCATTCCTTCTGTTTTTCTTTTATGTTTAGAACTATAGAAACATATTATTAGGCAAAAAGTAAATGTAATA ATTCAGCTAATTAAGTGGAATAGCCGCCATAAAAGTACATGAAATAAGTTTCTTAAAATACAGCAAAGACAGATAATTTA TGTACTGTGTTAATAACTCAGTCAACTATAGTTTATGGATAGATTTACAAATTATTATCTGCATCCAAAGAGTGTTGTGT ATCAGTAATAATACTTAGACATCCAGACAGTTAGACACTTCACAGATACTCCAATTTTCTCTGTATCTCTCTCTTCTTAT CATATCAAAATGATCAATATAATATATCACATTCATTACTTCTCTCTCTTCTCTTCATTTCTAAATTGCTTTTTCAATTA TTATTTGCAGATACCATCGCCACATTTATCTGAGGGAAATCAATTCAGAAATGCTTCCTTGCTGGCAGACTTAGCTGGTG TGACAGTGATAACTGAGGAGGATCTCGACTCATGCACACTAGCCATTGCAATTGAAGGGATTTTCAGTATGTTTGTCTTC ATCTTCATTGTCTGTTAAAAGATTCAGGTTTTGGAACTGTAAATACCAAATGAATGTCATGTATCATGAAGAAGCAACAT GTATTTCTTATTTCATATCTTTTCCATTCCTTCTTTCATGATATGGACTTTTGAAATGCATGGTAGGGGACAAGAAGAAG ATGGAAGAAATGTCTGAGAGGGCTCTCAAAGCGGCGAACCCCAAAGCTTCAGCTGAGATTGCAAAACACATATTTTCTCT TGTTAGACAATCAATAAAAAGTGGAGAAATTGCTAAAGAGTAGGGATGTTAGCTTGGCGATTCAAATAAGTTCCTGCTTG CTACAGATCTCAATTGTAAGTTTTTATTCTTAGCCAACAACACCATTAGACACGAAGATCTCTTATGCTCTTGGAAGATA GCAGGATAAGAGGGTGATGATAAATAACATTTTTGCTTTCTTGATGACAATGTTTAGAACTAAAGAAATGTGTTTTGTTG AAAAAGTTAAATGCATGTTTGAAAATCTTTCTACTGATTGATTCTAATGCCAAAATCAATTCTGAAGAGAAGCTTTTGTG GGTAGCTTATGGATTCCAAATTTGATTGAGGAAAGAAAAGTTGATCCAAACATGTTATAAGTCAGTCCCATGATTTTGAA TGTAACATGCAGTTCTCTCACATAAAAACTGAGAGACAAAACATTAGTCATATATAACATATGTGGCGCACCTCTAGTTT TGTGATTCTCTATTTTTTTCATTTGAAAGTTGATTTTGTGATATTAGACCCAGTGAGACATTATTTCTAATTTTCCATGT TCATATATTTTCTTGACTTATTCAAAGGTTTTGTCAGGAACAGGGAGATGATGATCGAGTTGAAGAATACAACTAGTCCA TTGATTTGATAGGATAATGCAATATCCCATTAAGACAATTTTGGTGTAAAGCTGCATTATTAGTGCATTTTACAATAAAG CAATTCATTTTACTGAGAAATCACGTTTTTTTACATCAATTTTAGAGTATCTATAACACGATTCATTTTACTTTGCGAAC TAATTTTCCCATAACACGTGTGATATATGTTAAGAGAGTCGGATAGAGCAACATAATCTATTTCCACAAGATCCAAAATA TAAACACCTTGATTCAAGACAAGACACATATATCATGTGGAAAAAAATGCAAAGGTCACATCCCACTTAAGAAACCTTCA CCAATATATTGCCTCCTCCTTCTCCCAGAGGAGGCTATGTTTTGATAGATGAAATGATGATGAAAGAAAACAATGACAAT TCTTGCTGATATGGGATATGAAAAACTATACACCACTTAAAGGATGAGAATAATACCATAAGTTCAAGAAAACAAAATAA ACATTAGGACTTGTCCAACTAGTGCCTAGCAGCAACTAGTCGTTTGCAGACCGGACAGAAATTTTTCTGTTCAACCCATT GCTGTATGCACTGATAGTGATAGCTGTGACCACAGTTAAGTCTCCCAATTTCCTCTTCTACTTCATACTCTTCCTGCATT CAAGCAAGATAAATCACATTCTTCGTCTAAACATGTCATGAAAAGCTAACTGCATTTGAATATACAATGTGAAAAGAAGC AATATGATGGAATTTCTAAACCAGAAATTTAGTTCAAGCTTTTAAAAATTTACCTGACAAATGGTGCAATTTTTGTCTAC TTGAGACGCATCATCCGAAATCTGAAGCTTCCTTATGTTCTTCCGCATCTCTTCTTCTTTCAGTCCGGTGCTGACATACC CAATCCTCTCACTGAGCTCAAGTAATTGCTATAAAAAACAAAACAAAAATTTAGACAAACATGAATCATAGATATGTATG CATGGAAAGTATATCAATAGGGGTGTATTTATTACAAAAGAAAAATGGTATAACGCTTTAGAAGCGAAAGAATTCACCTC ATACGACATGTTGTCAACATCAAGTCTCAAGTCTCTATGACGGTCTTGTGAATTTAATCGTACTATACTTCCTTGAAGCA TTATAATCTTCAAAGTGCAAGCAACAATCAAAATATGCAATATTAGCTCTTGACTACAATAAGATATAATCAAGGACTTG ATTGGATATAACAAAATGCTTCTACTTTCATGCACTCACTATACACCTAATAATCAGATAAGGGCAGCCCCGGGCACAAA GCTCCTGCCAGCGCGGGGATCAGGAAGGGTCCGATCATTTGGTCTATTGTATGAAGTCTTACCTTGTTTTTTACATAATT ATAGACATTGAAAAAGAATGCAACGATTCAAATATAAATATAGATCTTTTACCAAACAGTCACAAAACACATAGCACTTA ATCATATGATATCTCAGGTGCCTATTCGACTCAACTTGTGTGGATCATGTTTATTCAAGAATCTCAATCAATGTGAAGGA CGACTAAAATCTTTTGATATGAAAGAAAAAAAATCAGATTTTGCTGAGTTTTTATGAATAACATTCAAATATTAAATCAT GAATGAATTCATACTAAATCTGCAATTATCGGTGGGTAAACGAGAATATATGAAAGGATATATAAGAGCTTGAAGCCTTG AACCTACCTCAGAATCTCTTACATAGTATGTTTCAGGTTCTTCAAAGGGTGGCGTGAAAACGTTTTCATCAGCACTGTCC GGGAAGGTGACGACAGAATGTCGACAAGAATATGAACGCTGCCAACATGAAGCAGGGGTTGTTAGCATAGCATTGATAAT CATAATCATGTTAAGGCATTTGAAACCATAATGATGATGAAATGAAACACTAAGGATAAGGAGGCGAAATTCAAGCAAAT AACTCAACTCTCAACTTACAATTGACTGGTCCTTAGATCGACCCCAGCAAACAAAGAACCAAGAAAACAACATCTGCAAA TATATATATTTGTAGCAGCACAAGCTTTTGTGTGTGTGTTTTTTTTTCAATAGGCACACAAGCGTGTGTGTGAGTATTTA TAGGGATGTCAAGTTCACAGGGGCCTATCGCCGCCTACTCATGCGAGACCTCGGGCTTACTTCAAACCGTGGCCCGGAAA CCATCCATTCTGTAGCTAGCTAGGGCGGTATTAGAAGCGTTTCCAGGATTCACCCAGCTGTTTGATTATTCTTTCCCTTC ATCCCTCGATTTTGTACAAATTTCAACCCAAATTTTAGGGATATGTGCTCAAAATAGGTGATACTTTCCATAATTGAGAA GCCAGTAGTAGTTTACACTTATGGAAATAATGTATCTGCATCAATGTCTTCAATTTAGTTGTTCTAAGACTTGATCATTA TTGGTATTTCTATAAATTAGACTTAGTCTAATAATACCATTTGATTGTATGTCATGTGCAGTGTTTTTATTAGCAGAAAT ATCTGAAACCTGTTCACAATGTTTTGTTTAAATCAAGCTAATGTATATGCTGCACAGATAGTTCAGAATGTCATTACAAA GAATTGCAAATTCCCATTGAAGGTTTTAGTCCTACAAATAAGATAGGGAAGGGAGGTTTTGGTTCAGTACATTAGGTGAT TGCAGTGATATGGTATCATCGAGAACTCACAAAGAATTCTTAACCCTACTTGCATCTGGTTGTGCATCTTTCTGCATTTC TCTGAATGATAACCTTAGCTGTCCAAAAGATAGCTGATTATGCTATATGCACAGCACAGCAAAGTTTCCATATAGGTAAT TAGATAAAACTAAATTTTGCGTGTTGTGCTTTATTATAGTAGTAATTGATATGGTTTGGTGAATAATGTCCTTTCGAGAT TTCATGTGAATTGAATTGACATAAGCATGTGCTGTTATATACATCTTGGGCAATATACTTTTTAAATGCAATTGAATGCA AGATGTGTAATTAGTTAACTTTTTATTTTTCTTTATTAAAAAGCATCCATGTCATCAAATTATAGTTTCAACTTTTTTTT TTCAGTATATTGTTAATACTTAATAGTTTGTTTAAGCAAAATAATCTTCTTCTGTAACTTAAAAAATATTTATCATTAAC GAATGGTTTTCATTTGTCATTACATTTTTCAATGTAATCCATTAATATACAATTCTCATTACATTTTTCTAAAAGCCAAT TTTTGTTAAAAAAAAATTAAAAAAATTGTTAAAAAAACTAGGCTACCATTTAGAAAGTCTTTTAAGCTTTCTCGGCCCAT TTATATAAATACAATTAATATAAATTCATTTATGATTATTATTTTTGGTGCATTAGATTTGTATTATATTATTTTAAGTT ATATTTTATTGACTTATTTATACATTTAAACATATTGGTCTACATGATGTAATAGCCTTTGTGCCTGCCGGCTTTCATTA ATTTTATTTGGAGTTTGTTTAAAAAAAAAATATGTTCGTATACATGATAATACTCTATTTAGAAATGAATATATGACCTA TTTACCTAAATCTTGTCGACCTTTTATTTTTTTATTTTCTTAAGAAAGTAAAAGATTCTATTGATATTGATAGTAAACCA AGAGAAAACCTTCTCAAGAAAAAAGGAGATAGCAACACACCCTCCTCTAAAACAGCAAAGGGAACAAGGAAGCTCAAAAG CCTACCCACAATCAAAAGAGCCATCATCTCTAGCAAAAGGGAATACTATAAAACAACCCAACCAAAACATAAACAAAATG CCCTATACACTACAACACCTACCTGAAAAAACAAACTCCAAACCGCTAAAGATCAGGAAACAGAATTCAAGAACAATGCA CCACTAGTATGTTTTCAAAAGTTAGGAATATTTAATGACTTGTTTTGAGGGATAAGAATAAGATGATCAGAAAACACATG CGTGCACTGACAAATTAAACTAAAAAAACATAGCCAAAATGAAAACGGTCAAAGAGTTAAGGCCCATCCATAAATTTTTC TTTTCTAAAATGCTGTCTTGTATGTATTTTATGGAATTTAAATATACTACCTAGGACTTTAGAGTGTGGATAAAAATACT ATTACTCCAAAAGAGCATCAATAGAAAAAAGTGAAAAAACATATTGTCACTACCTAATAAGAAAATCAACATAGAAGATG AACTACACACATACACATAGCACAAAGCTCAAATTCCAGAGAAAGTGATTTGTAGGAGGAAACATGCAATCATTTTCTGA GTGGCGACATTCATCAAAGACAACACTAAATGGAGTAGAGAAAATAGAAGGCTAATATAAACATTTCAAAGGATTAAGGT ACCAAATCAAACATTCCCAAAAGAACAAGTGAGTAAGAAAAAGAACAATGATAAGTAACAATGTAACAGGAATCAGAATA CCTCTCTCTGTGCTATCTTCTCCACATCAATCTTCCCCCTTGCAGAGACATTCTTTCTAGACACAACACAATCAACAGAG GCAGCAACAGCATCCCCTGAGAATCCAATTCCAGGACCACACCAAACATCTTGAAAATCCACACAAGTAGCAGAAGAACC ATCTACCATCCCACCATGGCAATTCTTGTTGCTGCTGTTCCTCTTGTGCTTCTTCTTTCTGCCTTTCTTCCCTTGCCAAT CCGCGGAGGCGCGAATCGCCGCCGGCACCGACACCTGCTGGGACGCGCCAGCGGTGCAGCCCAACCCTCTGAAGGCTGCT GCAGAAAAGTTGCTCTTCTTCCTGCTCCGGGCACTGGTGGCAGCTTGTGGGGTGGTGGTGGTGGTTTCATTGGAGAAAGT GGAGAGGAGCAGAGCGGAAATGGTGGACTTGCAGCGAGTGGATTGGATTTGTGGGTTTGGATCTGTTTCTGAAATGGGGT GGTGGTGATGATGATGATGATGCCTGAATTGGTCTCTGGGTCTTCTCCATTTGATGTGTTCTGCTACTGTTTTTGTTGTC TCTGTTGTCACAAAAGGCATTGTTCACTTCACACTTCAGAGAGAGAGAGAGAGAGAGTTTTGAGAGCTGAGAAGAGAGGA AGGGAAGTTGGATTTTGCAGGGAATATGTTTTCTTTGATTTTTTTTCCTATTAAAGCACCTAGTATACAGACACACTTCG AATGCCGACTATTTCATATTTGGTATTTAACCACAATTAAGATTTTTTATCATTCCCGGAGCATACTAATCAAATTCTAG TGTTATTTCTACACACTCAATTAGCGTTGTCAACTAAGTTACATCTAGTAGATATTTTTTTGGATTGATTATTATTGTTT GAAATAATGGATTTGAATTTGTGGGGTGTCCTTTTATTCTAGGGTTGTTAGGTGGGCTCTCCCTTGTCTTGGCAGGAATT GTGGGCATATGCTATTCAATCACAAGCCTCAGGCTCTGGCTTTTGCTTCTTTTTGTGCTTTTCAAGCTAAACTGTTGCTA CATATCAAAAGCAAAGTTAAAAATTC
CDS sequence (LotjaGi4g1v0460300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATGTCCTCTTCCACTTCCAAGATGCATCATCTTGATCTTCAGCTTCAAACTACCTTAATGGCTACTACCACTTTTTC CCACCTCACCCAGGCAAGTCTCTGTTTCTTTCCCCCTTACAATTTTGTCCCCTCTCTTCTGAACTCTCTTTTGCACTATA ACAGAAGGAGCCTTCAACTCTCATGCAGCAGCTTGTCTTCTAACGACAATGACCACAACCTCCGAGTAGTCTTTGCGGGC GGCGGTACTGGCAGCAATGTGTACCCCGCGGTGGCCATCGCGGAAGAGCTCAAAACATCAAACCCCGCGTGCGAGTTTCT CTTTGTTGGCAGCCCCAACAGCATTGAGAGCACTGCAGTCACCTCTGCAGGGTACAACTTTGCCCCTGTTCTCTCACTCT GTTTCTCCCCTGTTTCATCCATCACTCTGTTTCAACTCTGTTCTTCCCCTTGCCGTTTTGTAAAATCCCTGATCCAATGC TCACGCCACCTCCGAGATTTCAAACCTCACATTGTTGTTGGAACCGGTGGCTATGTCTCTTTCCCCGTTTGCCTCGCCGC GAAAATCAACAACATCATGGTTGTGATTCATGAACCAAACTCTGCCCCTGGTTTCGTAAACTCTGTTCTTGCCCTGTTTG CTCATAAAATCTTTGTTGCTTTCAACTCAACCGTTGATAGCTTCCCCAGAAACAAGTGCGTGGTGTGTGGAAACCCGGTG AGGTTGTCTCTCAGAAACCCGGTTTCGAAGGCGGCTGCAAGGTCTCATTTTTTCCCTGGTTATGGGGAATCGAGTGATTC CGAGAAGGACAAGGTTTTGTTAGTTCTTGGTGGTTCTTTAGGTGCTAATGCTGTAAACATAGCTATGCTGAATTTGTATC ATCAGATGCTGAGACAGAACAATGGCTTGTACCTTATATGGCAAACTGGGGTTGAAACGTATGATGAAATGGACAGCCTA GTTAAAAATCATCCACGCTTGTACTTGACACCGTTCATGCACTGTATGGATTTGGCATATGCTGCTGCAGACTTGATTGT ATCTAGAGCGGGTGCAATGACTTGCTATGAAATATTGGCAACTGGGAAACCTTCTATCCTGATACCATCGCCACATTTAT CTGAGGGAAATCAATTCAGAAATGCTTCCTTGCTGGCAGACTTAGCTGGTGTGACAGTGATAACTGAGGAGGATCTCGAC TCATGCACACTAGCCATTGCAATTGAAGGGATTTTCAGGGACAAGAAGAAGATGGAAGAAATGTCTGAGAGGGCTCTCAA AGCGGCGAACCCCAAAGCTTCAGCTGAGATTGCAAAACACATATTTTCTCTTGTTAGACAATCAATAAAAAGTGGAGAAA TTGCTAAAGAGTAG
Protein sequence (LotjaGi4g1v0460300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MMSSSTSKMHHLDLQLQTTLMATTTFSHLTQASLCFFPPYNFVPSLLNSLLHYNRRSLQLSCSSLSSNDNDHNLRVVFAG GGTGSNVYPAVAIAEELKTSNPACEFLFVGSPNSIESTAVTSAGYNFAPVLSLCFSPVSSITLFQLCSSPCRFVKSLIQC SRHLRDFKPHIVVGTGGYVSFPVCLAAKINNIMVVIHEPNSAPGFVNSVLALFAHKIFVAFNSTVDSFPRNKCVVCGNPV RLSLRNPVSKAAARSHFFPGYGESSDSEKDKVLLVLGGSLGANAVNIAMLNLYHQMLRQNNGLYLIWQTGVETYDEMDSL VKNHPRLYLTPFMHCMDLAYAAADLIVSRAGAMTCYEILATGKPSILIPSPHLSEGNQFRNASLLADLAGVTVITEEDLD SCTLAIAIEGIFRDKKKMEEMSERALKAANPKASAEIAKHIFSLVRQSIKSGEIAKE
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 |
|---|---|---|---|---|---|---|
| Phobius | 1 | 13 | 13 | - | – | |
| Phobius | 1 | 32 | 32 | - | – | |
| Phobius | 14 | 24 | 11 | - | – | |
| Phobius | 25 | 32 | 8 | - | – | |
| Phobius | 33 | 457 | 425 | - | – | |
| PANTHER | 55 | 448 | 394 | 5.2E-186 | – | |
| PANTHER | 55 | 448 | 394 | 5.2E-186 | – | |
| CDD | 75 | 440 | 366 | 8.63178E-118 | – | |
| SUPERFAMILY | 75 | 446 | 372 | 7.63E-84 | – | |
| Pfam | 76 | 218 | 143 | 1.0E-28 | ||
| Hamap | 76 | 445 | 370 | 28.067 | ||
| Gene3D | 77 | 435 | 359 | 5.9E-96 | – | |
| Gene3D | 240 | 429 | 190 | 5.9E-96 | – | |
| Pfam | 272 | 432 | 161 | 7.0E-31 |
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 | Carbohydrate metabolic process | The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule. | ||
| Molecular function | Transferase activity, transferring hexosyl groups | Catalysis of the transfer of a hexosyl group from one compound (donor) to another (acceptor). | ||
| Biological process | Lipid glycosylation | Covalent attachment of a glycosyl residue to a lipid molecule. | ||
| Molecular function | Undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase activity | Catalysis of the reaction: Mur2Ac(oyl-L-Ala-gamma-D-Glu-L-Lys-D-Ala-D-Ala)-diphosphoundecaprenol + UDP-N-acetyl-D-glucosamine = GlcNAc-(1,4)-Mur2Ac(oyl-L-Ala-gamma-D-Glu-L-Lys-D-Ala-D-Ala)-diphosphoundecaprenol + UDP. |
Expression pattern of LotjaGi4g1v0460300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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