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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0317600 |
Transcript ID | LotjaGi4g1v0317600.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | GPI ethanolamine phosphate transferase; TAIR: AT5G17250.1 Alkaline-phosphatase-like family protein; Swiss-Prot: sp|Q8TEQ8|PIGO_HUMAN GPI ethanolamine phosphate transferase 3; TrEMBL-Plants: tr|A0A0R0GV98|A0A0R0GV98_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0317600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:69513825..69521006) extracted from Lotus japonicus Gifu genome v1.2.
TATGACCTGACTATTACACAATTATCATGAAAACCATGAGGTTTTGTAAATGTAATGCAACAATTGAGCACAATGTCAAT TGAGAAAACATAGGAAAAATATTACTACAAAATATACTTTTATCAATAATCTTAAAATGATCCCTTAAGCAGTTAAGCCA AGCACCATTTCCAATAGAAACCCTGACCGAAGTGTTAATCATCACTCACTCATTACATTAACAAGGTCAAACAAGGTAAA ATTGACAGAAAACGGGTCTGTTAAAACGACGTCGTTTTCAAAATTCCGGCAAAGCAAGAGCTCCGGGATGGAAACACGGC GGAGAAACGGCGGAAAGTGGCAATACATATGGCCGATGTGGACGACGCTACTGCTTCACCTCATCGCCATTCTTCTCTTC ACCACCGGCTTCCTCCTCACCCGAACCGAGCTTCCTTATCACAGCCACTGCTCCGACGTTGCACACTCCCCTTGCTTCTC TCCTCCTTCTTCCTCTCACAGCAATGGATCTTGCTGGACCAAACCTTCCATCAACCGTCTCGTCGTCATCGTTCTCGATG CTATCAGGTACACACACCTGCACTCTGCATCATGCATGTGCTGTTCACAAATTCACAATCATTGCGATTAATTCACCATT TTGTGATGCTGTGTTATGCTTTGTGCATTTCAGATTTGATTTCGTTGCTCCTAGTACCTTCTTCCCAGGTTGAGTTTGCT ATCTCTGTTATACCAACGATTTTTCAAATTTTTGTTATATTGTGAACTTCATTGTGTGCGTGTTATGTTGCAGAATCAAA AGCGTGGATGGATAAATTGCCGGTTCTGAAGAATGCGGCGGCTTCGCGACCTTTGTCAGCTAGGATTTTCAAAGCCATTG CTGATCCACCTACCACAAGTTTGCAGCGCTTGAAGGTTGGTCAAATCATTTTCTATCTTATTAATTACATGATAGCATCA CGTATCGCGATCGCAATTGAAGTTGTAATGTTTTATGCCCTGTTAATTAGATTTTATGAATGAATAGGGTATTTGATGTT TCATGGTTTAAGCTGAGATTTGTGCTTGCTTTACTTTTGATAGGGCTTGACAACGGGTGGACTTCCGACTTTTGTAGATG TTGGTAATAGCTTTGGTGCACCCGCGATAGTTGAAGATAACTTCATAAATCAGGCAGGGCTTCGTTCTTCTTGCTTGTGA TATATTTTATTATTTGAAATATTGGTTTAATTCAAGATTGAAAACAATGTCTTATTTTTAAATTTCTGAGTTTGAATTGC TGAGGCAATGCGGTTTGATCTAACTCTGATTCTAAATATGAATGTTCATTTACAGTTGGTTCAGAATGGGAAGAAAGTTG TCATGATGGGGGATGATACATGGACTCAGTTATTTCCACACCATTTTGAAAGATCATATCCGTACCCCTCTTTTAACGTC AAAGATCTTGATACAGTAGGCTTTATATTGTGTTGAGCTTGGTTTTGGAATCGACTTCTAATCCTTGCAGTACATGTTAA TTTTTCATCTTTTTGTTTGGTTCGTCATTTAAATGATTGTAATATAACACTTAATTTTCTAGGTTGACAATGGATGCATT GACCACTTATTTCCATCTCTATATGAAGAAGATTGGGATGTCCTTATTGCACATTTTCTTGGAGTGGTATGATTGATATT ATTTCAAATTATAGACCTAATAATCCTACTATTCATATTATATACCCTTTTAATTCCCATTCTCATTCTGCATCATTAGG ATTAGTAGTTTACTAATTTCACATTGTCTTCTACAATATTTGCTTGGTTTAGGATCATGCTGGGCATATATTTGGGGTCG ACTCCACTCCGATGATAGAAAAGTTGGAACAGTACAATAACCTTTTAGAGGTATGGTTGATTCTAGAATTTTTTTCCATA AGTTTGTGGTCAATCCTACATGGTTGTAACTTAACAAGTGCGCTTCGGTTATCCAATAATTTTTTTTACTTACGTGCTGA CAATATTCCTGAGTTTTTGGCAACTCTCCCTTACTGTTTGTTGTATGGTTGTATATGGTTTACTCTTTCTTGATTCCTGT GACTGGTTAACAAACAAACTAATCTAAGTTTGCTTTAGAGAGTTATTGAAGTGCTGGATAATCAGTCTGGAGCTGGGAAC TTACATGAAAATACTTTGCTTGTGGTATTGGGTGACCATGGACAAACCCTTAATGGTGATCATGGCGGCGGGAGTGCTGA AGAGGTGTGTACCAACATTTCGTTTATATACTTTTATTGAATAGTATATATTTTCCCTCCAAATTTACTTGGGATATTTG GTATGACACCTCGCAGGTGGAAACTGCCTTGTTTGCTATGAGTTTTAAGGAGCCTCTTTCCTCTGTGCCACCAGAATTTG TTTCTGCTTCTTGTCAACCAGATTTGGTATTATTTACTCTCTCTTTAAAGTTCAAAAATGCTTGAACATGCATGGAATTC CGGTAGCTGTTAGATTTTTTCTGATCGCTTTGGCAGCAATATTTTGTCTCCTTGCACATGCACTTCCCCACGTGTTATGC TTGAAAGATCAAGAAACAGAAATCATAAAAATATTAGAGTACCGGGAGTGACAGAATAATGTATAGTTACGTATATAAGT GATCGAGGGGCCACTGAAAAGACACAACATTAAATTACGTAATATATCAAACTTAATGGATATGCTTGGATAAATGATCA TTCTACTGATCTACTCATAGGAAGTGTGACCCTGTTCCTACTCTGGTTCCGAAGATGATAAACCCGAGTTAGATCTTTAC AATTTCATTATTGTATTTAACATTTTTAAAGTGTAACTACCCATCATCTCTTATATACCAGGATGGAAAGAATGTTTGTA TCAGCACCATGCAACAGGTTAGAAAACCTATTTTGTTGTAATGGCGTTTTGAACATTCTACATATACCGCATTCATCTGT ATTTAACCCTATCATCCGTTACAGCTTGACTTTGCAGTAACGATGTCAGCACTGCTTGGCGTACCTTTCCCTTATGGAAG GTGCAGTGTAAGCATCCTGTCTATGTTACTATTGTCTACTTTTTTTGTTATATTTGTATATCAATATAGTTAATCGTAAT GTATTCACTATTCACTCAACTGATTTTCTATGTTTTTCACTTGATTTTTGTTTTCCAGTGTGGGTAAAAGGGAATTCTGT TTTGGTCTTATAAGTTCTGATTTACACATCCATATTTGGTGTTTTGAGATGATTTGCTAGGGCACTGGGTAGTTACTGTT TGAAAATATTGATTTTAAGTTTTATTTGATGTTGATAGAGAATCATTGAGTTGAAGGGGGATTTAACTTTGCAAAAAGAT TTTATTTTTTTTAAGATTTATAATTCTCAAGCAACTGTGTCTGGGAAGATGTTTATCTCGTCACCTACAGTTTAGAGTTA CCAGAGAATCTCAGAAAGTTTAGCTACTTAGTAAGTCTAGATAGAAGTGCTGGACATAAATATGATAAATTAAATGATTT CACTATTGCAATTCTGCAGTCATGTCAAATAAATATACAGTGCAGCAGAAAATTTAATTTCATGCTTTTATTAACCTACA GATTTCCGGTGTTAAGCGAACTTTATCAGTCATATTGTTGTCTCTAATCTGTTTGACCTGAATCCTATTTTTCAATTATT TCCTCAATCTGGAAGCTTCTATTTTGATGTCTGGTTTTATATTTTCTTATGGCATGGCATCATGTTGTATCACATTGTTT TAGAAATTTCTTCATTGGAGCTATGTTAAGAACTAACAAGCTAATTTTTTATTTTTTTCATATCTCAGTATTGGTCGCAT CAATCCTGAACTATATGCTTTAGGTAGTTGGAATTTAGATGCCTCTCAAAAGCTGTCAAAATCAGATCTTTGGATGCAGA ATTATGCTCATGCACTGTGCATAAATTCTTGGCAGGTACAAATTTTAGATTCTCAATTACAAATTACCATTTTTAAATTT TGCTACTAGATACTACTAGGATTCCCAGATGAAAATATAATGCACTTTGTTTTCTATGAAAAAATTACTTGGACATTTTT TAGGTAGCTTACACTCTGTTACATTGTAGTTTTTTTTTTGCTTCCAAAATGGCTTCATTATTTTTTATACCATCACTTTT AGGGTGTTTTATTATGACAGTTCCAAAAAGGATATAATCAGTCGGGACGGGAGAGTGTGTGAGAGAGAGATCATTCAGTC ATTTCAATGGCGCATTTCTCCTTTTCTAGGTGAAGAGATATGTGGATGCTTACTCAGTTTCATCAGCTGTTGGGTTCTCC CATGATGACTTATCCCAAATTGCAAGTGCTTATGCTCAAGCAGAGAATTGGTTGCACTCTACCAAAAAGCTGCTGCTTGA TAGACACAATGGCAGTGATAAATTAGTACCTGCACTTATGAAGCAAATGGATGCATACTTCAATTTTCTTACAACAGTCG CTGAGTTAGCTCGGTCTAAATGGACTGAGTTTGACTTGAACTTGATGGGTGCGGGCATTGGAATCATGTTCGTGTCGCTT ATATTTCAAGTATTTTCCATTTTAAGGGTGAACAAGCAGCATGGTGTAACTTCGCCATCTCCTGGAAGTTCTTTGATTAC CAGTGCCTCGACTTTTACATTCTTTTTACTGGGAATACGTGCTTGTAGTTTCCTTTCAAACAGTTATATTTGTAAGTGAT AAGTTTTTCATCGTCCAGAATGCTTAAAATTCAGTCATTATATTCTCACTTGAACTTTGTTTTCAGTGGAGGAAGGGAAA GTAGCAAATTTTCTTTTGAGCACATCTGGGATTGTGGCATTACGCCAATCAATCATCAAGGAGAAATTGCTAATAGAAGT ATGAATTTTGTTTAGTTTCATTCTCTCTTGTTTAAAAACTTGTATTATATCTGAAGTCTGAACGTGCATGCTAAGGTGTG TGTGCCGATAGAAGTTTTATGGAATTCTAATTAAATGGATCTTAAACATATCTTTTCTGCAGAGTGTTGGATTTCTTATT TTGAGCACCTTTTGTCGATTTGCCGTTGAAGTTGGACTGTCCAAGCAAGCTGCCACATCTGCTTTCATGAAAGATTACAC TTCATGGATTGTCAATACCTTAGATTTACCTGTTTGGGACTATGCAGCTAAATTTGTACCAATGCTAGTGCTGATTCTGT TGGCATTGTGGCTTTACAAGGCCACCAAGGGCAACTTCTTTGATTGGCCATGGATGTATGCGATACTGGTTACTATCTTG AGTTATATGCTAATCATTCTGCATTGGATCACAGAGAGTAATGAATATGTTGCAGCTCTGATACCTCAAAGCATTGGAAG AAATTATATCCCTAGAATCATTTATATTCTTGCTTTGGGACAGTTGTTATTACTGGCATTTGGTCGAATATTTAAGCACA CCAGTTTAGATTGCAAGAAAAACATAGTTGCAAAAACAACGGCCATGTTATCTGCTTTGAGTTCAACTGTCATTCTTCTT TCAGGAAAACAGGGTCCTGTGATTGCTTTGGCATCCATAGTTGGAGGTGCTCTTTCTTTTTGTGCTCATATGTTGTTTAA ACTTTGCTATATCTTGCTGCATAGTTCGTCAAACACATCTGTGGCATGGCCTTGTTTATACTCTTAATATTTGTACATTA GCAATACTGCAATAGTAGTGTCATTTATTAGTCATTTCATTCGCACCCAGCTACATTCTCTTTTGTGAATAAATTGTTTG TCTATGAATTATCTTCCAGGTTATTGTATTATGAGGTTGGATAATATAGTAGAATCTCGTAAGCATGGATCTCATAGAAG TTTTGCTGTCATGCAATGGAGTCTCCTTGCCACATGTCTCTTCTTCTGCAGCGGTCACTGGTATGATGCAACTTTAATTG TTTAACTTTTGCAGTTAAAATTATCATTTCTTTTCATTGATTGTGTATGACTTTACAACTTTCTTGGTCTTGCATTATCT TTGTCTTATAATAAATTTTGCAAATTTGTTTTCAGGTGTGCTTTTGATGGTCTCCGCTATGGTGCTGCATTTATAGGGTA AGTAAGTTACATCTTATTACTGTTGAAGAGTGTATATACTATATATTGAACATTTGAGATACTAGTGGGGTCTGAAACTG ATGTTGGAGCTCAAATCAGCTCTTTTTTAAAGTTGTTTCTCTTTGAAATGATCAGTTATTTGCTTTTAAAGGGTTTTTTT TTATCTCTTTCTATTATTATTACTACTTCTCAATTGGTATATCAATCATCGAAGTACTAATCATTTTCAGGTTTGAAGAA TTTAAGCTCGTTCGCCAAGCAATCCTCCTTACAATAGATACCTTTGGTTTTTCTATCATCCTTCCAGTATTTGGCCTCCC GTTTCTCGTAACGAAGTATCAACCTAATCTAGGAAAGCATTTTCTTTTCACTCAATTATCTCAAGTGAGTTTTCTTCCCT CATTAATAAATCAACCAGATGATAATTTTGAATGCATCGCTTGTTTAATGCAATGACCATTCAATGTTTTATATAGATGT ATACAACATATGGGCTCATAACAGCAACTATGACCACTTTTACGATAGTATGTGTCACAATTCAAAGGCGGCACCTGATG GTAAATAAGATGTCTTTCTTATTTCAATGATTTTCCTCTTTCAATTTTTGATACATACTCAATGCATATTAATTTTGCAG GTTTGGGGTTTATTTGCTCCAAAGTTTGTCTTCGATGTGTTTAATCTCATACTTACAGATGTGTTGATTTGTTTGGCCTC AATTTACTATTTCAATGAAGCGAAGGATGACCCCCAACTGAAATCGTAAGGTTGCTGAAGAATAGACAGAAACACACACA CACTAGAATGATAGCTTATAAACGGTTGATTTACTTTCGAATGATATTTATTTGAGTTTTGTTATTTTACTTAGCTAAAC TATGGCATATGGACTTCAATTTTCACTTTGCACTCCCCTCTGCAGCAAATTTTGTTCCCTAATTTTGTGATATCCACTCT TATAAACCGGTGTTTCAATTCTTGACAGCCAGGTAATCATGATGTGTAGTTTTCTTTTTGAGGTCACATCATACTTTTTT TTCTCACGATTTGTATACTAACAAAATATAATTTTTCTCCTTAGTTTATTATTTAACGAAGG
CDS sequence (LotjaGi4g1v0317600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAAACACGGCGGAGAAACGGCGGAAAGTGGCAATACATATGGCCGATGTGGACGACGCTACTGCTTCACCTCATCGC CATTCTTCTCTTCACCACCGGCTTCCTCCTCACCCGAACCGAGCTTCCTTATCACAGCCACTGCTCCGACGTTGCACACT CCCCTTGCTTCTCTCCTCCTTCTTCCTCTCACAGCAATGGATCTTGCTGGACCAAACCTTCCATCAACCGTCTCGTCGTC ATCGTTCTCGATGCTATCAGATTTGATTTCGTTGCTCCTAGTACCTTCTTCCCAGAATCAAAAGCGTGGATGGATAAATT GCCGGTTCTGAAGAATGCGGCGGCTTCGCGACCTTTGTCAGCTAGGATTTTCAAAGCCATTGCTGATCCACCTACCACAA GTTTGCAGCGCTTGAAGGGCTTGACAACGGGTGGACTTCCGACTTTTGTAGATGTTGGTAATAGCTTTGGTGCACCCGCG ATAGTTGAAGATAACTTCATAAATCAGTTGGTTCAGAATGGGAAGAAAGTTGTCATGATGGGGGATGATACATGGACTCA GTTATTTCCACACCATTTTGAAAGATCATATCCGTACCCCTCTTTTAACGTCAAAGATCTTGATACAGTTGACAATGGAT GCATTGACCACTTATTTCCATCTCTATATGAAGAAGATTGGGATGTCCTTATTGCACATTTTCTTGGAGTGGATCATGCT GGGCATATATTTGGGGTCGACTCCACTCCGATGATAGAAAAGTTGGAACAGTACAATAACCTTTTAGAGAGAGTTATTGA AGTGCTGGATAATCAGTCTGGAGCTGGGAACTTACATGAAAATACTTTGCTTGTGGTATTGGGTGACCATGGACAAACCC TTAATGGTGATCATGGCGGCGGGAGTGCTGAAGAGGTGGAAACTGCCTTGTTTGCTATGAGTTTTAAGGAGCCTCTTTCC TCTGTGCCACCAGAATTTGTTTCTGCTTCTTGTCAACCAGATTTGGATGGAAAGAATGTTTGTATCAGCACCATGCAACA GCTTGACTTTGCAGTAACGATGTCAGCACTGCTTGGCGTACCTTTCCCTTATGGAAGTATTGGTCGCATCAATCCTGAAC TATATGCTTTAGGTAGTTGGAATTTAGATGCCTCTCAAAAGCTGTCAAAATCAGATCTTTGGATGCAGAATTATGCTCAT GCACTGTGCATAAATTCTTGGCAGGTGAAGAGATATGTGGATGCTTACTCAGTTTCATCAGCTGTTGGGTTCTCCCATGA TGACTTATCCCAAATTGCAAGTGCTTATGCTCAAGCAGAGAATTGGTTGCACTCTACCAAAAAGCTGCTGCTTGATAGAC ACAATGGCAGTGATAAATTAGTACCTGCACTTATGAAGCAAATGGATGCATACTTCAATTTTCTTACAACAGTCGCTGAG TTAGCTCGGTCTAAATGGACTGAGTTTGACTTGAACTTGATGGGTGCGGGCATTGGAATCATGTTCGTGTCGCTTATATT TCAAGTATTTTCCATTTTAAGGGTGAACAAGCAGCATGGTGTAACTTCGCCATCTCCTGGAAGTTCTTTGATTACCAGTG CCTCGACTTTTACATTCTTTTTACTGGGAATACGTGCTTGTAGTTTCCTTTCAAACAGTTATATTTTGGAGGAAGGGAAA GTAGCAAATTTTCTTTTGAGCACATCTGGGATTGTGGCATTACGCCAATCAATCATCAAGGAGAAATTGCTAATAGAAAG TGTTGGATTTCTTATTTTGAGCACCTTTTGTCGATTTGCCGTTGAAGTTGGACTGTCCAAGCAAGCTGCCACATCTGCTT TCATGAAAGATTACACTTCATGGATTGTCAATACCTTAGATTTACCTGTTTGGGACTATGCAGCTAAATTTGTACCAATG CTAGTGCTGATTCTGTTGGCATTGTGGCTTTACAAGGCCACCAAGGGCAACTTCTTTGATTGGCCATGGATGTATGCGAT ACTGGTTACTATCTTGAGTTATATGCTAATCATTCTGCATTGGATCACAGAGAGTAATGAATATGTTGCAGCTCTGATAC CTCAAAGCATTGGAAGAAATTATATCCCTAGAATCATTTATATTCTTGCTTTGGGACAGTTGTTATTACTGGCATTTGGT CGAATATTTAAGCACACCAGTTTAGATTGCAAGAAAAACATAGTTGCAAAAACAACGGCCATGTTATCTGCTTTGAGTTC AACTGTCATTCTTCTTTCAGGAAAACAGGGTCCTGTGATTGCTTTGGCATCCATAGTTGGAGGTTATTGTATTATGAGGT TGGATAATATAGTAGAATCTCGTAAGCATGGATCTCATAGAAGTTTTGCTGTCATGCAATGGAGTCTCCTTGCCACATGT CTCTTCTTCTGCAGCGGTCACTGGTGTGCTTTTGATGGTCTCCGCTATGGTGCTGCATTTATAGGGTTTGAAGAATTTAA GCTCGTTCGCCAAGCAATCCTCCTTACAATAGATACCTTTGGTTTTTCTATCATCCTTCCAGTATTTGGCCTCCCGTTTC TCGTAACGAAGTATCAACCTAATCTAGGAAAGCATTTTCTTTTCACTCAATTATCTCAAATGTATACAACATATGGGCTC ATAACAGCAACTATGACCACTTTTACGATAGTATGTGTCACAATTCAAAGGCGGCACCTGATGGTTTGGGGTTTATTTGC TCCAAAGTTTGTCTTCGATGTGTTTAATCTCATACTTACAGATGTGTTGATTTGTTTGGCCTCAATTTACTATTTCAATG AAGCGAAGGATGACCCCCAACTGAAATCGTAA
Protein sequence (LotjaGi4g1v0317600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
METRRRNGGKWQYIWPMWTTLLLHLIAILLFTTGFLLTRTELPYHSHCSDVAHSPCFSPPSSSHSNGSCWTKPSINRLVV IVLDAIRFDFVAPSTFFPESKAWMDKLPVLKNAAASRPLSARIFKAIADPPTTSLQRLKGLTTGGLPTFVDVGNSFGAPA IVEDNFINQLVQNGKKVVMMGDDTWTQLFPHHFERSYPYPSFNVKDLDTVDNGCIDHLFPSLYEEDWDVLIAHFLGVDHA GHIFGVDSTPMIEKLEQYNNLLERVIEVLDNQSGAGNLHENTLLVVLGDHGQTLNGDHGGGSAEEVETALFAMSFKEPLS SVPPEFVSASCQPDLDGKNVCISTMQQLDFAVTMSALLGVPFPYGSIGRINPELYALGSWNLDASQKLSKSDLWMQNYAH ALCINSWQVKRYVDAYSVSSAVGFSHDDLSQIASAYAQAENWLHSTKKLLLDRHNGSDKLVPALMKQMDAYFNFLTTVAE LARSKWTEFDLNLMGAGIGIMFVSLIFQVFSILRVNKQHGVTSPSPGSSLITSASTFTFFLLGIRACSFLSNSYILEEGK VANFLLSTSGIVALRQSIIKEKLLIESVGFLILSTFCRFAVEVGLSKQAATSAFMKDYTSWIVNTLDLPVWDYAAKFVPM LVLILLALWLYKATKGNFFDWPWMYAILVTILSYMLIILHWITESNEYVAALIPQSIGRNYIPRIIYILALGQLLLLAFG RIFKHTSLDCKKNIVAKTTAMLSALSSTVILLSGKQGPVIALASIVGGYCIMRLDNIVESRKHGSHRSFAVMQWSLLATC LFFCSGHWCAFDGLRYGAAFIGFEEFKLVRQAILLTIDTFGFSIILPVFGLPFLVTKYQPNLGKHFLFTQLSQMYTTYGL ITATMTTFTIVCVTIQRRHLMVWGLFAPKFVFDVFNLILTDVLICLASIYYFNEAKDDPQLKS
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 | 12 | 12 | - | – | |
PANTHER | 6 | 932 | 927 | 1.5E-270 | ||
Phobius | 13 | 37 | 25 | - | – | |
TMHMM | 13 | 35 | 23 | - | – | |
Phobius | 38 | 490 | 453 | - | – | |
Gene3D | 58 | 374 | 317 | 9.9E-35 | ||
CDD | 72 | 371 | 300 | 1.12858E-143 | ||
SUPERFAMILY | 76 | 369 | 294 | 2.62E-33 | ||
Pfam | 101 | 295 | 195 | 2.5E-10 | ||
Coils | 252 | 272 | 21 | - | – | |
Phobius | 491 | 510 | 20 | - | – | |
TMHMM | 491 | 513 | 23 | - | – | |
Phobius | 511 | 529 | 19 | - | – | |
Phobius | 530 | 550 | 21 | - | – | |
Phobius | 551 | 582 | 32 | - | – | |
Phobius | 583 | 601 | 19 | - | – | |
TMHMM | 583 | 605 | 23 | - | – | |
Phobius | 602 | 632 | 31 | - | – | |
TMHMM | 628 | 650 | 23 | - | – | |
Phobius | 633 | 651 | 19 | - | – | |
Phobius | 652 | 662 | 11 | - | – | |
TMHMM | 662 | 681 | 20 | - | – | |
Phobius | 663 | 682 | 20 | - | – | |
Phobius | 683 | 701 | 19 | - | – | |
TMHMM | 701 | 723 | 23 | - | – | |
Phobius | 702 | 722 | 21 | - | – | |
Phobius | 723 | 733 | 11 | - | – | |
Phobius | 734 | 754 | 21 | - | – | |
TMHMM | 744 | 766 | 23 | - | – | |
Phobius | 755 | 790 | 36 | - | – | |
TMHMM | 789 | 811 | 23 | - | – | |
Phobius | 791 | 811 | 21 | - | – | |
Phobius | 812 | 831 | 20 | - | – | |
Phobius | 832 | 855 | 24 | - | – | |
TMHMM | 832 | 854 | 23 | - | – | |
Phobius | 856 | 874 | 19 | - | – | |
TMHMM | 874 | 893 | 20 | - | – | |
Phobius | 875 | 893 | 19 | - | – | |
Phobius | 894 | 913 | 20 | - | – | |
TMHMM | 910 | 932 | 23 | - | – | |
Phobius | 914 | 932 | 19 | - | – | |
Phobius | 933 | 943 | 11 | - | – |
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 |
---|---|---|---|---|
Molecular function | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Biological process | GPI anchor biosynthetic process | The chemical reactions and pathways resulting in the formation of a glycosylphosphatidylinositol (GPI) anchor that attaches some membrane proteins to the lipid bilayer of the cell membrane. The phosphatidylinositol group is linked via the C-6 hydroxyl residue of inositol to a carbohydrate chain which is itself linked to the protein via an ethanolamine phosphate group, its amino group forming an amide linkage with the C-terminal carboxyl of the protein. Some GPI anchors have variants on this canonical linkage. | ||
Molecular function | Transferase activity, transferring phosphorus-containing groups | Catalysis of the transfer of a phosphorus-containing group from one compound (donor) to another (acceptor). | ||
Molecular function | Mannose-ethanolamine phosphotransferase activity | Catalysis of the transfer of ethanolamine phosphate to a mannose residue in the GPI lipid precursor. |
Expression pattern of LotjaGi4g1v0317600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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