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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0728900 |
| Transcript ID | LotjaGi1g1v0728900.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | mRNA-capping enzyme; TAIR: AT3G09100.2 mRNA capping enzyme family protein; Swiss-Prot: sp|O55236|MCE1_MOUSE mRNA-capping enzyme; TrEMBL-Plants: tr|A0A0B2SM84|A0A0B2SM84_GLYSO mRNA-capping enzyme; Found in the gene: LotjaGi1g1v0728900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:130049154..130058486) extracted from Lotus japonicus Gifu genome v1.2.
GAGAGGGTAAAACAAGGGGGCGTTATGTCGGTTCCTTGAACAGGATATGTTTGGTGGCGCAGAATAGAACTCAGATCTTC TTCCCACTTGAAACACAAAACTAATCGATTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTCTATCGCTTCCTTCGTCA AAAACCAAAACCCTAATCCCATTTTTCACCACCTCACTCTCATTCTCCTCTTCATCAATCCATAGCTCCTGCTATTGGCT ATCAACGCATGGTAGATTCTCTTTCTCACAACCACAAATTCGAATTCGATATACTTTTTGTTGTTCGCAGCTTAATTCTA GTTCGAGCAAGCATCGCGATTCATAACTTAGTAGGAGAAATCAACACTGGATGAAAAAAAGTTATCTGACCTTTTTCACT GTTGAATCAAAGACAATGCGTTTTCTCAGTTTTTTTTTTTTGGGATTTTTATTGATAGCTGCCATGTGTCGTATAGTGTG GCACTTTCAAAAACTGATACAAATCATGGGCACATGAAAAACTTCACTATACTAAGTTTTTGAATTATCTGTTATCATTG AAGTAATGATGCAGCTCAATGATGTTTTGTGTGGTTTTCTTTGTGGGAATCTGCTTGGCTGTGTTAAAGCATGCAAAACT GGTTGATATATTCATGAAATTGTTTCCGGGGTGGTGAATTTGATCAATGAACTTCACTATGTACAAGTATGTGTAGTTTT AGGGTGTGCGTTTTGCTTGTTTTCGGATACACAAGTGTTTGGTCACTTAAATTTTGCTATCTTCAGTTAATTATTGTTCA ACTCATTTTACTCAAAACAATCTTATGTTATGCATTGCATGTCATTGGATTATTGACGACTCTTGTTATTTTTGTTAAAA GATAACTCTTGTGCTGTTTCTGACTTTGAGTTCCTTCCTTATCCATCAGGATATTGACGATACACGCAGAGGTTTGAAAA GGAAGCCGCCAGATATGGATCGTGGTCATGAACATGGATCTTACAATATGAATTCTAGACCTTATGATAGGAACATGCCT CCTGATGGTGTGTCATGTTTGTCTGTTTTTTATTTTATTGTTTAATACAGTCGAAGATTTAGTTTTTAAATATTGAAGTT TACTTCGTCTGTTTCGATATTGTATTTTAATCTCATTGTATGGTAAGAAAGTCCTGTATTCCTTTTGGAATTTAACGATA TAAACATAGTAGTCAATCGCGGATCGCGGCCTGTCGCGGATGACTGCCAAAAATGAAATCCCATACAAGGGAAGGCTGCT ATTGGCTGTGAATAGCGGGATTTCTCGGCCACGATCCTGTCGCGGCAGGGGTCCACTACCACTATCGCGCGCTATCGATA ACTATGTATACAAATTACGGAATGTCCATAAATAAGTGAAGCTATGAGTTGCCTTTGTCATTGGAGGCTTTTTTTGTCCC CTGCGCATATTAGTCTTATGTGAAGATGATTGTGCATGTTCACTGTCTCGAATGTTCTATATGAGTGACTTATTCTGTTG GACAGTTAACTAAATGCTGTAGGAATCGGGGCATATTGTATGGTTCATAGCCTTTATTATAAATTATACTTTATATTTTA GATGTTATTAGTCTCCTTGGAATTTTTTAATTTGATTTCATCCTTTGATATTTTTATTGCAAGTCCTTATTGCGTGAAGA TGACATATTTCTTCAATTAATCATTTCCTTTACATGCTTATTCAAATGTTTAAATCTCTATTTTACTGCTCTTCATGCTC GTAATGACGTTACTATAATTATGCTGGGCTTTTCATTTTTTCAGCCTTTCATGTTTAGTGAATCCTATATTGCAGGTTGG TTAGACTGCCCAGCACAAGGGCAAGAACTAGGATGCATAATTCCTTCAAAGGTTCCACTTGGTGAATCCTTCAATGATTA TGTCTCGAGTAAAAAATATACTCCCAAGCAAGCAATTCTTCAACCGAGAGTCTTAGGTAGAGAAGTAAGTATACCAAATG CACAGTAACCATCAATTTACTCTGTTAAACATGTTCTACTTTGGTAAGCTAAGTACATGTCATAAAGGTACATTTTGGAT ATGCGCAGCAGCAGAAGCTGTTGTTATCATTATTTTAGGGAGATGATGGTTTCTTGAATCTTTTGATGTGATTACCATCT TTCTATGTGATTGATCTTGAGTTCAGTAAAAAACTGTCAAACATTTTTCTCATTTTTATTACTTCACAACATTTAAGTTT TGAAATTAACACGAATTTGGTGTTCCTAAGGTCTTTCTTGACAAAACTTGCCTTGATTGTCTGTTTATAATAAGAGTAAA AAGACTTAAGAGCAGGAAGAATGAAGGTGATAAGTATTTATATTTCATTTTTTAAGAGTAAATACAGAAAGGGCTGAATT TGCAACATAGTGAGGCTTCTACATGTTTAATCTATTATGTCAATATATATAGCCAAGATTGACGGAATCAAAAAATAAAT TTAAGCAATTGAAGAGTATTTTTCATTTTTTTTTTAATCTGACTGACATCATGTTCCATGCATAACAAACATGTCTGAAT TCTTGTTGGCTTTTCAGTCTTATGTAGATTTTTGTTGCACCCAGCATCATAGTACTTGACTCTAAAAATTTCGCAGCTTG GTTTGGTGATTGATCTGACAAATACTACTCGTTACTATCCAGTATCTGATTGGACAAAAGAAGGGATTAGGCATGTCAAG GTAGCATATGATCTTTCATGGTCTTGTTTATGGAGTTTTACTTGCTACTGAATTTATATTTTTGACTTGCTCCTGGCAGA TAAGATGTAAAGGAAAAGATTCTGTACCTGATGAAGAATCTGTAAAAATGTTTTGCGATGAGGTAGCTTCCATTTATAGT ATTCATAGGTTTCAAAAAATTCAGTTCATAGACATTACTTTTAATCATTCTTTTGATCAATGCTCACAACTTGATTGTCA AATATTTTATAGTTTTTCTTGTTTAATTCCTTGGAATGGTGGTATGGTTCCTCATATCTCACTTGAGGATTTATGATTTA TACTTGTAAGACATTGTTTTCAGGTTCTGGATTTTGGCTCCCAAAGAACAAACACAAAGAAATATATACTTGTACACTGC ACACATGGGTTTAATCGTACAGGATATATGATTATTCATTTTCTTGTGCGTACGGAGTCAATTTCTGTCACCGAGGTGAG GGAAAATCATAAGACTGTTTATAGTTTTGTTTACAACACCCGCCTCACTCTAATAATTGATGTGTTGTGCATATTTATGT TTAATATCTTCCAGGCAATAAAAAAATTTGCTCGGGCACGTCACCCAGGAATTTATAAGCCGGATTATATTGACGCCCTA TATGTGTTTTATCATGAAAAGAAGCCTGAAGATCTTATTTGTCCACAAACTCCAGAATGGAAGTCTGATCCTAATTTTCA TGGTCTGGATGTCCCAACTGTAGACAATCACAGAGACGCTCTACAGCAGGTAAATGCACCTTCTTCTCGGCATAGTTTGT TTAGCTTCTTAGAGGATATGGTTTCCAGTGCTTCCACTGCACTGGTTGATATGCTTACTTGGATGGATGCTTGGAAACTA AACTTCATTTAGCAGTTCAGTTTAAACCTTTGGGGCTTAAACTTCTTGGTTACCTTTACTTCTGTTGGTATTTACTTGAG TGTTTTGTTCAACACATCTATGACTTTTTATTGTTAATTATGAATGTCACCACTCATCAATTTTGAGTTTTTTTTTTATC ATTTTTGAGCATTTACATATGTATATAGTATAAATTATATAAACTGTGTAAAAATTTCAGCACCGTGGCCATCCCGCTAG ATGTTATACTGCTATAGCATTGGGGTTGGTCGCTACACCTAGGGATGGCAATGGCTAGGGTCTGGGTAGGGTACTATAGT ACCCGTCCCCGTACCCGCGTTTTCAAAATATACCCGTACCCGTCCCCGTCCCCATATCCGCGTGGGTAGCAATTTGAATG CCCATCCCCGTAGCCTCTGGGTACCTATATGCCCGTACCCATACCCATTACCCGCAATTTAGTTAACGGAAATGCAATTT TTATTCTCTAACATAAAATAATATAACTACTATTATAAAATAAAGAGCATAAATTTAAAATACAAAAGACTATTCAAGTA TTTTAATAACTAAAATCATTCATTTTTAAAAGAGTATGTTAGAATTTTTTTTTTTGTTATAGTAAGTTAGAAAGTTTGAA AATTTAACTAAGTTTGTTGATATATATACTTTCAAGTGTGTATACATATAATAAAAATAATTAATAAAGTGTGTGTGGGT ATGGGGCGGGTTGGGTACTATAGTACCCATACCCGCACCCGTACCCACTAATTTTTGCGGGTAATCACCCATACCCAACC TCATACCCATCTTGCGGGTTTTTACCCTACCCATTGTGGGTAATTTTACCCATTGCCATTACACTATCTGGGATTGCAAC ACTGAGTTGGGAAGCCCTATGCCGTACAAACCTCACACCAGACTCCAGTACTTTTAATGTGTGACTCAAGTCTCATATCT TGCAATTGGATCCTATAAGTCCGCCAGTAGATTTGTATTGTTATTTTTCGGCAAGCATTGGCCTGTAAATAGGATTGGTT ACGCTCTTTGCATCCTTCTGGCTTTTTAGATGTGACTTACATACTGATCACTGAAATTTTTATTTGCTTTGATCCAGAAT TTTGAACTTCAGATGATCTCTCATCACTGAACAAGATTTTGGCATGACAACAGAGGAAATTCTCTGTGGAGTTATAGAAA ATTGTTACAGAAAATAATTGTACTTTATTTTGTCATTCGCCACATCGGTAATGACCTTATTGTGTGAACATGTTGTCTTT TTGTGTGACTTGTATTCTGATATGGAGTTTTGTGATTTGCTGGCTAGGAGATTAATATGGGGTTACATTACTATTGAATT ACTTTCATCATATCACTTTCATTTTTTAAGTTAGTGCTGTATGTTGAAATTTTGGAAATTCTTTGAAACCTTTGCTGTTT GTTATGCTTTATGGAGTTTGCTTATGACTGATTTGATATTTTAGGAGAATATTATGAGGAATGAAGTGTTGAAAAATGAT GATGCTTTGGGAGATCCCGTCGCTTCACACCAGCTGCGTGGAATGCAAGAACTTTGTTATCAACTGCTCAAGTTGGGCCC AGGGGTAGGTTTCTGAACTGGTTTAGTTTGTTGAATTCCGTATATTTATCTTGGGTATGACTTGAACTCGGCATATTTTG GATAGACAAGTATGGGATGAAGAGATGCTGTCATATCATTGGAGTGACTGAACCATCCTCGTATTTTTTCTTGCATATGA CTCAAATTTTATCCCATGTTGCTTTTATTTACCCTTATTTTCCGTTGTCCAGCTTAAACAATTGTTTTGTTATCTTCGGG CCAAAGCTAATAGTTTACATTTTTAATTTATGAATACCTTTTTTTAGTTTATTAATAATCTAATTATAATACCATCACTT TCATATAGAGCCTTCTCTCTAATCTCTATTTACAAAAGATAGAGATTATGATAATTTAATAAGAATGTTGTCAGATCAGA GAAATCATCATGCAGATTGGTGGTTGGTTGCAAAAAAAATCATGTGAATTTTGACATTGTAAAATAATGAGTACTCTTGT AAACTGTCAACTGATACAAGACCCCTCGAATGCATAATTTTGTATTTGTCTCGCCAACTTTATGAAATGTATTAAAAATT CTTATATATCTTTAGTTATAGGACACATTAATGGAGTTTATTTTACCAGCAACAAATGAATGGAGCGAAATGCTAGAAGA TAATTTTGGCTTCTGTCTTTCATGTGTGAACTACTAATGTCGTGTCATTATGATGTTCAGCTAATGAATTATTTAAACGT ATTTTTCTGGTTGCTTTACTGAGGTTGGCAAGCTTGGCTTAGTTGTGTATATGGGTTAAATTGATTTTTGGCTTCCTTTA TCTGGCTTTTAGAGTCTATTATTTCATTGAATTATTTCTTATCCTTTGCTTCTGTGTTTCTCTATATCCTTTCTCTAATA TCATTTCTTATATAAATATTACAAAAATAATGCGATGCATATTTAGGTTATGAAGATTTATTAACGCATCTTGATAAAAT CCAGAACTAAACTTGAAGCTAAATAATTATTTGATTTAGAAATATTAGTTTTTTTGTATATAGATTTGTATTTTGAATTG ATTACATATGTCATACAAAGCTAATATTATCTCTTTTCAGGGAAGAGGAGGACGTTTACAGTTTCCTGGATCGCACCCTG TTTCTCTGAACAGGTCCAATCTTAGCATATTTGGTCATTTTGATTCTATAGCATTGGGAATTATATGTAGTTTCTGGATG GGCTTGGATATTTTACTAAGAGATGGTCATCGCTTTTTTTTTTTCTTTCTCTTTAGCCTAAAGAAGCAATAATACCTAGA ATGTGTTCTTTTGTCAACTTGCTTTTAACTATTTGATTTTGAATGTGCTTCATTATTCATTGGAAAAGATCAGCGTTGCT GTTCATAAATTTGGTTTAGCACTATCTTTTAGAAGTTTCTATATGAAAATGTCATTGGTCAAACTTCTTTTAGCATAAGA ATTGATTTTAAATATTTGTTTTTGCCAATCTTCTACTTCGGTTTTGTCAATTGATGTTGGATCAATTTTTTTTGCAGGGA CAATCTGCAACTGTTAAGACAACGATATTATTATGCAACGTGGAAAGCTGATGGGACCCGATATATGATGTTGATTACTG GAGATGGATGTTATCTGATTGACAGAAAATTTCTTTTCCGAAGGATCAATATGCGGTTTCCTTGCAGATACTCAAACGGG GTATATATGTTTATTCTGTTTACTTATGTTTCCAAGTGAGTTTTATATGTCTGGATATCAGGAAGATTAAAAGCTTCTTC AATTTCAGTTTATATTATCTATTGTGCAAATGTTGATGTTTTAAAATCACAAAATCTTGAAGGGTACACCGGAAAGGAAT CACCACTACACATTACTTGATGGGGAGATGATTATTGACATCGATCCACACACCCAGAAGCAAGAGAGAAGATACCTCAT TTATGATTTGATTGCAATCAATCAAGTCTCTTTGACAGAGGTACCCATTGCTTGACAAATGTAGCATCAAAATGTTACTG AGATCTTTGTTGATGTATTGCACATTTTCTTGGCAGACTGTTGACCTGACCATTTTGGTCTAATGCATGCAGCTTCCATT CTATGAAAGGTGGAAATTGCTGGAGAAAGAAGTTATTGAACCTCGCAACATGGAACGTGAGGGCCTTTCCAAGAGCTTAG ATCCTTATTATAGATATGACTTGGAACCATTTAGTGTATGTATAAATGATATCTGTTCTATTTTCAGAAACATTTTTCAT TAGGATTAGCTATTTGTTCATATTTTTGTATTTTTGTTTTAGGTGAGAAGGAAGGGTTTTTGGTTACTATCTACTGTGTC AAAGCTCCTTCATAATTTCATTCCGCAACTGTCCCATTCTTCAGATGGTCTTGTATTCCAGGTAATAATTAGTAACTCTA GAAGACTGAACCTCCTAAATTGAGCTTTGGATGCATAGGATAGTTGAGTTAATGAACACTTTACTTTTAGGAAGCACCGG GTCTTCAGGGATGCTGTACTGATTTGATGAGCAGTCCAATTTTTTAGTTGTTCTTTTTTCAAAATCTCAGCCAATATTAC TATTGACTGTTGAGAAACCTAAATACCTTGTGGTTTGCAAAATACTGACTGACTGCAAACATACTGTCAAAATTATGCAT GGATGCTGTCTGGTTTATCGACTTGTTCCATTGTTATTGATGTTGGATTCTATCAGGGTTGGGATGATCCATATGTCCCT CGCACACATGAAGGTCTTCTGAAGTGGAAATACCCTGAGATGAACTCTGTTGATTTCCAATGTGAGGTTGTATAAGTACT TCTCATCCAGTTCAGAAATTGAAATAGTTCATGTGGTAGTGCTAACTTCCTCTCTGTGCTACAATCTGAGCATGTTGATG ATGTCTTTGTTGACAGCTATCAGCCAGTGGCCGTCCCCTTCTTTTTCTGTTTGAGCGTGGAAAGAAGAAATTAATGGAAG GGACTGATGTTGTTTTTAAAGGTTGTAGACCTTTATCATTATATTTGAACATTATAATGTTTTAATGCTATTTCATTATT ATTTTTAAGTAAGAAGATGACTGATATTAGATTATATGGCCCCAACTTTTGGCCTTACAGGAATTGCCTTTTGTAGTCAA TGGAGTATGTCTATAAGCTATAGTATAATTCTGGTTATTTAACTGAATTTTATATCTGTAAAAATCAAACCGTAATGTTT TAATAAAAAGATCATTTTTAATGATTTTCAGATGCATCAGATATTTCATCCTATTCAGGGAGGATCATTGAGTGCTACTT GGATCCTGTGAAGCATCATTGGGTCTGTATGCGGATCAGAATCGACAAAGCAACTCCAAATGATATCAATACCTATAGAA AGGTTATTCTTGTTATCTTTTTCTATTTGTCTGTGTTTTGTTTAACTTGCTCATGTGAAAACCCTTGCAAATTTTTTGAT ACAGGTATTGCGAAGCATTAAGGATAACATCACAGAAGAGGTCTTGTTGAATGAAATTAGTCAGATCATTCGCCTACCCT TATATGCAGACAGAATACAAAGAGATATCAAGGCTCACCAACATTCACGGCGCAAGTGAGTTGCTATGAAAAAGCTAAGC ATGTCCAATAGTTAATTTGAAGAGCCAGCAAGAGTTTCTAAATGAAGTGCAAGCAGAGCTGTACAGATTTTTCGTTCCCA AAGTTATTATTTGTACTATGCCATGGCCTGCATTTATCCCTCACATACCTCAGTGAAGAGGTTTAGGCTCAATGAATTGT GTTGGGCTAATAAGTTTTGGGTCGCTGTTGTATTGTATATTAGCAATTTTGCCTATTTCCTTTAATTTTTTCCCCATTCT GTTTTGGGTCATTTTTTCCTCATGAATTCATAAGTTCATTTTGGAATAAACTCCACTCAAACGGCTTTGATAGGATTGTA CCAAAAGAAAAATAGGACTTTGATAGGACACTGTAATAGAAGGTTTCCTTTTATTGGTAGACAGCTACTCATTTTCTGGC TTTTATTTTTGCGCAACCAGTAAGGTATTGGAGATTCGATTACATTGACCCAATGGCGGATATACTTGAAATCTGAACTG TCTGATCTTAATCAAATAACTCAGATTTTTTAACTCTGAATTTAGGATTCTTG
CDS sequence (LotjaGi1g1v0728900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATATTGACGATACACGCAGAGGTTTGAAAAGGAAGCCGCCAGATATGGATCGTGGTCATGAACATGGATCTTACAA TATGAATTCTAGACCTTATGATAGGAACATGCCTCCTGATGGTTGGTTAGACTGCCCAGCACAAGGGCAAGAACTAGGAT GCATAATTCCTTCAAAGGTTCCACTTGGTGAATCCTTCAATGATTATGTCTCGAGTAAAAAATATACTCCCAAGCAAGCA ATTCTTCAACCGAGAGTCTTAGGTAGAGAACTTGGTTTGGTGATTGATCTGACAAATACTACTCGTTACTATCCAGTATC TGATTGGACAAAAGAAGGGATTAGGCATGTCAAGATAAGATGTAAAGGAAAAGATTCTGTACCTGATGAAGAATCTGTAA AAATGTTTTGCGATGAGGTTCTGGATTTTGGCTCCCAAAGAACAAACACAAAGAAATATATACTTGTACACTGCACACAT GGGTTTAATCGTACAGGATATATGATTATTCATTTTCTTGTGCGTACGGAGTCAATTTCTGTCACCGAGGCAATAAAAAA ATTTGCTCGGGCACGTCACCCAGGAATTTATAAGCCGGATTATATTGACGCCCTATATGTGTTTTATCATGAAAAGAAGC CTGAAGATCTTATTTGTCCACAAACTCCAGAATGGAAGTCTGATCCTAATTTTCATGGTCTGGATGTCCCAACTGTAGAC AATCACAGAGACGCTCTACAGCAGGAGAATATTATGAGGAATGAAGTGTTGAAAAATGATGATGCTTTGGGAGATCCCGT CGCTTCACACCAGCTGCGTGGAATGCAAGAACTTTGTTATCAACTGCTCAAGTTGGGCCCAGGGGGAAGAGGAGGACGTT TACAGTTTCCTGGATCGCACCCTGTTTCTCTGAACAGGGACAATCTGCAACTGTTAAGACAACGATATTATTATGCAACG TGGAAAGCTGATGGGACCCGATATATGATGTTGATTACTGGAGATGGATGTTATCTGATTGACAGAAAATTTCTTTTCCG AAGGATCAATATGCGGTTTCCTTGCAGATACTCAAACGGGGGTACACCGGAAAGGAATCACCACTACACATTACTTGATG GGGAGATGATTATTGACATCGATCCACACACCCAGAAGCAAGAGAGAAGATACCTCATTTATGATTTGATTGCAATCAAT CAAGTCTCTTTGACAGAGCTTCCATTCTATGAAAGGTGGAAATTGCTGGAGAAAGAAGTTATTGAACCTCGCAACATGGA ACGTGAGGGCCTTTCCAAGAGCTTAGATCCTTATTATAGATATGACTTGGAACCATTTAGTGTGAGAAGGAAGGGTTTTT GGTTACTATCTACTGTGTCAAAGCTCCTTCATAATTTCATTCCGCAACTGTCCCATTCTTCAGATGGTCTTGTATTCCAG GGTTGGGATGATCCATATGTCCCTCGCACACATGAAGGTCTTCTGAAGTGGAAATACCCTGAGATGAACTCTGTTGATTT CCAATGTGAGCTATCAGCCAGTGGCCGTCCCCTTCTTTTTCTGTTTGAGCGTGGAAAGAAGAAATTAATGGAAGGGACTG ATGTTGTTTTTAAAGATGCATCAGATATTTCATCCTATTCAGGGAGGATCATTGAGTGCTACTTGGATCCTGTGAAGCAT CATTGGGTCTGTATGCGGATCAGAATCGACAAAGCAACTCCAAATGATATCAATACCTATAGAAAGGTATTGCGAAGCAT TAAGGATAACATCACAGAAGAGGTCTTGTTGAATGAAATTAGTCAGATCATTCGCCTACCCTTATATGCAGACAGAATAC AAAGAGATATCAAGGCTCACCAACATTCACGGCGCAAGTGA
Protein sequence (LotjaGi1g1v0728900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDIDDTRRGLKRKPPDMDRGHEHGSYNMNSRPYDRNMPPDGWLDCPAQGQELGCIIPSKVPLGESFNDYVSSKKYTPKQA ILQPRVLGRELGLVIDLTNTTRYYPVSDWTKEGIRHVKIRCKGKDSVPDEESVKMFCDEVLDFGSQRTNTKKYILVHCTH GFNRTGYMIIHFLVRTESISVTEAIKKFARARHPGIYKPDYIDALYVFYHEKKPEDLICPQTPEWKSDPNFHGLDVPTVD NHRDALQQENIMRNEVLKNDDALGDPVASHQLRGMQELCYQLLKLGPGGRGGRLQFPGSHPVSLNRDNLQLLRQRYYYAT WKADGTRYMMLITGDGCYLIDRKFLFRRINMRFPCRYSNGGTPERNHHYTLLDGEMIIDIDPHTQKQERRYLIYDLIAIN QVSLTELPFYERWKLLEKEVIEPRNMEREGLSKSLDPYYRYDLEPFSVRRKGFWLLSTVSKLLHNFIPQLSHSSDGLVFQ GWDDPYVPRTHEGLLKWKYPEMNSVDFQCELSASGRPLLFLFERGKKKLMEGTDVVFKDASDISSYSGRIIECYLDPVKH HWVCMRIRIDKATPNDINTYRKVLRSIKDNITEEVLLNEISQIIRLPLYADRIQRDIKAHQHSRRK
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 |
|---|---|---|---|---|---|---|
| MobiDBLite | 1 | 32 | 32 | - | – | |
| MobiDBLite | 1 | 25 | 25 | - | – | |
| PANTHER | 4 | 625 | 622 | 0.0 | – | |
| PANTHER | 4 | 625 | 622 | 0.0 | – | |
| Gene3D | 16 | 230 | 215 | 1.6E-56 | ||
| PIRSF | 25 | 626 | 602 | 9.2E-216 | ||
| SUPERFAMILY | 39 | 226 | 188 | 1.48E-42 | ||
| CDD | 41 | 207 | 167 | 9.54898E-63 | – | |
| SMART | 71 | 211 | 141 | 0.0014 | ||
| Pfam | 90 | 208 | 119 | 4.1E-13 | ||
| ProSiteProfiles | 134 | 203 | 70 | 12.081 | ||
| ProSitePatterns | 156 | 166 | 11 | - | ||
| Gene3D | 250 | 496 | 247 | 5.4E-76 | – | |
| CDD | 270 | 499 | 230 | 3.16676E-86 | – | |
| SUPERFAMILY | 274 | 499 | 226 | 1.47E-43 | – | |
| Pfam | 300 | 498 | 199 | 4.0E-71 | ||
| Gene3D | 497 | 606 | 110 | 1.7E-21 | – | |
| SUPERFAMILY | 501 | 614 | 114 | 7.62E-25 | ||
| Pfam | 502 | 597 | 96 | 2.3E-18 |
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 | MRNA guanylyltransferase activity | Catalysis of the reaction: GTP + (5')pp-Pur-mRNA = diphosphate + G(5')ppp-Pur-mRNA; G(5')ppp-Pur-mRNA is mRNA containing a guanosine residue linked 5' through three phosphates to the 5' position of the terminal residue. | ||
| Molecular function | Polynucleotide 5'-phosphatase activity | Catalysis of the reaction: 5'-phosphopolynucleotide + H2O = polynucleotide + phosphate. | ||
| Molecular function | Protein tyrosine phosphatase activity | Catalysis of the reaction: protein tyrosine phosphate + H2O = protein tyrosine + phosphate. | ||
| Biological process | 7-methylguanosine mRNA capping | Addition of the 7-methylguanosine cap to the 5' end of a nascent messenger RNA transcript. | ||
| Biological process | Protein dephosphorylation | The process of removing one or more phosphoric residues from a protein. | ||
| Molecular function | Protein tyrosine/serine/threonine phosphatase activity | Catalysis of the reactions: protein serine + H2O = protein serine + phosphate; protein threonine phosphate + H2O = protein threonine + phosphate; and protein tyrosine phosphate + H2O = protein tyrosine + phosphate. | ||
| Biological process | Dephosphorylation | The process of removing one or more phosphoric (ester or anhydride) residues from a molecule. | ||
| Molecular function | Phosphatase activity | Catalysis of the hydrolysis of phosphoric monoesters, releasing inorganic phosphate. | ||
| Cellular component | Host cell nucleus | A membrane-bounded organelle as it is found in the host cell in which chromosomes are housed and replicated. The host is defined as the larger of the organisms involved in a symbiotic interaction. |
Expression pattern of LotjaGi1g1v0728900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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