CDS
| Accession Number | TCMCG021C40477 |
| gbkey | CDS |
| Protein Id | XP_029121517.1 |
| Location | complement(join(22120745..22120858,22121063..22121183,22121267..22121413,22121507..22121612,22121734..22121816,22122029..22122156,22122241..22122516,22124078..22124245,22124334..22124418,22124494..22124610,22124768..22124844,22124976..22125047,22125489..22125585,22125710..22125912,22126053..22126155,22126246..22126313,22126408..22126461,22126565..22126674,22127215..22127293,22127395..22127457,22128635..22128754,22129319..22129375,22129478..22129594,22134033..22134083,22134367..22134465,22134657..22134802,22135214..22135460)) |
| Gene | LOC105048890 |
| GeneID | 105048890 |
| Organism | Elaeis guineensis |
Protein
| Length | 1035aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA268357 |
| db_source | XM_029265684.1 |
| Definition | probable UDP-N-acetylglucosamine--peptide N-acetylglucosaminyltransferase SEC isoform X1 [Elaeis guineensis] |
EGGNOG-MAPPER Annotation
| COG_category | GOT |
| Description | UDP-N-acetylglucosamine--peptide N-acetylglucosaminyltransferase SEC |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction |
R09304
[VIEW IN KEGG] R09676 [VIEW IN KEGG] |
| KEGG_rclass |
RC00005
[VIEW IN KEGG] RC00059 [VIEW IN KEGG] |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko01000 [VIEW IN KEGG] ko01003 [VIEW IN KEGG] ko03036 [VIEW IN KEGG] |
| KEGG_ko |
ko:K09667
[VIEW IN KEGG] |
| EC |
2.4.1.255
[VIEW IN KEGG]
[VIEW IN INGREDIENT] |
| KEGG_Pathway |
ko00514
[VIEW IN KEGG] ko04931 [VIEW IN KEGG] map00514 [VIEW IN KEGG] map04931 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGTTCTCGCTGCAGAGCGACGCTCGCTTGCATCAACTGCCGCCGCCGCCGCCGCCGCAACAGCAGCAACCGCCGCCGTCTGTGGTGGCGACGCAGCTGCAGCAGCTCTTCGGGGCGAATGCGTCCGGCGGGCTAGGGTTCCACGGTGCCCCCATCGGGAGCGCCGATCTCGACGAGGCGTCATTCCCTCTGCAACTGCTCGATGACTCCGCCGATATCAAACCCTTGATCGCAAAACCACTCGAAGGCGATGAGGACGTGCATCTGGTGCTTGCTCATCAGAGTTATAAAGCGGGAGACTATAATCAGGCATTGGAACACTGCAATGCTATTTATAGGAAAAATCCAAAGCGCACTGATAATCTTCTTCTTCTTGGTGCAATCTATTATCAGCTGCATGATTTCGACATGTGCATTGCGAAGAATCAGGAAGCTCTTGCAATTGATCCTCATTTTGCAGAGTGCTATGGAAACATGGCAAATGCTTGGAAGGAGAAAGGCAATATTGATCTGGCAATTCGTTGTTATCTGATTGCTATTGAGCTCCGGCCCAATTTTTCTGATGCATGGTCAAATTTAGCTAGTGCATATACACGAAAAGGAAGACTTAATGAAGCAGCACAGTGCTGTCGCCAAGCTCTTGCACTTAATCCTCGTTTGGTTGATGCTCATAGCAACCTTGGAAATCTGATGAAGGCACAGGGACTAGTTCAAGAAGCCTACAATTGCTATGTGGAGGCTCTACGCATACGACCTTCTTTTGCAATTGCTTGGTCCAATCTAGCTGGTCTCTTTATGGAGGCAGGAGATCTTAACAGAGCTCTTACGTACTACAAGGAAGCAGTTAAACTAAAGCCAACGTTTGCTGATGCCTACCTGAACCTTGGGAATGTGTACAAGGCTTTAGGAATGCGTCAAGAGGCTATCATATGCTATCAGCATGCTATACAGGCACGCACAGACTATGCAACGGCTTATGGAAATCTTGCTAGTACATACTATGAACAAGGCCAACTGGATTTGGCAATTCTGCATTACAGACAAGCCATCAATTATGATTCAGCTTATGTGGAGGCATACAATAATCTGGGGAATGCTCTGAAAGATGCTGGCAGAGTGGATGAGGCTATTAGTTGCTATCAGTCATGCCTTGCATTACAACGTAACCACCCACAAGCTCTTACAAACCTTGGGAACATACACATGGAATGGAACATGATGAGTGTAGCTGCTTCATATTACAAGGCAGCTATATCTGTTACTTCTGGATTATCTGCTCCCTTCAACAATTTAGCGGCGATCTACAAACAGCAGGGGAATTATGTTGAAGCCATAGCTTGCTACAATGAAGTCCTTCGTATAGATCCTTTGGCAGCTGATGGACTTGTCAATAGGGGAAACACATTCAAGGAGATTGGTAGAGTTAGTGAGGCAATTCAGGATTATATTCGGGCAGTGACTATCAGGCCAACTATGGCTGAAGCTCATGCAAATTTAGCTTCTGCTTACAAGGACACTGCACATGTGGAAGCAGCTATTAAGAGTTACAAACAAGCATTGCTGCTACGTCCAGATTTTCCTGAAGCAACTTGCAATCTCCTGCACACCTTGCAGTGTGTTTGCGATTGGGATGACAGGGCTAGCAGGTTTGCAGAAGTTGAGGGAATCATCAGAAAGCAGATAAAGATGTCAGTTCTTCCAAGTGTGCAACCATTTCATGCTATAGCCTACCCAATTGATCCAATCCTTGCATTGGAAATTAGCCGGAAATATGCAACACATTGCTCTTTAATTGCTTCTCGTTATGGACTCCCTGCCTTCAGACATCCCCTTCCTATTCCCGTGAAGGCTGAAGGCGGAAGTGGTAGACTCAGAGTGGGGTATGTGAGCAGTGACTTTGGTAACCACCCCCTCTCGCATCTTATGGGCTCTGTATTTGGAATGCACAACAGAGAGAATGTTGAGGTATTCTGTTATGCCTTAAGTCAAAATGATGGTAGCAAATGGAGGCAGCGTATCCAATCTGAAGCAGAGCATTTTGTCGATGTTTCTTCCATGTCATCTGATGTGGTTGCCAGAATAATCAATGAGGACAAAATACAGATCTTAATCAACCTTAATGGTTATACCAAGGGTGCAAGGAATGAAATTTTTGCCATGCAACCAGCACCAATCCAGGTCTCTTACATGGGCTTCCCAGGGACAACTGGTGCAACTTACATTGACTACTTGGTTACTGATGAGGTGCATAGATGTCCTCAACTTCTTATCATGCTTAGAAGTTGCTGTTTACCTTATGGTTTCCTTTTTCTTCCACGACAGTTTGTTTCTCCCACACGTTTCTCACATATTTACTCGGAAAAGCTTGTCCATCTTCCTCATTGTTATTTTGTGAATGACTACAAACAGCAAAATCGTGATGTTCTGGATCCAGTCTGTCAGCATAAGCGAGCGGATTATGGTCTACCTGAAGATAAATTTATTTTTGCATGTTTTAATCAGCTTTACAAGATGGACCCTGATATATTTAATACTTGGTGCAATATTCTTAAGCGTGTTCCAAACAGTGCATTGTGGCTGCTGAGATTCCCAGCAGCTGGTGAAATGAGACTGCGTGCATATGCTGCTGCACGGGGAGTGAGACCTGATCAGATCATATTCACAGATGTTGCTATGAAGGATGAGCATATCAGACGCAGTGCTTTAGCAGATCTTTTTCTTGACACGCCCCTGTGCAATGGCCACACAACAGGAACAGATATATTATGGGCTGGCTTGCCCATGATAACACTTCCTCTGGAAAAAATGGCCACGAGGGTTGCTGGTTCGTTGTGTCTAGCCACTGGAGTTGGGGAAGAGATGGTTGTTAGCAGCCTGAAAGAATATGAAGAAAAGGCGGTGGCTTTGGCTGAAAATCCTGCAAAGCTTCAAGCTCTTACCAATAAACTTAAGGCAGCACGAATGACCTGTCCTTTGTTTGACACAGCCAGATGGGTGCACAATCTGGAGAGGGCTTACTTCAAAATGTGGAATCTGTACTGCTCTGGTAGACATCCACAGCCCTTCAAAGTGACAGAACATGATGCCGAATTCCCATATGACAGATAG |
| Protein: MFSLQSDARLHQLPPPPPPQQQQPPPSVVATQLQQLFGANASGGLGFHGAPIGSADLDEASFPLQLLDDSADIKPLIAKPLEGDEDVHLVLAHQSYKAGDYNQALEHCNAIYRKNPKRTDNLLLLGAIYYQLHDFDMCIAKNQEALAIDPHFAECYGNMANAWKEKGNIDLAIRCYLIAIELRPNFSDAWSNLASAYTRKGRLNEAAQCCRQALALNPRLVDAHSNLGNLMKAQGLVQEAYNCYVEALRIRPSFAIAWSNLAGLFMEAGDLNRALTYYKEAVKLKPTFADAYLNLGNVYKALGMRQEAIICYQHAIQARTDYATAYGNLASTYYEQGQLDLAILHYRQAINYDSAYVEAYNNLGNALKDAGRVDEAISCYQSCLALQRNHPQALTNLGNIHMEWNMMSVAASYYKAAISVTSGLSAPFNNLAAIYKQQGNYVEAIACYNEVLRIDPLAADGLVNRGNTFKEIGRVSEAIQDYIRAVTIRPTMAEAHANLASAYKDTAHVEAAIKSYKQALLLRPDFPEATCNLLHTLQCVCDWDDRASRFAEVEGIIRKQIKMSVLPSVQPFHAIAYPIDPILALEISRKYATHCSLIASRYGLPAFRHPLPIPVKAEGGSGRLRVGYVSSDFGNHPLSHLMGSVFGMHNRENVEVFCYALSQNDGSKWRQRIQSEAEHFVDVSSMSSDVVARIINEDKIQILINLNGYTKGARNEIFAMQPAPIQVSYMGFPGTTGATYIDYLVTDEVHRCPQLLIMLRSCCLPYGFLFLPRQFVSPTRFSHIYSEKLVHLPHCYFVNDYKQQNRDVLDPVCQHKRADYGLPEDKFIFACFNQLYKMDPDIFNTWCNILKRVPNSALWLLRFPAAGEMRLRAYAAARGVRPDQIIFTDVAMKDEHIRRSALADLFLDTPLCNGHTTGTDILWAGLPMITLPLEKMATRVAGSLCLATGVGEEMVVSSLKEYEEKAVALAENPAKLQALTNKLKAARMTCPLFDTARWVHNLERAYFKMWNLYCSGRHPQPFKVTEHDAEFPYDR |