CDS

Accession Number TCMCG028C25713
gbkey CDS
Protein Id KAF6135749.1
Location complement(join(894856..894972,895224..895284,895389..895469,895626..895684,895892..895985,896058..896131,896235..896396,896509..896568,896659..896721,897212..897335,897457..897512,897731..897823,897973..898075,898156..898348,898549..898732,898806..898953,899126..899352,899468..899527,899680..899781,899899..900004,900207..900424,900492..900674))
Organism Kingdonia uniflora
locus_tag GIB67_028605

Protein

Length 855aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA587615, BioSample:SAMN13195877
db_source JACGCM010002779.1
Definition hypothetical protein GIB67_028605 [Kingdonia uniflora]
Locus_tag GIB67_028605

EGGNOG-MAPPER Annotation

COG_category M
Description synthase
KEGG_TC -
KEGG_Module -
KEGG_Reaction -
KEGG_rclass -
BRITE ko00000        [VIEW IN KEGG]
ko01000        [VIEW IN KEGG]
KEGG_ko ko:K00574        [VIEW IN KEGG]
EC 2.1.1.79        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway -
GOs GO:0003674        [VIEW IN EMBL-EBI]
GO:0003824        [VIEW IN EMBL-EBI]
GO:0005575        [VIEW IN EMBL-EBI]
GO:0005622        [VIEW IN EMBL-EBI]
GO:0005623        [VIEW IN EMBL-EBI]
GO:0005737        [VIEW IN EMBL-EBI]
GO:0005829        [VIEW IN EMBL-EBI]
GO:0006629        [VIEW IN EMBL-EBI]
GO:0008150        [VIEW IN EMBL-EBI]
GO:0008152        [VIEW IN EMBL-EBI]
GO:0008168        [VIEW IN EMBL-EBI]
GO:0008757        [VIEW IN EMBL-EBI]
GO:0008825        [VIEW IN EMBL-EBI]
GO:0009987        [VIEW IN EMBL-EBI]
GO:0016740        [VIEW IN EMBL-EBI]
GO:0016741        [VIEW IN EMBL-EBI]
GO:0030258        [VIEW IN EMBL-EBI]
GO:0032259        [VIEW IN EMBL-EBI]
GO:0044237        [VIEW IN EMBL-EBI]
GO:0044238        [VIEW IN EMBL-EBI]
GO:0044255        [VIEW IN EMBL-EBI]
GO:0044424        [VIEW IN EMBL-EBI]
GO:0044444        [VIEW IN EMBL-EBI]
GO:0044464        [VIEW IN EMBL-EBI]
GO:0071704        [VIEW IN EMBL-EBI]

Sequence

CDS:  
ATGCCGAGAATGCGAGTAGCGGTTGTCGGAGCAGGGATAAACGGTTTGGTTTCAGCCTATATTCTTGCAAAGGAAGGGGTCGATGTGGTTTTGTATGAAAAGGAGGACTATCTTGGTGGTGGCCATGCATGGACCGTAAACATTGAAGGGGTTGATATAGATCTCGGTTCCATGGTCATGAGAGTCACATGTCCAAATATGATGGAGTTCTTTGACAGTCTTGGAGTAGAAACGGAGAGGACAGATATATCGGTTGCAGTGAGTTTAGACAAAGGCAGGAGCTGCGAGTGGGGCACTCGAAATGGATTGTCAAGCTTGTTCGCACAAAAGAGGAACCTACTGAACCCATACTTCTACCAAATGATCCGAGAAATTCTCAAGTTTAAGGATGTGGTTATCAAGTTCGTTGAAGATCTTGAGAGCAATTCTGATATTCATAGCAATGAAACTTTAGAGCATTTTGTCAAATCACACGGCTATTCTGAACTATTTCAGAAAGCTTATCTTCTTCCACTCTGTGCTTTGATATGGTCATGTCCTTCAGAAGATGTACTCAGCTTTTCAGCTTTTTCTGTATTTTTGTTTTTCCGAAACCATCAGCTACTGCAGATCTTTGGCCACCCCCAGTGGCTTACTAAAAGGCAAGGTTCACATTCTTACGTGCATAAGGTCAGGGAAGAGCTTGAAAGTAAAGGTTGTAATATAAGAACTGGTTGTGTCGTACAATCTATTACAACATATAATGGAGGTTGCACTGTATCCGCCGCAGATGGTTCACAGGAAATGTTTAATGCGTGTATAGTTGGTGTTCATGCACGAGATGCTCTTACAATATTAGGGAAACAAGCATCGTCTGAGGAAACAAGAATACTTGGGGCTTTCCAATATGTGAAAAGCGATGCATATCTCCATCACGACAAAAGTCTGATGCCCCAAAACCCAACAACATGGAGTGCATGGAATTTTGTTGGAACTACGGACAAAAAAGTATGCCTGACATATTGGCTCAACGTACTTCAGGTTATAACACGCTTTCTTTTATTAAAATGTATTACTGAAACCGAATTACCGCTCCTTGTGACTCTCAATCCACCCATTAAACCTGAGAATACCTTGCTTATATGGTCAACAAGTCATCCTTTTCCATCTGTTACTGCCTCAAAGGCTTCACTTGAGCTTAATGCAATTCAAGGGAAGAGGGGAATATGGTTTTGTGGAGCATACCAGGATCAACTATATTACGGTCTTACATTGATTTGTGGTTCTGGTACAGGGAGGTATGGTTGCGGCACACAGTGTTCTTGGGAAAACATGTTCTCTTTCGAGAAGCATAAAACCTATGGTACCATCATTAACAAAACTGGAGCACGCCTTTTTGTTACTCGATTTCTTAAGAGTTTTATCACTATGGGTTCTTTGACCTTGTTGGAGGAAGGAGGTACTGTTATCTCTTTTGGAGGTATAAACGAAAAAACACGTGTAAAATCTGTCGTGAATGTTCACAACCCTCAGTTCTACTCAAAGGTTGCTACACAGGCAGATTTAGGATTTGCAGAGGCATATATAGATGGAGATATTTCTTTTGTCGACAAAAATATTCTAGAGAATTTTTTCGAGATTTTCATTATCAACAGAGAAAGTCATACTGCCGCTAAAAAGCGTTATGATAAAAGGGGCTGGTGGACACCGTTGCTTCTTACTGCTGGATATGGGTCAGCCAAATATTTTTTACGGCATGTTTTACGAAAAAACACCCTGTCGCAGGCTCGCAAAAATATTTCTCTCCACTATGATCTGAGTAATGATCTATTCAAGTTGTTCTTGGATGAAACTATGACATACTCAACGGCAAATTTTAAGGCAGAAAACGAAGACCTAAAGATTGGACAGCTTAGAAAAATATCAACTCTCATTCAAAAAGCTAGAGTTGAGAAATATCATGAGATTCTTGAGATTGGCTGTGGTTGGGGAGGTCTGGCCATTGAAGTTGTCAAACAAACTGGATGTCGATACACAGGAGTCATCCTGTCACGGGAGCAACTAACATATTCAGAACAGAAAGTTAAAGAAGCGGGATTACAAGACAACATTACGTTCATTTTGTGTGATTATCGACAATTGCCTCTCAACAAGAAATATGACAGGATTATATCAAATGAAATGGTTGAAGCAGTCGGTCACGAGTACATGGAAGAATATTTCAGTTGTTGTGATGCAGCACTTGCCGAAAATGGTCTTCTAGTTCTGCAGTTCACATCAATGCCAGATGAGCGATATGAAGAGTATAGGCGAAGTTCAGAGTTTATTAATGTGGAGCATTGTGAAAATATAGGAGGGCATTACTATCAAACACTGAAATACTGGAGGGACAATTTACTCAAAAATCAGAGCAAAATTATGGAATTAGGATTCGACAAAAACTTCATTAGGACATTTGAGTACTACTTTAATATTGTATTTTCACGTCCAGGAAACGTGGCAACACTCGATAATCCATATAAACAAGTACCTTTTATCTTTGATAATTCGCAATTCGAAGGTGCGAGACAACTTAGTCATCAGAGGTGA
Protein:  
MPRMRVAVVGAGINGLVSAYILAKEGVDVVLYEKEDYLGGGHAWTVNIEGVDIDLGSMVMRVTCPNMMEFFDSLGVETERTDISVAVSLDKGRSCEWGTRNGLSSLFAQKRNLLNPYFYQMIREILKFKDVVIKFVEDLESNSDIHSNETLEHFVKSHGYSELFQKAYLLPLCALIWSCPSEDVLSFSAFSVFLFFRNHQLLQIFGHPQWLTKRQGSHSYVHKVREELESKGCNIRTGCVVQSITTYNGGCTVSAADGSQEMFNACIVGVHARDALTILGKQASSEETRILGAFQYVKSDAYLHHDKSLMPQNPTTWSAWNFVGTTDKKVCLTYWLNVLQVITRFLLLKCITETELPLLVTLNPPIKPENTLLIWSTSHPFPSVTASKASLELNAIQGKRGIWFCGAYQDQLYYGLTLICGSGTGRYGCGTQCSWENMFSFEKHKTYGTIINKTGARLFVTRFLKSFITMGSLTLLEEGGTVISFGGINEKTRVKSVVNVHNPQFYSKVATQADLGFAEAYIDGDISFVDKNILENFFEIFIINRESHTAAKKRYDKRGWWTPLLLTAGYGSAKYFLRHVLRKNTLSQARKNISLHYDLSNDLFKLFLDETMTYSTANFKAENEDLKIGQLRKISTLIQKARVEKYHEILEIGCGWGGLAIEVVKQTGCRYTGVILSREQLTYSEQKVKEAGLQDNITFILCDYRQLPLNKKYDRIISNEMVEAVGHEYMEEYFSCCDAALAENGLLVLQFTSMPDERYEEYRRSSEFINVEHCENIGGHYYQTLKYWRDNLLKNQSKIMELGFDKNFIRTFEYYFNIVFSRPGNVATLDNPYKQVPFIFDNSQFEGARQLSHQR