CDS

Accession Number TCMCG080C28141
gbkey CDS
Protein Id XP_027939947.1
Location complement(join(7101799..7102111,7102317..7102388,7102485..7103765,7103855..7104059,7104318..7104436,7104765..7105119,7105335..7105462,7106083..7106200,7106316..7106354,7106834..7106882,7107002..7107026,7107151..7107199,7107331..7107419,7107655..7107662))
Gene LOC114194091
GeneID 114194091
Organism Vigna unguiculata

Protein

Length 949aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA521068
db_source XM_028084146.1
Definition peptidyl-prolyl cis-trans isomerase CYP95-like isoform X2 [Vigna unguiculata]

EGGNOG-MAPPER Annotation

COG_category O
Description Peptidyl-prolyl cis-trans isomerase
KEGG_TC -
KEGG_Module -
KEGG_Reaction -
KEGG_rclass -
BRITE ko00000        [VIEW IN KEGG]
ko01000        [VIEW IN KEGG]
ko03041        [VIEW IN KEGG]
ko03110        [VIEW IN KEGG]
KEGG_ko ko:K01802        [VIEW IN KEGG]
ko:K09566        [VIEW IN KEGG]
EC 5.2.1.8        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway -
GOs GO:0000413        [VIEW IN EMBL-EBI]
GO:0003674        [VIEW IN EMBL-EBI]
GO:0003755        [VIEW IN EMBL-EBI]
GO:0003824        [VIEW IN EMBL-EBI]
GO:0006464        [VIEW IN EMBL-EBI]
GO:0006807        [VIEW IN EMBL-EBI]
GO:0008150        [VIEW IN EMBL-EBI]
GO:0008152        [VIEW IN EMBL-EBI]
GO:0009987        [VIEW IN EMBL-EBI]
GO:0016853        [VIEW IN EMBL-EBI]
GO:0016859        [VIEW IN EMBL-EBI]
GO:0018193        [VIEW IN EMBL-EBI]
GO:0018208        [VIEW IN EMBL-EBI]
GO:0019538        [VIEW IN EMBL-EBI]
GO:0036211        [VIEW IN EMBL-EBI]
GO:0043170        [VIEW IN EMBL-EBI]
GO:0043412        [VIEW IN EMBL-EBI]
GO:0044237        [VIEW IN EMBL-EBI]
GO:0044238        [VIEW IN EMBL-EBI]
GO:0044260        [VIEW IN EMBL-EBI]
GO:0044267        [VIEW IN EMBL-EBI]
GO:0071704        [VIEW IN EMBL-EBI]
GO:0140096        [VIEW IN EMBL-EBI]
GO:1901564        [VIEW IN EMBL-EBI]

Sequence

CDS:  
ATGTACAGGAGAAAGGGGAGTTGGTCCAAATACTGGAAAATCACTGCACTACAAGGGTTCTTTCTTCCATCGAATTGTGAAAGGCTCCATTGCCCGGGATACAGGGCTGATGGTCACGACTTCCTTTCTTGTGATATAGTTTTAAGGGTGGTGATTTTGTCAATCGAAATGTTGTCCGAGTTGCAAGCCATGTTCCATTTTCATGTTTGCTGTGACAATGGGACTGGTGGAGAAAGCATATATGGTTCCAAGTTCCCAGATGAATCACCTAGGCTAAAGCATGATGCTCCTGGCCTTCTTTCAATGCCAGTTGCTGATCGTGACACTCTTGGTTCTCATTTTATAATCACTTTTAAAGCTGATCCCCATCTTGATAGGAAACATGTAGTGTTTGGCAAGCTTGTACTAGGACATGATATATTGAAGAAAATTGAAGATGTGGGTGATAAAGAAGGACTTCCAAGCGTGACTGTTAAAATAATTAATTGTGGTGAACATAATGAGGATGAAAAGAAGATAAATAAATCAAAAAAGGGAAGAGATGGATCTTCTGAAACAAATAGTCATGAACTGCATAAGGGAAAGCATCGAAAATCTTCAGGTGACAAAAGGAAAAGGAGAAAGTACTACTCATCAGAATCTGATAGTTCCTCAGATTCAGACACAAAATCTTCCGAAAGTGATAGTGATTCTGACTCTGATATATCTTCATCATCGTACACAAGTTCCTCCAGCGATGATAGGCGGAGAAAGAGAAAGAGGTCTAGGAAAGATAAACATAGACGTGGAAAAAAAAGAGATAAACACAGAGAAAAGAGACGAAGGAAGCAAGATAAAAGATCAAAGCGTAGATCAAGGAGGGAATTGTCCAGTCATACTGATTCAGATAGTGAAAATAAGAGCAACAAATGCTCTGATAGTGAAAGTTGTGGTGCCGAAGTGAATGATCAGAATCATGAAGACCATTCTCAGAGACATGCTGAAGGTCAGTCTTCCTCAGTTGTCGAGAAAGAATTACCTCCAATGCACCCTAAAAAGAGGGAGAAACTGGATATATTGAAAGAGGAAGAATTCCCAAAGGAAAATGGAGAGCGGTGTAGCAATGGAACTGGAGCCAACTATAGATCTGAAAGAAGTGAAGTGAGGCAGCCTGATGTGATGGATGATCAACCAGACAAATCTAGGAGTCAAAGCACGAGTGTTAGTCCGAGGAAGCGCAAGAGCAAAAGCCCAAGCATTAGTCCAAAAGGGAAGTTGAACAGAAGTCCAAGTGGCAGTAGAAGTCCTCATGCTCCATTACAGAGGAGTTTGAGCCAGAGTCCTGTTAGAAGCACAAGCAGGAGTCCAAATAGAAGAAGCGTCAGTAGAAGCCCAATGAGAGGTAGGAAAGGTAGAAGTATCAGTAGAAGCTCTGTAAGACGTTATGGACATCAAAGTGTCAGCACAAGCCCTGTAAGACCCCTTTCTCGGAGCTACCAAAGGACTTCACCAAAAACATCATCACGAAGATCAATCAGCCGAAGCCCTACGATATCTCCTGGTCAAAGAAGTGTCAGTGTAAGCCCAGGAAGATCCCCTTCTCGGAGCCAAAGAAGGAGTTCACTCAAAGCACCATCACGGCGATCAATCAGCAGAAGCCCAGTAAGAAATCGCCGACTTGGAAGTGTCAGTAGAAGCCCTTCAAGATCTCAAGGTCGTAGAAGTGATAGTGGAAGCCCTATAAGATCCCTTACACCAAGTCATCGTATATCACCCAGAACAAAATCTAGAAGATCAATCAGCAGAAGCCCTGTGAGAACTCGCAACCATAAAAGTATCAGCAAAGGCACCTCAAGATCTCGTGGTCATAGAACTAGCAGTGGAAGCCCTGTAAGATCCCTTTCTCGAAGTGGCCGTAGGAGTTCACCAAGAGCACCTTCGCGAAGATCAATCAGTAGAAGCCCTGTGAAAACTGGCAATCATAGAAGTGTAAGTAGAAGCCCCTTGCGATCTCATGGTCAAAGAAGTGTGAGTGCTAGCCCTGTTAGATCACCTTCATGGGAACGCCGAAGGAGTTCACCAAGAGCACCGTCACGGAGATTGATCAGTAGAAGTCCAGTAAGAGTGTCAAGAAAGAGTTTAAGCAGGAGTCCAGTTCGATCATCTGCCAGAAGCTTGAGCAGAAGCTCTGGCAGAGTCCCTTTGAGAAGCAATAGTCGCAGTCCAGTTAGAGGGCCAAGCAGAGTCCCTTTGAGAAGCATTAGTCGCAGTCCAGTTAGAGGGCCAAGCAGAGTCAATCGCCGCAGTTATTCCAGGAGTCCTCGTGGTAGGAGCTTGTCTAGAAGTTTGTCACCTGATGTTTCCCCAAAACGTATCAGAAGGGGAAGAGGTTTTAGTGAACGATATTCTTATGCTAGAAGGTATAGGACTCCCTCTCGATCTCCTGTGAGATCATACCGCTATAATGGAAGAAGTGACCGTGACAGATATTCAGGTTACAGAAGGTACTCCCCTAGGCGTAACAGGAGCCCACCACCACGCAGAAGAACCCCACCAAGGTTCCGCAGTAGGAGGAGCAGGACACCATCCGTTTCTCGCAGCCCACGTTATAGAGGTCGACGATACAGTCGAAGCCGTAGCCCTGTACGCAGTCGTTCACCTGCTGGCGCGTATCGACGTCGTGTTGAGAGGAGCAGGTCCTTGTCCCGGAGTAGCAGGTCTCTGTCCCGGAGCAGGAGTCCATCACTATCCAGGGCTTCAGTGGAGTCACAATCTCCACGAAAGAACAGCAGGTCAAGGTCCCGGTCCCAAAGCTCGGATGGAAAGAAAGGCCTTGTATCGTACGGAGATGGTTCTCCAGATTCAAGCTGA
Protein:  
MYRRKGSWSKYWKITALQGFFLPSNCERLHCPGYRADGHDFLSCDIVLRVVILSIEMLSELQAMFHFHVCCDNGTGGESIYGSKFPDESPRLKHDAPGLLSMPVADRDTLGSHFIITFKADPHLDRKHVVFGKLVLGHDILKKIEDVGDKEGLPSVTVKIINCGEHNEDEKKINKSKKGRDGSSETNSHELHKGKHRKSSGDKRKRRKYYSSESDSSSDSDTKSSESDSDSDSDISSSSYTSSSSDDRRRKRKRSRKDKHRRGKKRDKHREKRRRKQDKRSKRRSRRELSSHTDSDSENKSNKCSDSESCGAEVNDQNHEDHSQRHAEGQSSSVVEKELPPMHPKKREKLDILKEEEFPKENGERCSNGTGANYRSERSEVRQPDVMDDQPDKSRSQSTSVSPRKRKSKSPSISPKGKLNRSPSGSRSPHAPLQRSLSQSPVRSTSRSPNRRSVSRSPMRGRKGRSISRSSVRRYGHQSVSTSPVRPLSRSYQRTSPKTSSRRSISRSPTISPGQRSVSVSPGRSPSRSQRRSSLKAPSRRSISRSPVRNRRLGSVSRSPSRSQGRRSDSGSPIRSLTPSHRISPRTKSRRSISRSPVRTRNHKSISKGTSRSRGHRTSSGSPVRSLSRSGRRSSPRAPSRRSISRSPVKTGNHRSVSRSPLRSHGQRSVSASPVRSPSWERRRSSPRAPSRRLISRSPVRVSRKSLSRSPVRSSARSLSRSSGRVPLRSNSRSPVRGPSRVPLRSISRSPVRGPSRVNRRSYSRSPRGRSLSRSLSPDVSPKRIRRGRGFSERYSYARRYRTPSRSPVRSYRYNGRSDRDRYSGYRRYSPRRNRSPPPRRRTPPRFRSRRSRTPSVSRSPRYRGRRYSRSRSPVRSRSPAGAYRRRVERSRSLSRSSRSLSRSRSPSLSRASVESQSPRKNSRSRSRSQSSDGKKGLVSYGDGSPDSS