NCBI Summary
The recognition of complex carbohydrate structures on glycoproteins is an important part of several biological processes, including cell-cell recognition, serum glycoprotein turnover, and neutralization of pathogens. The protein encoded by this gene is a type I membrane receptor that mediates the endocytosis of glycoproteins by macrophages. The protein has been shown to bind high-mannose structures on the surface of potentially pathogenic viruses, bacteria, and fungi so that they can be neutralized by phagocytic engulfment.[provided by RefSeq, Sep 2015].
Protein
Protein (NP_002429)
CLEC13D / macrophage mannose receptor
Macrophage mannose receptor 1 (MMR) (C-type lectin domain family 13 member D) (C-type lectin domain family 13 member D-like) (Human mannose receptor) (hMR) (Macrophage mannose receptor 1-like protein 1) (CD antigen CD206)
MRC1
mannose receptor C-type 1
CD206
Curated
C-type lectin
CLEC13D
C-type - Macrophage Mannose Receptor MMR
a/b mixed / C-type lectin-like
Man, Fuc, GlcNAc / Oligomannose and Lewis oligosaccharides
NP_002429
4360
P22897
ENSP00000455897.1
P22897
0.375
10.1016/j.jbc.2021.100368
neXtProt, PFAM, InterPro, CFG data
The macrophage mannose receptor contains an N-terminal Cys-rich man-receptor domain adopting a beta trefoil fold followed by eight repeats of a C-type lectin domain classified as mixed alpha/beta. Exceptionally, this lectin therefore belongs to two distinct classes
Protein sequence and protein families (fasta) (1456 amino acids) Download
MRLPLLLVFASVIPGAVLLLDTRQFLIYNEDHKRCVDAVSPSAVQTAACNQDAESQKFRWVSESQIMSVAFKLCLGVPSKTDWVAITLYACDSKSEFQKWECKNDTLLGIKGEDLFFNYGNRQEKNIMLYKGSGLWSRWKIYGTTDNLCSRGYEAMYTLLGNANGATCAFPFKFENKWYADCTSAGRSDGWLWCGTTTDYDTDKLFGYCPLKFEGSESLWNKDPLTSVSYQINSKSALTWHQARKSCQQQNAELLSITEIHEQTYLTGLTSSLTSGLWIGLNSLSFNSGWQWSDRSPFRYLNWLPGSPSAEPGKSCVSLNPGKNAKWENLECVQKLGYICKKGNTTLNSFVIPSESDVPTHCPSQWWPYAGHCYKIHRDEKKIQRDALTTCRKEGGDLTSIHTIEELDFIISQLGYEPNDELWIGLNDIKIQMYFEWSDGTPVTFTKWLRGEPSHENNRQEDCVVMKGKDGYWADRGCEWPLGYICKMKSRSQGPEIVEVEKGCRKGWKKHHFYCYMIGHTLSTFAEANQTCNNENAYLTTIEDRYEQAFLTSFVGLRPEKYFWTGLSDIQTKGTFQWTIEEEVRFTHWNSDMPGRKPGCVAMRTGIAGGLWDVLKCDEKAKFVCKHWAEGVTHPPKPTTTPEPKCPEDWGASSRTSLCFKLYAKGKHEKKTWFESRDFCRALGGDLASINNKEEQQTIWRLITASGSYHKLFWLGLTYGSPSEGFTWSDGSPVSYENWAYGEPNNYQNVEYCGELKGDPTMSWNDINCEHLNNWICQIQKGQTPKPEPTPAPQDNPPVTEDGWVIYKDYQYYFSKEKETMDNARAFCKRNFGDLVSIQSESEKKFLWKYVNRNDAQSAYFIGLLISLDKKFAWMDGSKVDYVSWATGEPNFANEDENCVTMYSNSGFWNDINCGYPNAFICQRHNSSINATTVMPTMPSVPSGCKEGWNFYSNKCFKIFGFMEEERKNWQEARKACIGFGGNLVSIQNEKEQAFLTYHMKDSTFSAWTGLNDVNSEHTFLWTDGRGVHYTNWGKGYPGGRRSSLSYEDADCVVIIGGASNEAGKWMDDTCDSKRGYICQTRSDPSLTNPPATIQTDGFVKYGKSSYSLMRQKFQWHEAETYCKLHNSLIASILDPYSNAFAWLQMETSNERVWIALNSNLTDNQYTWTDKWRVRYTNWAADEPKLKSACVYLDLDGYWKTAHCNESFYFLCKRSDEIPATEPPQLPGRCPESDHTAWIPFHGHCYYIESSYTRNWGQASLECLRMGSSLVSIESAAESSFLSYRVEPLKSKTNFWIGLFRNVEGTWLWINNSPVSFVNWNTGDPSGERNDCVALHASSGFWSNIHCSSYKGYICKRPKIIDAKPTHELLTTKADTRKMDPSKPSSNVAGVVIIVILLILTGAGLAAYFFYKKRRVHLPQEGAFENTLYFNSQSSPGTSDMKDLVGNIEQNEHSVI
Mol* PDB structure viewerUniLectin3D
Structural models
AlphaFold v2: AF-P22897-F1Download
Model Confidence:
  •    Very high (pLDDT > 90)
  •    Confident (90 > pLDDT > 70)
  •    Low (70 > pLDDT > 50)
  •    Very low (pLDDT < 50)

  AlphaFold produces a per-residue confidence score (pLDDT) between 0 and 100. Some regions with low pLDDT may be unstructured in isolation.

AlphaFold_v2 structural model assessment through SWISS-MODEL tools.

Ligand
Glycan ligands from structural data
aFuc 13 GlcNAc
Fuc(a1-3)GlcNAc
7L67
7L67
GlyConnect Structures
bGal 13 (aFuc 14) GlcNAc
Gal(b1-3)[Fuc(a1-4)]GlcNAc
7L64
7L64
GlyConnect Structures
Me-GlcNAc, aMeGlcNAc
GlcNAc
7L65, 7L66
7L65, 7L66
GlyConnect Structures
aFuc 12 bGal 14 Glc
Fuc(a1-2)Gal(b1-4)Glc
7L61, 7L62, 7L63
7L61, 7L62, 7L63
GlyConnect Structures
aMan 12 Man
Man(a1-2)Man
7JUE, 7JUF
7JUE, 7JUF
GlyConnect Structures
a-methyl-mannoside, methyl-mannoside, Man
Man
7JUB, 7JUC, 7JUD, 7JUG, 7JUH
7JUB, 7JUC, 7JUD, 7JUG, 7JUH
GlyConnect Structures
Expression
Human Protein Atlas
GeneCards
mRNA expression in normal human tissues for MRC1 Gene
ProteomicsDB
References
NCBI References (10 PubMed Identifiers)
  • CD206 Expression in Induced Microglia-Like Cells From Peripheral Blood as a Surrogate Biomarker for the Specific Immune Microenvironment of Neurosurgical Diseases Including Glioma. [34267749]
  • Structural analysis of carbohydrate binding by the macrophage mannose receptor CD206. [33545173]
  • The myeloid cell biomarker EMR1 is ectopically expressed in colon cancer. [34486997]
  • Increased Levels of Soluble CD206 Associated with Rapidly Progressive Interstitial Lung Disease in Patients with Dermatomyositis. [33192174]
  • Ozone-derived oxysterols impair lung macrophage phagocytosis via adduction of some phagocytosis receptors. [32690608]
  • Organization of the gene encoding the human macrophage mannose receptor (MRC1). [1294118]
  • Contribution to ligand binding by multiple carbohydrate-recognition domains in the macrophage mannose receptor. [1730714]
  • Molecular characterization of the human macrophage mannose receptor: demonstration of multiple carbohydrate recognition-like domains and phagocytosis of yeasts in Cos-1 cells. [2258707]
  • Primary structure of the mannose receptor contains multiple motifs resembling carbohydrate-recognition domains. [2373685]
  • Isolation and characterization of a mannose-specific endocytosis receptor from human placenta. [3611070]
UniProt Main References (8 PubMed Identifiers)
  • The DNA sequence and comparative analysis of human chromosome 10. [15164054]
  • The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC). [15489334]
  • Identification of N-linked glycoproteins in human milk by hydrophilic interaction liquid chromatography and mass spectrometry. [18780401]
  • The mannose receptor mediates dengue virus infection of macrophages. [18266465]
  • The mannose receptor acts as hepatitis B virus surface antigen receptor mediating interaction with intrahepatic dendritic cells. [19683778]
  • An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome. [24275569]
  • Structure of a C-type carbohydrate recognition domain from the macrophage mannose receptor. [10779515]
  • Genetic and functional analysis of common MRC1 exon 7 polymorphisms in leprosy susceptibility. [20035344]
RNA
RNA (Transcript ID: NM_002438.4)
NM_002438.4
mannose receptor C-type 1
All isoforms of MRC1 containing a lectin domain
ENST00000569591.3
119..4489 (or 17809466.. 17910465)
17809348.. 17911164
NCBI Matured mRNA sequence 5188 NTPDownload 
m7G-5')ppp(5'-CAGCUGGGCAGCUCUGGGAACUUGGAUUAGGUGGAGAGGCAGUUGGGGGGCCUCGUUGUUUUGCGUCUUAGUUCCGCCCUCCUGUCCAUCAGGAGAAGGAAAGGAUAAACCCUGGGCCAUGAGGCUACCCCUGCUCCUGGUUUUUGCCUCUGUCAUUCCGGGUGCUGUUCUCCUACUGGACACCAGGCAAUUUUUAAUCUAUAAUGAAGAUCACAAGCGCUGCGUGGAUGCAGUGAGUCCCAGUGCCGUCCAAACCGCAGCUUGCAACCAGGAUGCCGAAUCACAGAAAUUCCGAUGGGUGUCCGAAUCUCAGAUUAUGAGUGUUGCAUUUAAAUUAUGCCUGGGAGUGCCAUCAAAAACGGACUGGGUUGCUAUCACUCUCUAUGCCUGUGACUCAAAAAGUGAAUUUCAGAAAUGGGAGUGCAAAAAUGACACACUUUUGGGGAUCAAAGGAGAAGAUUUAUUUUUUAACUACGGCAACAGACAAGAAAAGAAUAUUAUGCUCUACAAGGGAUCGGGUUUAUGGAGCAGGUGGAAGAUCUAUGGAACCACAGACAAUCUGUGCUCCAGAGGUUAUGAAGCCAUGUAUACGCUACUAGGCAAUGCCAAUGGAGCAACCUGUGCAUUCCCGUUCAAGUUUGAAAACAAGUGGUACGCAGAUUGCACGAGUGCUGGGCGGUCGGAUGGAUGGCUCUGGUGCGGAACCACUACUGACUAUGACACAGACAAGCUAUUUGGAUAUUGUCCAUUGAAAUUUGAGGGCAGUGAAAGCUUAUGGAAUAAAGACCCGCUGACCAGCGUUUCCUACCAGAUAAACUCCAAAUCCGCUUUAACGUGGCACCAGGCGAGGAAAAGCUGCCAACAACAGAACGCUGAGCUCCUGAGCAUCACAGAGAUUCAUGAGCAAACAUACCUGACAGGAUUAACCAGUUCCUUGACCUCAGGACUCUGGAUUGGACUUAACAGUCUGAGCUUCAACAGCGGUUGGCAGUGGAGUGACCGCAGUCCUUUCCGAUAUUUGAACUGGUUACCAGGAAGUCCAUCAGCUGAACCUGGAAAAAGCUGUGUGUCACUAAAUCCUGGAAAAAAUGCUAAAUGGGAAAAUCUGGAAUGUGUUCAGAAACUGGGCUAUAUUUGCAAAAAGGGCAACACCACUUUAAAUUCUUUUGUUAUUCCCUCAGAAAGUGAUGUGCCUACUCACUGUCCUAGUCAGUGGUGGCCGUAUGCCGGUCACUGUUACAAGAUUCACAGAGAUGAGAAAAAAAUCCAGAGGGAUGCUCUGACCACCUGCAGGAAGGAAGGCGGUGACCUCACAAGUAUCCACACCAUCGAGGAAUUGGACUUUAUUAUCUCCCAGCUAGGAUAUGAGCCAAAUGACGAAUUGUGGAUCGGCUUAAAUGACAUUAAGAUUCAAAUGUACUUUGAGUGGAGUGAUGGGACCCCUGUAACGUUUACCAAAUGGCUUCGUGGAGAACCAAGCCAUGAAAACAACAGACAGGAGGAUUGUGUGGUGAUGAAAGGCAAGGAUGGGUACUGGGCAGAUCGGGGCUGUGAGUGGCCUCUUGGCUACAUCUGCAAGAUGAAAUCACGAAGCCAAGGUCCAGAAAUAGUGGAAGUCGAAAAAGGCUGCAGGAAAGGCUGGAAAAAACAUCACUUUUACUGCUAUAUGAUUGGACAUACGCUUUCAACAUUUGCAGAAGCAAACCAAACCUGUAAUAAUGAGAAUGCUUAUUUAACAACUAUUGAAGACAGAUAUGAACAAGCCUUCCUGACUAGUUUCGUUGGCUUAAGGCCUGAAAAAUAUUUCUGGACAGGACUUUCAGAUAUACAAACCAAAGGGACUUUUCAGUGGACCAUCGAGGAAGAGGUUCGGUUCACCCACUGGAAUUCAGAUAUGCCAGGGCGAAAGCCAGGGUGUGUUGCCAUGAGAACCGGGAUUGCAGGGGGCUUAUGGGAUGUUUUGAAAUGUGAUGAAAAGGCAAAAUUUGUGUGCAAGCACUGGGCAGAAGGAGUAACCCACCCACCGAAGCCCACGACGACUCCCGAACCCAAAUGUCCGGAGGAUUGGGGCGCCAGCAGUAGAACAAGCUUGUGUUUCAAGCUGUAUGCAAAAGGAAAACAUGAGAAGAAAACGUGGUUUGAAUCUCGAGAUUUUUGUCGAGCUCUGGGUGGAGACUUAGCUAGCAUCAAUAACAAAGAGGAACAGCAAACAAUAUGGCGAUUAAUAACAGCUAGUGGAAGCUACCACAAACUGUUUUGGUUGGGAUUGACAUAUGGAAGCCCUUCAGAAGGUUUUACUUGGAGUGAUGGUUCUCCUGUUUCAUAUGAAAACUGGGCUUAUGGAGAACCUAAUAAUUAUCAAAAUGUUGAAUACUGUGGUGAGCUGAAAGGUGACCCUACUAUGUCUUGGAAUGAUAUUAAUUGUGAACACCUUAACAACUGGAUUUGCCAGAUACAAAAAGGACAAACACCAAAACCUGAGCCAACACCAGCUCCUCAAGACAAUCCACCAGUUACUGAAGAUGGGUGGGUUAUUUACAAAGACUACCAGUAUUAUUUCAGCAAAGAGAAGGAAACCAUGGACAAUGCGCGAGCGUUUUGCAAGAGGAAUUUUGGUGAUCUUGUUUCUAUUCAAAGUGAAAGUGAAAAGAAGUUUCUAUGGAAAUAUGUAAACAGAAAUGAUGCACAGUCUGCAUAUUUUAUUGGUUUAUUGAUCAGCUUGGAUAAAAAGUUUGCUUGGAUGGAUGGAAGCAAAGUGGAUUACGUGUCUUGGGCCACAGGUGAACCCAAUUUUGCAAAUGAAGAUGAAAACUGUGUGACCAUGUAUUCAAAUUCAGGGUUUUGGAAUGACAUUAACUGUGGCUAUCCAAACGCCUUCAUUUGCCAGCGACAUAACAGUAGUAUCAAUGCUACCACAGUUAUGCCUACCAUGCCCUCGGUCCCAUCAGGGUGCAAGGAAGGUUGGAAUUUCUACAGCAACAAGUGUUUCAAAAUCUUUGGAUUUAUGGAAGAAGAAAGAAAAAAUUGGCAAGAGGCACGAAAAGCUUGUAUAGGCUUUGGAGGGAAUCUGGUCUCCAUACAAAAUGAAAAAGAGCAAGCAUUUCUUACCUAUCACAUGAAGGACUCCACUUUCAGUGCCUGGACUGGGCUGAAUGAUGUCAAUUCAGAACACACGUUCCUUUGGACGGAUGGACGAGGAGUCCAUUACACAAACUGGGGGAAAGGUUACCCUGGUGGAAGAAGAAGCAGUCUUUCUUAUGAAGAUGCUGACUGUGUUGUUAUUAUUGGAGGUGCAUCAAAUGAAGCAGGAAAAUGGAUGGAUGAUACCUGCGACAGUAAACGAGGCUACAUAUGCCAGACACGAUCCGACCCUUCCUUGACUAAUCCUCCAGCAACGAUUCAAACAGAUGGCUUUGUUAAAUAUGGCAAAAGCAGCUAUUCACUCAUGAGACAAAAAUUUCAAUGGCAUGAAGCGGAGACAUACUGCAAGCUUCACAAUUCCCUUAUAGCCAGCAUUCUGGAUCCCUACAGUAAUGCAUUUGCGUGGCUGCAGAUGGAAACAUCUAAUGAACGUGUGUGGAUCGCCCUGAACAGUAACUUGACUGAUAAUCAAUACACUUGGACUGAUAAGUGGAGGGUGAGGUACACUAACUGGGCUGCUGAUGAGCCCAAAUUGAAAUCAGCAUGUGUUUAUCUGGAUCUUGAUGGCUACUGGAAGACAGCACAUUGCAAUGAAAGUUUUUACUUUCUCUGUAAAAGAUCAGAUGAAAUCCCUGCUACUGAACCCCCACAACUGCCUGGCAGAUGCCCGGAGUCAGAUCACACAGCAUGGAUUCCUUUCCAUGGUCACUGUUACUAUAUUGAGUCCUCAUAUACAAGAAACUGGGGCCAAGCUUCUCUGGAAUGUCUUCGAAUGGGUUCCUCUCUGGUUUCCAUUGAAAGUGCUGCAGAAUCCAGUUUUCUGUCAUAUCGGGUUGAGCCACUUAAAAGUAAAACCAAUUUUUGGAUAGGAUUGUUCAGAAAUGUUGAAGGGACGUGGCUGUGGAUAAAUAACAGUCCGGUCUCCUUUGUCAACUGGAACACAGGAGAUCCCUCUGGUGAACGGAAUGAUUGUGUAGCUUUACAUGCGUCUUCUGGGUUUUGGAGUAAUAUUCACUGUUCAUCCUACAAAGGAUAUAUUUGUAAAAGACCAAAAAUUAUUGAUGCUAAACCUACUCAUGAAUUACUUACAACAAAAGCUGACACAAGGAAGAUGGACCCUUCUAAACCGUCUUCCAACGUGGCCGGAGUAGUCAUCAUUGUGAUCCUCCUGAUUUUAACGGGUGCUGGCCUUGCCGCCUAUUUCUUUUAUAAGAAAAGACGUGUGCACCUACCUCAAGAGGGCGCCUUUGAAAACACUCUGUAUUUUAACAGUCAGUCAAGCCCAGGAACUAGUGAUAUGAAAGAUCUCGUGGGCAAUAUUGAACAGAAUGAACACUCGGUCAUCUAGUACCUCAAUGCGAUUCUGAGAUAUUUGAAUUUCAUAAAAUUGUAACUGAAAUUUAAAAUUUUUAGUUCAAUGUGAUUGUUUUCUUUAAAAUGAGUACUGAAUUGUACUGGUCUGUCCUUUUUUCCUUUGCCUAAUUGAAGAAAUAAUUGCUUGUUUUCUAGCCUGGCAAGAUAUUUUCAUAAAAGAGGGAUAACAAUGCUGAUUACUACCUUUUAAAAUAUUUUAGAUAAAUGCACAGCACCACAGCACCACAUCUAAGCAUUAGUGAUGGGUAGCUGAUGUCAGCUUCAUGUGGAUUUUAAGCACUCUAGAAACAAUGAAGCUUCUUGGCAUAUUUUAAGGAGCUCCCAAAAUGUGUUACCUAUUAAAUUGUAACUCAGCAAGUAGAAGACCAUUUGAAAAGUCAGGUACAAAUUUCCUCAAGUGGCAUAAAAAUGUAGUCAGUUUUCUCUUUUACCAGUUUUUAUUUCCACUCCAAUUAUUUAGAACUUUAUUUGUACAUGUGCAGAAGAAUAAGGCAGCUGAGAAUCUUGUUUCCCCCAAGAGAGUUUUACAGGCUGAGUGUUGCAAAUGUGUUCUUUGUCCUGUUAUAUGUAUAUCAGGAAUACAAGGAUGUGAAAUAAAACUGUAAAUUUGCAUAACUGGAUGUACUUAGAUAAUGUGAAAUAAACAUUAAAGACAAGGUCUAUUUUUAAUAGA-3'- Poly-A tail
  • Coding region
NCBI Matured mRNA sequence viewer
;
More about the NCBI sViewer.
DNA
DNA (Gene ID: 4360)
MRC1
mannose receptor C-type 1
NC_000010.11
10  17809466.. 17910465
17809466.. 17910465
strand +
CCDS7123.2
MGI:97142
ClinVar, dbVar
ENSG00000260314
CLEC13D, CD206, bA541I19.1, CLEC13DL
uc031ptj.2
INSDC: J05550
7228
153618
OTTHUMG00000174646
ENA, DDBJ, Monarch
CD206
NCBI CDS Gene viewer
More about the NCBI sViewer.
NCBI CDS gene sequence (4371 bp)
5'-ATGAGGCTACCCCTGCTCCTGGTTTTTGCCTCTGTCATTCCGGGTGCTGTTCTCCTACTGGACACCAGGCAATTTTTAATCTATAATGAAGATCACAAGCGCTGCGTGGATGCAGTGAGTCCCAGTGCCGTCCAAACCGCAGCTTGCAACCAGGATGCCGAATCACAGAAATTCCGATGGGTGTCCGAATCTCAGATTATGAGTGTTGCATTTAAATTATGCCTGGGAGTGCCATCAAAAACGGACTGGGTTGCTATCACTCTCTATGCCTGTGACTCAAAAAGTGAATTTCAGAAATGGGAGTGCAAAAATGACACACTTTTGGGGATCAAAGGAGAAGATTTATTTTTTAACTACGGCAACAGACAAGAAAAGAATATTATGCTCTACAAGGGATCGGGTTTATGGAGCAGGTGGAAGATCTATGGAACCACAGACAATCTGTGCTCCAGAGGTTATGAAGCCATGTATACGCTACTAGGCAATGCCAATGGAGCAACCTGTGCATTCCCGTTCAAGTTTGAAAACAAGTGGTACGCAGATTGCACGAGTGCTGGGCGGTCGGATGGATGGCTCTGGTGCGGAACCACTACTGACTATGACACAGACAAGCTATTTGGATATTGTCCATTGAAATTTGAGGGCAGTGAAAGCTTATGGAATAAAGACCCGCTGACCAGCGTTTCCTACCAGATAAACTCCAAATCCGCTTTAACGTGGCACCAGGCGAGGAAAAGCTGCCAACAACAGAACGCTGAGCTCCTGAGCATCACAGAGATTCATGAGCAAACATACCTGACAGGATTAACCAGTTCCTTGACCTCAGGACTCTGGATTGGACTTAACAGTCTGAGCTTCAACAGCGGTTGGCAGTGGAGTGACCGCAGTCCTTTCCGATATTTGAACTGGTTACCAGGAAGTCCATCAGCTGAACCTGGAAAAAGCTGTGTGTCACTAAATCCTGGAAAAAATGCTAAATGGGAAAATCTGGAATGTGTTCAGAAACTGGGCTATATTTGCAAAAAGGGCAACACCACTTTAAATTCTTTTGTTATTCCCTCAGAAAGTGATGTGCCTACTCACTGTCCTAGTCAGTGGTGGCCGTATGCCGGTCACTGTTACAAGATTCACAGAGATGAGAAAAAAATCCAGAGGGATGCTCTGACCACCTGCAGGAAGGAAGGCGGTGACCTCACAAGTATCCACACCATCGAGGAATTGGACTTTATTATCTCCCAGCTAGGATATGAGCCAAATGACGAATTGTGGATCGGCTTAAATGACATTAAGATTCAAATGTACTTTGAGTGGAGTGATGGGACCCCTGTAACGTTTACCAAATGGCTTCGTGGAGAACCAAGCCATGAAAACAACAGACAGGAGGATTGTGTGGTGATGAAAGGCAAGGATGGGTACTGGGCAGATCGGGGCTGTGAGTGGCCTCTTGGCTACATCTGCAAGATGAAATCACGAAGCCAAGGTCCAGAAATAGTGGAAGTCGAAAAAGGCTGCAGGAAAGGCTGGAAAAAACATCACTTTTACTGCTATATGATTGGACATACGCTTTCAACATTTGCAGAAGCAAACCAAACCTGTAATAATGAGAATGCTTATTTAACAACTATTGAAGACAGATATGAACAAGCCTTCCTGACTAGTTTCGTTGGCTTAAGGCCTGAAAAATATTTCTGGACAGGACTTTCAGATATACAAACCAAAGGGACTTTTCAGTGGACCATCGAGGAAGAGGTTCGGTTCACCCACTGGAATTCAGATATGCCAGGGCGAAAGCCAGGGTGTGTTGCCATGAGAACCGGGATTGCAGGGGGCTTATGGGATGTTTTGAAATGTGATGAAAAGGCAAAATTTGTGTGCAAGCACTGGGCAGAAGGAGTAACCCACCCACCGAAGCCCACGACGACTCCCGAACCCAAATGTCCGGAGGATTGGGGCGCCAGCAGTAGAACAAGCTTGTGTTTCAAGCTGTATGCAAAAGGAAAACATGAGAAGAAAACGTGGTTTGAATCTCGAGATTTTTGTCGAGCTCTGGGTGGAGACTTAGCTAGCATCAATAACAAAGAGGAACAGCAAACAATATGGCGATTAATAACAGCTAGTGGAAGCTACCACAAACTGTTTTGGTTGGGATTGACATATGGAAGCCCTTCAGAAGGTTTTACTTGGAGTGATGGTTCTCCTGTTTCATATGAAAACTGGGCTTATGGAGAACCTAATAATTATCAAAATGTTGAATACTGTGGTGAGCTGAAAGGTGACCCTACTATGTCTTGGAATGATATTAATTGTGAACACCTTAACAACTGGATTTGCCAGATACAAAAAGGACAAACACCAAAACCTGAGCCAACACCAGCTCCTCAAGACAATCCACCAGTTACTGAAGATGGGTGGGTTATTTACAAAGACTACCAGTATTATTTCAGCAAAGAGAAGGAAACCATGGACAATGCGCGAGCGTTTTGCAAGAGGAATTTTGGTGATCTTGTTTCTATTCAAAGTGAAAGTGAAAAGAAGTTTCTATGGAAATATGTAAACAGAAATGATGCACAGTCTGCATATTTTATTGGTTTATTGATCAGCTTGGATAAAAAGTTTGCTTGGATGGATGGAAGCAAAGTGGATTACGTGTCTTGGGCCACAGGTGAACCCAATTTTGCAAATGAAGATGAAAACTGTGTGACCATGTATTCAAATTCAGGGTTTTGGAATGACATTAACTGTGGCTATCCAAACGCCTTCATTTGCCAGCGACATAACAGTAGTATCAATGCTACCACAGTTATGCCTACCATGCCCTCGGTCCCATCAGGGTGCAAGGAAGGTTGGAATTTCTACAGCAACAAGTGTTTCAAAATCTTTGGATTTATGGAAGAAGAAAGAAAAAATTGGCAAGAGGCACGAAAAGCTTGTATAGGCTTTGGAGGGAATCTGGTCTCCATACAAAATGAAAAAGAGCAAGCATTTCTTACCTATCACATGAAGGACTCCACTTTCAGTGCCTGGACTGGGCTGAATGATGTCAATTCAGAACACACGTTCCTTTGGACGGATGGACGAGGAGTCCATTACACAAACTGGGGGAAAGGTTACCCTGGTGGAAGAAGAAGCAGTCTTTCTTATGAAGATGCTGACTGTGTTGTTATTATTGGAGGTGCATCAAATGAAGCAGGAAAATGGATGGATGATACCTGCGACAGTAAACGAGGCTACATATGCCAGACACGATCCGACCCTTCCTTGACTAATCCTCCAGCAACGATTCAAACAGATGGCTTTGTTAAATATGGCAAAAGCAGCTATTCACTCATGAGACAAAAATTTCAATGGCATGAAGCGGAGACATACTGCAAGCTTCACAATTCCCTTATAGCCAGCATTCTGGATCCCTACAGTAATGCATTTGCGTGGCTGCAGATGGAAACATCTAATGAACGTGTGTGGATCGCCCTGAACAGTAACTTGACTGATAATCAATACACTTGGACTGATAAGTGGAGGGTGAGGTACACTAACTGGGCTGCTGATGAGCCCAAATTGAAATCAGCATGTGTTTATCTGGATCTTGATGGCTACTGGAAGACAGCACATTGCAATGAAAGTTTTTACTTTCTCTGTAAAAGATCAGATGAAATCCCTGCTACTGAACCCCCACAACTGCCTGGCAGATGCCCGGAGTCAGATCACACAGCATGGATTCCTTTCCATGGTCACTGTTACTATATTGAGTCCTCATATACAAGAAACTGGGGCCAAGCTTCTCTGGAATGTCTTCGAATGGGTTCCTCTCTGGTTTCCATTGAAAGTGCTGCAGAATCCAGTTTTCTGTCATATCGGGTTGAGCCACTTAAAAGTAAAACCAATTTTTGGATAGGATTGTTCAGAAATGTTGAAGGGACGTGGCTGTGGATAAATAACAGTCCGGTCTCCTTTGTCAACTGGAACACAGGAGATCCCTCTGGTGAACGGAATGATTGTGTAGCTTTACATGCGTCTTCTGGGTTTTGGAGTAATATTCACTGTTCATCCTACAAAGGATATATTTGTAAAAGACCAAAAATTATTGATGCTAAACCTACTCATGAATTACTTACAACAAAAGCTGACACAAGGAAGATGGACCCTTCTAAACCGTCTTCCAACGTGGCCGGAGTAGTCATCATTGTGATCCTCCTGATTTTAACGGGTGCTGGCCTTGCCGCCTATTTCTTTTATAAGAAAAGACGTGTGCACCTACCTCAAGAGGGCGCCTTTGAAAACACTCTGTATTTTAACAGTCAGTCAAGCCCAGGAACTAGTGATATGAAAGATCTCGTGGGCAATATTGAACAGAATGAACACTCGGTCATCTAG-3'
NCBI CDS gene sequence with introns (location: 17809466.. 17910465) (101000 bp)Download
NCBI Gene Viewer (CDS + introns)
NCBI CDS gene sequence with introns, 5'UTR and 3'UTR (location: 17809348.. 17911164) (101817 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions)
NCBI gene sequence (location: [17809348 - 1000].. 17911164) (102817 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions + 1000 dNTP to potentially reach the promotor)
How to cite: Schnider B., M'Rad Y., el Ahmadie J., de Brevern AG., Imberty A., Lisacek F., HumanLectome, an update of UniLectin for the annotation and prediction of human lectins, Nucleic Acids Reasearch doi.org/10.1093/nar/gkad905