KEGG   Macaca mulatta (rhesus monkey): 703220
Entry
703220            CDS       T01028                                 
Symbol
IGF2R
Name
(RefSeq) cation-independent mannose-6-phosphate receptor
  KO
K06564  insulin-like growth factor 2 receptor
Organism
mcc  Macaca mulatta (rhesus monkey)
Pathway
mcc03266  Virion - Herpesvirus
mcc04142  Lysosome
mcc04144  Endocytosis
Brite
KEGG Orthology (KO) [BR:mcc00001]
 09120 Genetic Information Processing
  09125 Information processing in viruses
   03266 Virion - Herpesvirus
    703220 (IGF2R)
 09140 Cellular Processes
  09141 Transport and catabolism
   04144 Endocytosis
    703220 (IGF2R)
   04142 Lysosome
    703220 (IGF2R)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04147 Exosome [BR:mcc04147]
    703220 (IGF2R)
   04090 CD molecules [BR:mcc04090]
    703220 (IGF2R)
   04091 Lectins [BR:mcc04091]
    703220 (IGF2R)
Exosome [BR:mcc04147]
 Exosomal proteins
  Exosomal proteins of haemopoietic cells  (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
   703220 (IGF2R)
CD molecules [BR:mcc04090]
 Proteins
  703220 (IGF2R)
Lectins [BR:mcc04091]
 P-type lectins
  703220 (IGF2R)
SSDB
Motif
Pfam: CIMR ATG27 Man-6-P_recep fn2 PRKCSH_1
Other DBs
NCBI-GeneID: 703220
NCBI-ProteinID: XP_014993117
Ensembl: ENSMMUG00000015658
UniProt: F6RDI1
LinkDB
Position
4:complement(10488719..10622044)
AA seq 2491 aa
MGAAAGRSSHLGPAPAGRPQRSLLLLQLLLLVAAPGATQAEATPFPELCSYTWEAVDTKN
NVLYKINICGSVDVVQCGPSSAVCMHDLKTHTYHSVGDSVLRSATRSLLEFNTTVSCDRP
GTNHRVQSSIAFLCGKTLGTPEFVTATECVHYFEWRTTAACKKDIFKAKKEVPCYVFDEE
LRKHDLNPLIKLSGAYLVDDSDPDTSLFINVCRDIDTLRDPGSQLRACPPGTAACLVRGD
QAFNVGQPQEGLKLVRKDRLVLSYVREEAGELDFCDGHSPAVTITFVCPSERREGTIPKL
TAKSNCRYEVEWITEYACHRDYLESKTCSLSGEQQDVSIDLTPLAQSGGSPYISDGKEYL
FYLNVCGETETQFCNKKQAAVCQVKRNNTSQVKAAGRYQNQTLRYSDGDLTLIYFGGDEC
SSGFQRMSVINFECNKTAGKDGKGNPVFTGEVDCTYFFTWDTKYACVKEKEDLLCGAVDG
KKRYDLSALVRHAEPEQNWEAVDGSQTETEKKHFFINICHRVLQAGKARGCPEDAAVCAV
DKNGSKNLGKFISSPTKEKGNIQLSYSDGDDCGHGKKIRTNITLVCKPGDLESAPVLRTS
GEGGCFYEFEWHTAAACVLSKTEGENCTVFDSQAGFSFDLSPLTKKNGAYKVETKKYDFY
INVCGPVSVSPCQPDSGACQVAKSDEKTWNLGLSNAKLSYYDGMIQLNYRGGTPYNNERH
TPRATLITFLCDRDAGVGFPEYQEEDNSTYNFRWYTSYACPEEPLECVVTDPSTLEQYDL
SSLAKSEGGPGGNWYAMDNSGEHVTWRKYYINVCRPLNPVPGCNRYASACQMKYEKDQGS
FTEVVSISNLGMAKTGPTIEDSGSLLLEYVNGSTCTTSDGRQTTYTTRIHLVCSRGRLNS
HPIFSLNWECVVTFLWNTEAACPIQTATDTDQACSIKDPNSGFVFNLNPLNSSQGYVFFN
IGKTFVFNVCGTMPVCGTIQGKPAFGCEAETQTEDLQNLKPERAVGIEKSLQLSTEGFIT
LTYKGPVSAKGSADAFIIRFVCNDGVYPAISRFLHQDIDSGQGIRNTYFEIETALACVPS
PVDCQVTDLAGNEYDLSGLSIVRKPWTAVDTSVDGRKRTFYLSVCSPLPDIPGCHGSAMG
SCLVSEVNNWNLGVVQMSPQAAANGSLSIMYVNGDKCGNQRFSTRITFECAQISGSPTFQ
LQDGCEYVFIWRTVEACPIVRVEGDNCEVKDPRHGNLYDLKPLGLNDTIVSAGEYTYYFR
VCGKLSSDVCPTSDKSRVVSSCQEKREPQGFHKVAGLLTQKLTYENGLLKMNFTGGDTCH
KVYQRSTAIFFYCDRSTQQPVFLKETSDCSYLFEWRTQYACPPFDVTECSFKDGTGNSFD
LSSLSRYSENWEAITATGDPEHYLINVCKSLAPHGGTEPCPPEAAACLLGSSKPVNLGRV
RDGPQWRDGVIVLKYVDGDLCPDGIRKKSTTIRFTCNENQVNSRPMFISAVEDCEYTFAW
PTATACPVQNNEHDDCQVTNPSTGHLFDLTSLSGRAGFTAAYSEKGLVYMSICGENENCP
PGVGACFGQTRISVGKASKRLRYVDQVLQLVYKDGSPCPSKSGLSYKSVISFVCRPEAGP
TNRPMLISLDKQTCTLFFSWHTPLACEQATECSVRNGSSIVDLSPLIHRTGGYEAYDESE
DDASDTNPDFYINICQPLNPMHGVPCPAGAAVCKVPIDGPPIDIGRVAGPPILNPVANEI
YLNFESSTPCLADKHFNYTSLIAFHCKRGVSMGTPKLLRTSECDFVFEWETPVVCPDEVR
TEGCALTDEQLLYSFNLSSLSTSTFKVTRDSRTYSVGVCTAAAGPEQGGCKDGGVCLLSG
TKGASFGRLQSMKLDYRHQDEAVVLSYVNGDRCPPETDEGIPCVFPFTFNGKSYEECVIE
SRAKLWCSTTADYDRDHEWGFCRHSNSHRTSSIIFKCDEDEDIGRPQVFSEVRGCDVTFE
WKTKVVCPPKKMECKFIQKHKTYDLRLLSSLTGSWSLVHDGVSYYINLCQRIYKGPLGCS
ERASICRRSTTGDVQVLGLVHTQKLDVIGDKVVVTYSRGYPCGGNKTASSVIELTCTKTV
GRPAFKRFDIDSCTYYFSWDSRAACAVKPQEVQMVNGTITNPINGKSFSLGDIYFKLFRA
SGDMRTNGDNYLYEIQLSSITSSRNPACSGANICQVKPDDQHFSRKVGTSDKTKYYLQDG
DLDVVFASSSKCGKDKTKSVSSTIFFHCDPLVEDGIPEFSHETADCQYLFSWYTSAVCPL
GVGFDNENPGDDEQVHKGLSERSQAVGTVLSLLLVALTGCLLALLLYKKERRETVISKLT
TCCRRSSNVSYKYSKVNKEEETDENETEWLMEEIQLPSPRQGKEGQENGHITTKSVKALS
SLHGDDQDSEDEVLTIPEVKVHSGRGAGAESSHPLRNPQSSALQEREDDRAGLVRGEKAR
KGKFRSAQQKTVSSTKLVSFHDDSDEDLLHI
NT seq 7476 nt   +upstreamnt  +downstreamnt
atgggggccgccgccggccggagctcccacctggggcccgcgcccgccggccgcccgcag
cgctctctgctcctgctgcagctgctgctgctcgtcgcggcaccgggggccacgcaggcc
gaggccaccccgttccccgagctgtgcagttatacatgggaagctgttgataccaaaaat
aatgtactttataaaatcaacatctgtggaagtgtggatgttgtccagtgcgggccatca
agtgctgtttgtatgcatgacttgaagacacacacttaccattcagtgggtgactctgtt
ttgagaagtgcaaccagatctctcctggaattcaacacaacagtgagctgtgaccggcca
ggcacaaatcacagagtccagagcagcattgccttcctgtgtgggaaaaccctgggaact
cctgaatttgtaaccgcaacagaatgtgtgcactactttgagtggaggaccactgcagcc
tgcaagaaagacatatttaaagcaaaaaaggaggtgccgtgctatgtgtttgatgaagag
ttgaggaagcatgatctcaatcctctgatcaagcttagtggtgcctacttggtggatgac
tccgatccggacacttctctattcatcaatgtttgtagagacatagacacacttcgagac
ccaggttcacagctgcgggcctgtccccctggcactgccgcctgcctggtaagaggagac
caggcgttcaatgttggccagccccaggaaggactgaagctggtgcgcaaggacaggctt
gtcctgagttacgtgagggaagaggcaggagagctagacttttgtgacggtcacagcccc
gcagtgactattacgtttgtttgcccgtcggaacggagagagggcaccattcccaaactc
actgctaaatccaactgccgctatgaagttgagtggattactgagtatgcctgccacaga
gattacctggaaagcaaaacttgttctctgagcggtgagcagcaggacgtctccatagac
ctcacaccacttgcccagagcggaggttcgccctatatttcagatggaaaagaatatttg
ttttatctgaatgtctgtggagaaactgaaacacagttctgtaataaaaagcaagctgcg
gtttgccaagtgaaaaggaacaatacgtctcaagtcaaagcagcaggaagataccagaat
cagaccctccgatattcggatggagacctcaccttgatatattttggaggcgatgaatgc
agctcagggtttcagcggatgagcgtcataaactttgagtgcaataaaaccgcaggtaaa
gatgggaaaggaaatcctgtattcacaggagaggttgactgcacctacttcttcacatgg
gacacgaaatacgcctgtgttaaggagaaggaagaccttctctgcggtgccgtcgacggg
aagaagcgctacgacctgtccgcgctggtccgccacgcagaaccagagcagaattgggaa
gccgtggatggcagccagacggaaacagagaagaagcattttttcattaatatctgtcac
agagtgctgcaggcaggcaaggcgcgcgggtgccccgaggatgcggcagtgtgcgcagtg
gataagaatggaagtaaaaatctgggaaaatttatttcttctcccacaaaagagaaaggc
aacattcaactctcttattcagatggtgatgattgtggtcatggcaagaaaataagaact
aatatcacacttgtatgcaagccaggtgatctggaaagtgcaccagtgttgagaacttct
ggggaaggcggttgcttttatgagtttgagtggcacacagctgcggcctgtgtgctgtcg
aagacagaaggggagaactgcacggtctttgactcccaggcagggttttcttttgacttg
tcacctctcacaaagaaaaatggtgcctataaagttgagacaaagaagtatgacttttat
ataaatgtgtgtggcccagtgtctgtgagcccctgtcagccagactcaggagcctgccag
gtggcaaaaagtgacgagaagacttggaacttgggactgagtaatgcgaagctttcgtat
tatgatgggatgatccaactgaactacagaggcggcacgccttataacaacgaaagacac
acaccgagagctacgctcatcacctttctctgtgatcgagacgccggggtgggcttccct
gaatatcaggaagaggataactccacctacaacttccggtggtacaccagctatgcctgc
ccggaggagcccctggagtgcgtggtgaccgacccctccacactggagcagtacgacctc
tccagtctggcaaaatctgaaggtggccctggaggaaactggtacgccatggacaactca
ggggaacatgtcacgtggaggaaatactacattaacgtgtgtcggcctctgaatccagtg
ccgggctgcaaccggtatgcatcggcttgccagatgaagtatgaaaaagatcagggctcc
ttcactgaagtggtttccatcagtaacttgggaatggcaaagactggcccgacgattgag
gacagcggcagcctcctcctggaatacgtgaatggatcgacctgcaccaccagcgacggc
agacagaccacatacaccacgaggatccatctcgtctgctccaggggcaggctgaacagc
caccccatcttttctctcaactgggagtgtgtggtcactttcctgtggaacacagaggct
gcctgtcccatccagacagcaacggatacagaccaggcttgctctataaaggatcccaac
agtggatttgtatttaatcttaacccactaaacagttcgcaaggatatgtgttcttcaac
attgggaagacttttgtgtttaatgtctgcggcacaatgcctgtctgtgggaccatccag
ggaaaacctgcttttggctgtgaggcagaaacccaaactgaagatctccagaatctgaag
ccagaaagggcagtcggaattgagaaaagcctccagctgtctacagagggcttcatcact
ctgacctacaaagggcctgtctctgccaaaggttctgctgatgcttttatcatccgcttt
gtttgcaatgatggtgtttacccagcgatctccagattcctgcatcaagacatcgactct
gggcaagggatccgaaacacttactttgagattgaaactgcattggcctgtgttccttct
ccagtggactgccaagtcactgacctggctggaaatgagtacgacctgagtggcttaagc
atagtcaggaagccttggacggctgttgacacctctgtcgatgggaggaagaggactttc
tatttgagtgtgtgcagtcctctccctgacattcctggatgccatggcagcgcaatgggg
tcttgcttagtgtcagaagtcaataactggaacctgggtgtggtgcagatgagtccccaa
gctgcggcaaatggatctttgagcatcatgtatgtcaacggtgacaagtgtgggaaccag
cgcttctccaccaggatcacgtttgagtgtgctcagatatcgggctcaccaacgtttcag
cttcaggatggctgtgagtacgtgtttatctggagaactgtggaagcctgtcccattgtc
agagtggaaggagacaactgtgaggtgaaagacccaaggcatggcaacttgtatgacctg
aagcccctgggcctcaacgacaccatcgtgagtgccggcgaatacacctattacttccgg
gtctgtgggaagctttcctcagacgtctgcccaacaagtgacaagtccagggtggtctcc
tcctgtcaggaaaagcgggaaccgcagggatttcacaaagtggcaggtctcctgactcag
aagctaacttacgaaaatggcttgttaaaaatgaacttcactgggggagacacttgccat
aaggtttatcagcgctccacagccatcttcttctactgtgaccgcagcacccagcagcca
gtgtttctaaaggagacttcagattgttcctacttgtttgagtggcgaacgcagtatgcc
tgcccacctttcgatgtgactgaatgttcattcaaagatggaactggcaactccttcgac
ctctcgtccctgtcaaggtacagtgagaactgggaagccatcactgcgacgggagacccg
gagcactacctcatcaatgtctgcaagtctctggccccgcatggcggcactgagccatgc
cctccagaagcagccgcgtgcctgctgggtagctccaagcccgtgaacctcggcagggta
agggacggacctcagtggagagatggcgtaattgtcctgaaatacgtcgatggcgactta
tgtccagacgggattcggaaaaagtcaaccaccatccgattcacctgcaacgagaaccag
gtgaactccaggcccatgttcatcagcgccgtggaggactgtgagtacaccttcgcctgg
cccacagccacagcctgtcctgtgcagaacaacgagcatgacgactgccaggtcaccaac
ccaagcacaggacacctgtttgatctgacctccttaagtggaagggcgggattcacagct
gcttacagcgagaaggggctggtctacatgagcatctgtggggagaatgaaaactgccct
cctggcgtgggggcctgctttggacagaccaggatcagcgtgggcaaggccagcaagagg
ctgagatatgtggaccaggtcctgcagctggtgtacaaggacgggtccccttgtccctcc
aaatccggcctgagctataagagcgtgatcagtttcgtgtgcaggcctgaggccgggcca
accaataggcccatgcttatctccctggacaagcagacgtgcactctcttcttctcctgg
cacacgccactggcctgcgagcaagcgacggaatgttccgtgaggaatggaagctctatt
gttgacttgtctcctctcattcatcgcacgggtggttatgaggcttacgatgagagtgag
gatgacgcctccgataccaacccggatttctacatcaatatttgtcagccactaaatccc
atgcacggagtgccttgtcctgctggagccgctgtgtgcaaagttcctattgatggtccc
cccatagatatcggccgggtcgcaggaccaccaatactcaatccggtagcgaatgagatt
tacttgaattttgaaagcagtactccttgcttagcggacaagcatttcaactacacctcg
ctcatcgcgtttcactgtaagagaggcgtgagcatgggaacgcctaagctgttaaggacc
agcgagtgtgactttgtgttcgaatgggagactccggtcgtctgtcctgatgaagtgagg
acggaaggctgtgccctgacggatgagcagctcctctacagcttcaacttgtccagcctc
tccacgagcacctttaaggtgactcgagactcacgcacctacagcgttggggtgtgcacc
gctgcggccgggccagaacaaggaggctgtaaggatggaggagtctgtctgctctcgggc
accaagggggcatcctttggacggctgcagtcaatgaaactggattaccggcaccaggat
gaagctgtcgtgttaagttatgtgaatggtgatcgttgccctccagaaactgatgaaggc
atcccctgcgtcttccccttcacattcaacgggaagagctacgaggagtgtgtcatagag
agcagggcaaagctgtggtgcagcacaacggcggactacgacagagaccacgagtggggc
ttctgcagacactcaaacagccaccggacatccagcatcatatttaagtgtgatgaagac
gaggacattgggaggccacaagtcttcagtgaagtgcgtgggtgtgatgtgacatttgaa
tggaaaacgaaagttgtttgccctccaaagaagatggagtgcaaattcatccagaaacac
aaaacctacgacctgcggctgctctcctctctcaccgggtcctggtccctggtccacgac
ggagtctcgtactatataaatctgtgccagagaatatataaaggacccctgggctgctct
gaaagggccagcatttgcagaaggagcacaactggtgacgtccaggtcctgggactcgtt
cacacgcagaagctggatgtcataggtgacaaggtggttgtcacgtactccagaggttat
ccgtgtggtggaaataagaccgcatcctccgtgatagaattgacctgtacaaagacggtg
ggcagacctgcattcaagaggtttgatatcgacagctgcacttactacttcagctgggac
tcccgggctgcctgcgctgtgaagcctcaggaggtgcagatggtgaatgggaccatcacc
aaccctataaatggcaagagcttcagcctcggagatatttattttaagctgttcagagcc
tctggggacatgaggaccaatggggacaactacctgtatgagatccagctttcctccatc
acgagctccagaaacccggcgtgctctggagccaacatctgccaggtgaagcccgacgat
cagcacttcagccggaaagtcggcacctctgacaagaccaagtactacctgcaagacggc
gatcttgatgtcgtgtttgcctcttcttctaaatgcggaaaggataagaccaagtctgtt
tcttccaccatcttcttccactgtgaccctctggtggaggacgggatccccgagttcagt
cacgagactgccgactgccagtacctcttctcttggtacacctcagcagtgtgtcctctg
ggggtgggctttgacaacgagaatcctggggacgacgagcaggtgcacaaggggctgtcg
gagcggagccaggcggtcggcacggtgctcagcctgctgctggtggcactcactggctgc
ctgctggccctcctgctctacaagaaggagaggagggaaacagtgataagtaagctgacc
acttgctgcaggagaagttccaacgtgtcctacaaatactcaaaggtgaacaaggaagaa
gagacagatgagaacgaaacagagtggttgatggaagagatccagctgccttctccacgg
cagggaaaggaagggcaggagaacggccatattaccaccaagtctgtgaaagccctcagc
tccctgcatggggatgaccaggacagtgaggatgaggttctgaccatcccagaggtgaaa
gttcactcgggcaggggagctggggcagagagctcccacccactgagaaacccacagagc
agcgcccttcaggagcgtgaggacgatagggcagggctggtcaggggtgagaaggcgagg
aaagggaagttcaggtctgcacagcagaagacagtgagctccaccaagctggtgtccttc
catgacgacagcgacgaggacctcttacacatctga

KEGG   Macaca mulatta (rhesus monkey): 716696
Entry
716696            CDS       T01028                                 
Symbol
M6PR
Name
(RefSeq) cation-dependent mannose-6-phosphate receptor isoform X2
  KO
K10089  cation-dependent mannose-6-phosphate receptor
Organism
mcc  Macaca mulatta (rhesus monkey)
Pathway
mcc04142  Lysosome
mcc04145  Phagosome
mcc05132  Salmonella infection
Brite
KEGG Orthology (KO) [BR:mcc00001]
 09140 Cellular Processes
  09141 Transport and catabolism
   04145 Phagosome
    716696 (M6PR)
   04142 Lysosome
    716696 (M6PR)
 09160 Human Diseases
  09171 Infectious disease: bacterial
   05132 Salmonella infection
    716696 (M6PR)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04147 Exosome [BR:mcc04147]
    716696 (M6PR)
   04091 Lectins [BR:mcc04091]
    716696 (M6PR)
Exosome [BR:mcc04147]
 Exosomal proteins
  Exosomal proteins of haemopoietic cells  (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
   716696 (M6PR)
Lectins [BR:mcc04091]
 P-type lectins
  716696 (M6PR)
SSDB
Motif
Pfam: Man-6-P_recep ATG27 CIMR
Other DBs
NCBI-GeneID: 716696
NCBI-ProteinID: XP_001114044
Ensembl: ENSMMUG00000017846
LinkDB
Position
11:10800978..10810919
AA seq 279 aa
MMFPFYNCWRTGLLLLLLLAVAVRESWQAEEKTCDLVGEKGKESEKELALVKRLKPLFNK
SFESTVGQGSDTYIYIFRVCREAGNHTSGAGLVQINKSNGKETVVGRLNETHIFNGSNWI
MLIYKGGDEYDNHCGKEQRRAVVMISCNRHTLADNFNPVSEERGKVQDCFYLFEMDSSLA
CSPEISHLSVGSILLVTFASLVAVYVVGGFLYQRLVVGAKGMEQFPHLAFWQDLGNLVAD
GCDFVCRSKPRNVPAAYRGVGDDQLGEESEERDDHLLPM
NT seq 840 nt   +upstreamnt  +downstreamnt
atgatgttccctttctacaactgctggaggactggactgctactgctgttacttctggcc
gtggcagtgagagaatcctggcaggcagaagaaaaaacttgcgacttggtaggagaaaag
ggtaaagagtcagagaaagaattggctctagtgaagaggctgaaaccactgtttaataaa
agctttgagagcactgtgggccagggttcagacacatacatctacatcttcagggtgtgc
cgggaagctggcaaccacacttctggggcaggcctggtgcaaatcaacaaaagtaatggg
aaggagacagtggtagggagactcaacgagactcacatcttcaacggaagtaattggatc
atgctgatctataaagggggtgatgaatatgacaaccactgtggcaaggagcagcgtcgt
gcagtggtgatgatctcctgcaatcgacacaccctagcggacaattttaaccctgtgtct
gaggagcggggcaaagtccaagattgtttctacctctttgagatggatagcagcctggcc
tgttccccagagatctcccacctcagtgtgggttctatcttacttgtcacgtttgcgtca
ctggttgctgtttatgttgttggggggttcctataccagcgactggtggtgggagccaaa
ggaatggagcagtttcctcacttagccttctggcaggatcttggaaatctggtagcagat
ggctgtgactttgtctgccgttctaaacctcgaaatgtgcctgcagcatatcgtggtgtg
ggggatgaccagctgggggaggagtcagaagaaagggatgaccatttattaccaatgtag

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