Entry |
|
Symbol |
C3
|
Name |
|
KO |
|
Organism |
aml Ailuropoda melanoleuca (giant panda)
|
Pathway |
aml04080 | Neuroactive ligand-receptor interaction |
aml04610 | Complement and coagulation cascades |
aml04613 | Neutrophil extracellular trap formation |
aml05150 | Staphylococcus aureus infection |
aml05167 | Kaposi sarcoma-associated herpesvirus infection |
aml05168 | Herpes simplex virus 1 infection |
|
Brite |
KEGG Orthology (KO) [BR:aml00001]
09130 Environmental Information Processing
09133 Signaling molecules and interaction
04080 Neuroactive ligand-receptor interaction
100472549 (C3)
09140 Cellular Processes
09141 Transport and catabolism
04145 Phagosome
100472549 (C3)
09150 Organismal Systems
09151 Immune system
04610 Complement and coagulation cascades
100472549 (C3)
04613 Neutrophil extracellular trap formation
100472549 (C3)
09160 Human Diseases
09161 Cancer: overview
05203 Viral carcinogenesis
100472549 (C3)
09172 Infectious disease: viral
05171 Coronavirus disease - COVID-19
100472549 (C3)
05168 Herpes simplex virus 1 infection
100472549 (C3)
05167 Kaposi sarcoma-associated herpesvirus infection
100472549 (C3)
09171 Infectious disease: bacterial
05133 Pertussis
100472549 (C3)
05134 Legionellosis
100472549 (C3)
05150 Staphylococcus aureus infection
100472549 (C3)
05152 Tuberculosis
100472549 (C3)
09174 Infectious disease: parasitic
05140 Leishmaniasis
100472549 (C3)
05142 Chagas disease
100472549 (C3)
09163 Immune disease
05322 Systemic lupus erythematosus
100472549 (C3)
09167 Endocrine and metabolic disease
04936 Alcoholic liver disease
100472549 (C3)
09180 Brite Hierarchies
09181 Protein families: metabolism
01002 Peptidases and inhibitors [BR:aml01002]
100472549 (C3)
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:aml04131]
100472549 (C3)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:aml04147]
100472549 (C3)
Peptidases and inhibitors [BR:aml01002]
Peptidase inhibitors
Family I39: alpha2M family
100472549 (C3)
Membrane trafficking [BR:aml04131]
Endocytosis
Phagocytosis
Opsonins
100472549 (C3)
Exosome [BR:aml04147]
Exosomal proteins
Exosomal proteins of other cancer cells
100472549 (C3)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
4:complement(4728651..4762072)
|
AA seq |
1663 aa
MGPASGPSLLLLLLLTGAPLVLGEPMFSMITPNILRLGNQETVVLEAHGMKENIAVTVTV
HDFPAKKQVLANEKTDLTSNNDYMSTVTISIPTDKELLSETGKSFVTIQAAFGATVVDKV
VLVSPQTGYLFIQTDKTIYTPGSTVFYRIFTVDHSLLPVGRSVIVVLQTPDGVPIKRDTL
SSQNQFGILSQSWNIPELVNMGQWKIQVHYEDAPQQVFSTEFEVKEYVLPSFEVHVEPAE
KFYYIDDPEGLEVTITARFLYGKNVDGTAFVIFGVQDGDHRISLAQSLTRVTIEDGTGEA
KLSRKVLLDGVHPSQPDALVGKSLYVSVTVVLHSGSDMVEAEYSGITIVTSPYQIHFTKT
PKYFKPAMPFDLMVFVTNPDGSPARHVPVEVQGTKAQALTQEDGVAKLTMNTPKDPLPLP
ITVTTKKDGIPQSRQATSKMEAQPYTTMTNVRNYLHLSVPRLELKPGETLNVNFHLRTDS
NQEQTITYYTYLIMNKGKILKVGRQKREPGQDLVVMPLTITADFIPSFRLVAYYTLIGSN
GQREVVADSVWVDVKDSCMGTLVVKVGRKDERPHLPGQQTILKIEGDPGARVGLVAVDKG
VFVLNKKNRLTQSKVWNVVEKADIGCTAGSGKDYAGVFTDAGLALKTNKNLQTTDRTILE
CPKPAARRRRSVRLMEKRLDKEGQYPKEVRKCCKDGMRDNPMKFSCERRAQFIFHEEQEK
CVKAFLECCNYITQLRLNHSHDGPLGLARSDLDEEIMPEEDIVSRSQFPESWLWTIENLN
EPEKNGISTKTINVFLKDSITTWEILAVSLSKDKGICVADPYEVTVMQDFFIDLRLPYSV
VRNEQVEIRAVLYNYQEVGELKVKVELLYNPAFCSMATSKKRYQQTIEIPAKSSVAVPYV
IVPLKVGLHEVEVKAAVYRHFISDGVKKTLKVVPEGVRVNKTVAVHTLNPQQEGKGGEQQ
VKVRAADLSDQVPDTDSETRILLQGTPVAQMAEDAIDADRLKHLIVTPSGCGEQNMIGMT
PTVIAVHYLDQTEQWEKLGLEKRQESLELIKKGYTQQLAFRQANSAFAAFAKRAPSTWLT
AYVVKVFSLAANLIAIDAQVLCGAVKWLIIEKQKPDGIFSEDGPVIHQEMTGGVRDSKEK
EVSLTAFVLIALKEAEDICEGQVNSLPNSINKAGQYLAAHYKNLRGSYSVAIAGYALAQL
DKLEGDLLRKFLSTAKDKKRWEEPGQKLYSVEATSYALLALLLLKDFDSAPPVVRWLNEQ
RYYGGGYGSTQATFMVFQALAQYQKDVPRHKDLNLEVSIKLPSRNSVIKHVIPWESASLL
RSEETKRNENFEVTARGKGEGTLSVVTMYYAKLKNQAYCKKFDLRVDIQRALENVKRPQD
AKSTMILNICTRYLGDQDATMSILDISMMTGFSPDLADLDGLSSGVEKYISKYELNKAFS
SKNTLIIYLEKISHMHEDCISFKVHQYFNVGLVQPGSVKVYSYYNLDENCVRFYHPEKED
GLLSKLCHKDMCRCAEENCFMHQADNVTPEYRLDKACEPGVDYVYKTRLLRKEPSDDFDD
YIMVIEQIIKSGSDEVQVSQERRFISHIKCREALKLQDGKHYLMWGVSSDLWGEKPHISY
IIGKDTWVELWPEAEECQDEENEKQCRDLASFTEDMIVFGCPN |
NT seq |
4992 nt +upstreamnt +downstreamnt
atggggcctgcctcaggccccagcctgctgctgctgctgctgctgaccggcgcccccctg
gtgctgggagaacccatgttctccatgatcacccccaacatcctgcggctggggaaccag
gagaccgtggtgttggaggcccacggcatgaaggagaacattgcagtcacggtcaccgtc
catgacttcccagccaagaagcaagtgctggccaatgagaaaaccgatctgaccagcaac
aatgactacatgagtaccgtcaccatcagtattccgaccgacaaggaattgctatcggag
acgggaaaaagtttcgtgactatccaggcggcctttggggccaccgtggtggataaggtg
gtgctggtcagtcctcagaccgggtacctcttcatccagacggacaagaccatctacacc
ccgggctccacggtcttctatcggatcttcaccgtggaccacagcctgctgcccgtgggt
cggagcgttattgtcgtcctccagacccccgatggtgttcccatcaagcgggacaccctg
tcttctcaaaaccagtttggcatcttgtcccagtcttggaacatcccagagctggtcaac
atggggcagtggaagatccaggtccactacgaagatgccccgcagcaggtcttctccact
gagttcgaggtgaaggaatacgtgctgcccagttttgaggtccacgtggagccagcagag
aaattctactatatcgatgacccagagggcctggaggtcaccatcacagccaggttcttg
tacgggaagaacgtggatggaacggccttcgtcatctttggggtccaggatggtgaccac
aggatttcgctggcccagtccctcacccgcgttacgattgaagatggcactggggaggcc
aagctgagccgaaaggtcctgctggacggggtgcacccctcccagccagatgccttggtg
gggaagtccttgtacgtgtcagtcactgttgtcttgcactcaggcagcgacatggtggag
gcggagtacagcgggatcaccatcgtgacctccccctaccagatccacttcaccaagaca
cccaagtacttcaaaccagccatgccctttgacctcatggtgttcgtgacaaaccctgac
ggctccccggcccgccacgtcccggtggaggtccaaggcaccaaagcacaggccttaacc
caggaagacggtgtggccaagctgaccatgaacacacccaaggacccactgcccctgccc
atcaccgtaaccacgaagaaggatggtatcccacagtctcgacaggccaccagtaaaatg
gaggcccaaccctacaccaccatgaccaacgtcagaaactacctgcatctctccgtgcct
cgcttggagctcaagccaggggaaacgctcaatgtcaatttccacctgcgaacggactcc
aaccaggagcagaccatcacctattacacctacctgatcatgaacaaagggaagattttg
aaggtgggccgccagaagcgggaacctggccaggacctggtcgtaatgcccctgaccatc
actgcggacttcattccttccttccgcctagtggcttattacacactcattggcagcaac
ggccagagagaggtggtggccgattccgtgtgggtggatgtcaaggactcatgtatgggc
acgctggtggtgaaagttggcaggaaggacgagaggccacacctacccggacagcagacg
atcctcaagatcgagggtgacccaggggcccgagtggggctggtagcggtggacaagggt
gtgttcgtgctgaacaagaagaacaggctgactcagagcaaggtctggaatgtggtggag
aaggcagacatcggctgcacggccggcagcgggaaggactatgccggcgtcttcaccgac
gcagggctggccctcaagaccaacaaaaacctgcagaccaccgacaggacaattcttgag
tgccccaaaccagccgcccggcgccgccgctccgtccggctcatggagaagaggctcgac
aaagagggccagtacccgaaggaggtgcgcaagtgctgcaaggacggcatgcgggacaac
cccatgaagttctcctgcgagcgccgggcccagttcatcttccacgaggagcaggagaag
tgcgtgaaggccttcctcgaatgctgcaactatatcacccagctgcggctcaaccacagc
cacgacgggcccctggggctggccaggagtgacttggatgaggagataatgccagaagag
gacatcgtttcccgaagccagttccctgagagctggctgtggaccatagagaatctcaac
gaacccgagaaaaatggaatctccacgaagaccattaatgtgtttttgaaagactccatc
accacttgggagatcctggctgtgagcttgtcgaaggacaaagggatctgcgtggctgac
ccctatgaggtcacagtgatgcaagacttctttattgacctgcggctaccctactccgtc
gtgcgcaatgagcaggtggagatccgagccgtgctctacaattaccaggaagtgggggag
ctcaaggtcaaggtggaactgctctacaatccagccttctgcagcatggccacctccaag
aagcgctaccaacagactatagaaatcccagccaagtcctcagtggccgtgccttatgtc
attgtgcctctgaaggtcggcctacatgaggtggaggtcaaggccgccgtctacaggcat
ttcatcagcgatggtgtcaagaagaccttgaaggtcgtgccggaaggagtcagagttaac
aagactgtggccgttcacacactgaacccccaacaggagggcaaagggggagagcagcaa
gtgaaggtccgtgccgcagacctcagcgaccaagtcccagacacagattctgagaccagg
atcctcctgcaagggaccccggtggctcagatggcagaggacgccatcgacgcggaccgt
ctgaagcacctcatcgtgaccccgtcgggctgcggggagcaaaacatgattggcatgacg
cccaccgtcatcgccgtgcattacctggaccaaacggagcagtgggagaagctcggcctg
gagaaacggcaggagtccttggagctcatcaagaaggggtacacccagcagctggccttc
agacaagctaactcggccttcgccgccttcgcgaagcgggcgcccagcacctggctgaca
gcctacgtggtcaaggtcttctctctggccgccaacctcattgccatcgacgcccaggtc
ctctgtggggcggtcaaatggctgatcatcgagaagcagaagcccgacgggatcttcagc
gaggacgggccagtgattcaccaagagatgactggtggcgtccgggattctaaggagaag
gaggtgtccctcacagcctttgttctcattgcactgaaagaggctgaagatatttgcgaa
ggacaggtcaacagcctgccgaacagcatcaataaggccggacaatatcttgcagcccac
tacaagaacctgcggggatcatattctgtggccattgctggctacgccctcgcccagcta
gacaagctggagggagaccttctcagaaaatttctgagcacagccaaagacaagaagcgc
tgggaggagcctggccagaagctctacagtgtggaggccacgtcctatgcactcctggcc
ctgctgctgctcaaagacttcgactctgcacctccggtcgtgcgctggctcaatgagcaa
agatactacggaggtggctatggctcgacccaggccaccttcatggtattccaagccttg
gcccaataccagaaggatgtccctcgccacaaggacctgaacctggaggtgtccatcaaa
ctgcccagccgaaactctgtcatcaagcacgtcatcccctgggaatctgcgagcctcctg
cggtcagaagagaccaagagaaatgagaatttcgaagtaacagctcgaggaaaaggagaa
ggcaccttgtcggtggtgacaatgtactatgccaagctcaaaaaccaagcatactgcaag
aaatttgacctcagggttgacatacaacgagcccttgaaaatgtcaagaggcctcaggac
gccaagagcaccatgattcttaacatctgtaccaggtacctgggagaccaggatgctacc
atgtcgatcctggatatatccatgatgactggcttttctcctgaccttgctgacctcgac
gggttgagcagtggtgtcgagaaatacatctctaagtatgagctgaataaggccttctcc
agtaagaacaccctcatcatctacttggagaagatctcccacatgcacgaggactgcata
tccttcaaagtgcaccagtacttcaatgtggggctggtccagcctggatcggtcaaggtg
tactcctattacaacctggatgagaattgcgtccggttctaccacccagagaaagaagac
gggctgctgagcaagctctgccacaaggacatgtgtcgctgtgctgaggagaactgcttc
atgcaccaggcggacaacgtcaccccagagtaccggctggacaaggcctgtgagccgggc
gtagactacgtgtacaagacccggctcctccggaaggagccctcagacgactttgacgac
tacatcatggtcatcgagcagatcatcaaatcaggctcggacgaggtgcaggtctcccag
gaacgcaggttcatcagccacattaagtgcagagaagcgctgaagctgcaggacgggaaa
cactacctaatgtggggcgtgtcctccgacctgtggggagagaaaccccacatcagctac
atcatcgggaaggacacgtgggtggagctgtggcccgaggccgaggaatgccaggacgag
gagaatgagaaacagtgccgcgacttggccagcttcacggaggacatgatcgtctttggc
tgtcccaactga |