| Entry |
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| Symbol |
Thbs3
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| Name |
(RefSeq) thrombospondin-3 isoform X1
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| KO |
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| Organism |
mmma Marmota marmota marmota (Alpine marmot)
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| Pathway |
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| Brite |
KEGG Orthology (KO) [BR:mmma00001]
09130 Environmental Information Processing
09132 Signal transduction
04151 PI3K-Akt signaling pathway
107156724 (Thbs3)
09133 Signaling molecules and interaction
04512 ECM-receptor interaction
107156724 (Thbs3)
09140 Cellular Processes
09141 Transport and catabolism
04145 Phagosome
107156724 (Thbs3)
09144 Cellular community - eukaryotes
04510 Focal adhesion
107156724 (Thbs3)
09142 Cell motility
04820 Cytoskeleton in muscle cells
107156724 (Thbs3)
09160 Human Diseases
09172 Infectious disease: viral
05165 Human papillomavirus infection
107156724 (Thbs3)
09174 Infectious disease: parasitic
05144 Malaria
107156724 (Thbs3)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:mmma04131]
107156724 (Thbs3)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:mmma04147]
107156724 (Thbs3)
00536 Glycosaminoglycan binding proteins [BR:mmma00536]
107156724 (Thbs3)
Membrane trafficking [BR:mmma04131]
Endocytosis
Phagocytosis
Opsonins
107156724 (Thbs3)
Exosome [BR:mmma04147]
Exosomal proteins
Exosomal proteins of other body fluids (saliva and urine)
107156724 (Thbs3)
Exosomal proteins of colorectal cancer cells
107156724 (Thbs3)
Exosomal proteins of bladder cancer cells
107156724 (Thbs3)
Glycosaminoglycan binding proteins [BR:mmma00536]
Heparan sulfate / Heparin
Extracellular matrix molecules
107156724 (Thbs3)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
Unknown
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| AA seq |
956 aa
METQKLRGALALLLLCSFASASQDLQVIDLLTLGESRQMVAVAEKIRTALLTAGDIYLLS
TFRLPPKQGGVLFGLYSRQDNTRWLEASVVGKINKVLVRYQREDGKVHAVNLQQAGLADG
RTHTALLRLRGPSRPSPGLQLYVDCKLGDQHAGLPALAPIPPAEVSGLEIRTGQKAYLRM
QGFVESMKIILGGSMARVGALSECPFQGDESIHSAVASALQSILGEQTKALVTQLTLFNQ
ILVELRDDIRDQVKEMSLIRNTIMECQVCGFHEQRSHCSPNPCFRGVDCMEVYEYPGYRC
GPCPPGLQGNGTHCDDINECAHADPCFPGSSCINTMPGFHCEACPRGYKGTRVSGVGIDY
ARASKQVCNDIDECNDGNNGGCDPNSICTNTMGSFRCGPCRQGFLGNQTQGCLPARTCFS
PAHSPCHVHAHCLFERNGAVSCQCNVGWAGNGNVCGPDTDIDGYPDQALPCMDNNKHCKQ
DNCLLTPNSGQEDADNDGVGDQCDEDADGDGIKNVEDNCRLFPNKDQQNSDTDSFGDACD
NCPNVPNNDQKDTDGNGEGDACDNDVDGDGIPNGLDNCPKVPNPLQTDRDADGVGDACDS
CPEMSNPTQTDADSDLVGDVCDTNEDSDGDGHQDTKDNCPQLPNSSQLDSDNDGLGDECD
GDDDNDGVPDYVPPGPDNCRLVPNPNQKDSDGNGVGDVCEDDFDNDAVVDPLDVCPESAE
VTLTDFRAYQTVVLDPEGDAQIDPNWVVLNQGMEIVQTMNSDPGLAVGYTAFNGVDFEGT
FHVNTVTDDDYAGFLFSYQDSGRFYVVMWKQTEQTYWQATPFRAVAQPGLQLKAVTSVSG
PGEHLRNALWHTGHTPDQVRLLWTDPRNVGWRDKTSYRWQLLHRPQVGYIRVKLYEGPQL
VADSGVIIDTSMRGGRLGVFCFSQENIIWSNLQYRCNDTVPEDFEPFRRQLLQGRV |
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| NT seq |
2871 nt +upstreamnt +downstreamnt
atggagacgcagaaacttcggggggccctggctcttctcctcctttgctctttcgcatcc
gctagtcaggatctgcaggtaattgacctgctgactctgggtgagtcccggcaaatggta
gctgtggcagagaagatccggacagctctacttactgctggggacatctacctcttgtcc
acattccgcctgccccctaagcagggtggtgtcctctttggcctctactctcgccaagac
aacacgcgatggctggaggcctctgttgtgggcaagatcaacaaagtactggtgcggtac
cagcgggaagatggcaaagtccacgcagtgaacctacagcaagcaggcctggctgatggc
cgcacacacacagctctcctgcgactccgaggtccctcccgacccagccctggcttgcag
ctctacgtggactgcaaactgggtgaccaacatgccggcctcccagcactggcccccatt
cctccagcagaggtcagtgggctggagattaggaccggacagaaggcttatttgaggatg
cagggctttgtggaatcaatgaaaattattctgggcgggtccatggcccgtgtaggagcc
ctgagtgaatgtcccttccaaggggatgaatccatccacagtgcagtggccagtgcactg
caatccattctaggagagcagactaaggcgctggtcacccaactcaccctcttcaaccag
atcctggtggagctgcgggatgatatccgagaccaggtgaaggaaatgtctttgatccga
aacaccatcatggagtgtcaggtgtgcggcttccatgaacagcgttcccactgcagcccc
aacccctgcttccgaggtgtggactgcatggaagtgtatgagtatcctggctaccgctgt
gggccttgtcccccaggcctgcagggcaacggcacccactgcgatgacatcaatgagtgt
gctcacgctgacccctgtttcccgggctccagctgcatcaacactatgcccggcttccac
tgtgaggcctgtcctcgaggctacaagggcacccgggtgtctggtgtgggaattgactat
gcccgggccagcaaacaggtctgcaatgacattgatgaatgcaacgatggtaacaatggt
ggctgtgacccaaactccatctgcaccaacaccatgggatctttcagatgtggtccctgc
cgccagggtttcctgggcaaccagacccagggctgcctcccagcaaggacctgcttcagc
ccagcccacagcccctgccatgttcatgctcactgtctctttgaacgaaatggtgcagtg
tcctgccagtgtaatgtgggctgggccgggaacgggaacgtgtgcgggcctgacacggac
attgacggctacccggatcaggcgctgccctgcatggataacaacaaacactgcaagcag
gacaactgccttttgacacctaactctgggcaagaagatgctgacaatgatggcgtgggg
gaccagtgtgatgaagacgctgacggggatgggatcaagaatgttgaggacaactgccga
ctgtttcccaacaaggaccagcagaactcagatacagattcatttggtgatgcctgtgac
aactgccccaatgttcccaacaatgaccagaaggatacagatggcaatggagaaggagac
gcctgtgacaacgatgtggatggggatggcatccccaatggattggacaattgccctaaa
gtacctaacccgctacagacagacagggatgcggatggggtgggagatgcttgtgacagc
tgccctgaaatgagcaatcctacccagacagatgcagacagtgacctggtgggagatgtc
tgtgacaccaatgaagacagcgatggggatggtcatcaggataccaaggacaactgccca
cagctgccaaatagctcccagctggactcagacaacgatggacttggagatgagtgtgat
ggggatgatgacaatgacggtgtcccagattatgtgcctcctggtcctgataactgtcgt
ctagtacccaatcccaatcagaaagactcagatggcaatggtgttggtgatgtgtgtgag
gatgactttgacaatgatgcagtagtcgaccccctggatgtgtgtcctgaaagtgcagag
gtaaccctcacggatttccgagcctatcagaccgtcgtcctggatcctgagggtgatgct
cagattgacccaaactgggtcgttctcaatcagggcatggaaatcgttcagaccatgaac
agtgaccctggcctggcagttggatacacagccttcaatggtgtggactttgaaggcacc
ttccatgtgaacacagtgactgacgatgactacgcaggttttctcttcagttaccaggac
agtggccgcttctatgtggtcatgtggaagcagacagagcagacctattggcaggccaca
cctttccgtgctgttgcccagccggggctgcagctcaaggcagtgacatcagtgtctggc
ccaggtgagcacctccggaatgccctgtggcatactggccatacccctgaccaggtacgg
ctgttatggactgacccacgaaatgtgggctggcgtgacaagacctcctatcgctggcag
ctgctgcaccggcctcaagttggttatattcgggtgaagctctatgagggtccccagcta
gtggcggattctggggtgatcattgacacatccatgcgaggggggcgtcttggtgtattc
tgcttctcccaggaaaacatcatttggtccaatctccagtatcgatgcaacgacacagtg
cccgaggactttgagccattccggaggcagctgctgcagggaagggtgtga |
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