| Entry |
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| Symbol |
ITGB4
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| Name |
(RefSeq) integrin beta-4 isoform X1
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| KO |
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| Organism |
pyu Puma yagouaroundi (jaguarundi)
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| Pathway |
| pyu04810 | Regulation of actin cytoskeleton |
| pyu05412 | Arrhythmogenic right ventricular cardiomyopathy |
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| Brite |
KEGG Orthology (KO) [BR:pyu00001]
09130 Environmental Information Processing
09132 Signal transduction
04151 PI3K-Akt signaling pathway
121017923 (ITGB4)
09133 Signaling molecules and interaction
04512 ECM-receptor interaction
121017923 (ITGB4)
09140 Cellular Processes
09144 Cellular community - eukaryotes
04510 Focal adhesion
121017923 (ITGB4)
09142 Cell motility
04820 Cytoskeleton in muscle cells
121017923 (ITGB4)
04810 Regulation of actin cytoskeleton
121017923 (ITGB4)
09150 Organismal Systems
09158 Development and regeneration
04382 Cornified envelope formation
121017923 (ITGB4)
09160 Human Diseases
09172 Infectious disease: viral
05165 Human papillomavirus infection
121017923 (ITGB4)
09166 Cardiovascular disease
05410 Hypertrophic cardiomyopathy
121017923 (ITGB4)
05412 Arrhythmogenic right ventricular cardiomyopathy
121017923 (ITGB4)
05414 Dilated cardiomyopathy
121017923 (ITGB4)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:pyu04147]
121017923 (ITGB4)
04515 Cell adhesion molecules [BR:pyu04515]
121017923 (ITGB4)
04090 CD molecules [BR:pyu04090]
121017923 (ITGB4)
Exosome [BR:pyu04147]
Exosomal proteins
Exosomal proteins of colorectal cancer cells
121017923 (ITGB4)
Exosomal proteins of bladder cancer cells
121017923 (ITGB4)
Cell adhesion molecules [BR:pyu04515]
Integrins
Integrin beta subunits
121017923 (ITGB4)
CD molecules [BR:pyu04090]
Proteins
121017923 (ITGB4)
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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 |
2033 aa
MAGLRPSPWTSLLLAALLSVSFPGQMANRCKKAQVKSCTECIRVDRDCAYCTDEMFKERR
CNTQAELLAAGCRQESVVVMESSFEITEETQIDTTLQRSQVSPQRLRVRLRPGGEQHFQL
FVFEPSESPVDLYILMDFSNSMSDDLDNLKQMGEKLAEVLRKLTNDYTIGFGKFVDKVSV
PQTDMRPEKLKEPWPNSDPPFSFKNVISLTEDLAEFRNKLLKERISGNLDAPEGGFDAIL
QAAVCTRDIGWRPDSTHLLVFSTESAFHYEADGANVLAGIMSRNDEACHLDASGTYTRYR
TQDYPSVPTLVRLLAKHNIIPIFAVTNYSYSYYERLRTYFPVSSLGVLQEDSSNIVDLLQ
EAFQRIRSDLDIRALESPRGLRTEVTSEMFEKTNTGSFHIQRGKVGTYQVQLRALEELDG
THVCQLGEEDQKGNIHLKPSFSDGLRMDVGIICDVCPCELQKEVRSAHCSYHGDFMCGHC
VCTEGWSGNTCSCPTGSLSDIKPCLREGEDKPCSGRGECQCSHCVCYGEGRYEGPFCEYD
NFQCPRASGFLCNDRGRCSMGQCVCEPGWTGLSCDCPLSNATCIDSNGGICNGRGYCECG
RCHCNQQSLYTDTICEINYSAIRLGLCEDLRSCVQCQAWGTGEKKGRMCEGCNFKIKMVD
ELKKGGEVLEHCSFRDEDDDCTYSYTVEGDGTPGPNSTVLVHRKKDCPPGSFWWLIPLLI
FLLLLLALLLLLCWKYCACCKACLALLPCCNRGHMVGFKEDHYMLRENLMASDHLDTPML
RSGNLKGRDMVRWKITNNVQRPGFATHASSTNPMELVPYGLSLRLARLCTENLLKPDTRE
CDQLRQEVEENLNEVYRQITGAHKLQQTKFRQQPNAGKKQDHTIVDTVLMAPRAAKQALL
KLTEKQVEQGAFHELKVAPGYYTLTADQDARGMVEFQEGVELVDVRVPLFIRPEDDDEKQ
LLVEAIDVPMGTATLGRRLVNITIIKEQASGIVSFEKPEYLVSGGEQVARVPVVRRILDN
GKSQVSYRTQDNTAQGNRDYIPAEGDLLFQPGETWKELQVKLLEPREIDSLLRGRQTHRF
HIQLSNPKFGARLGQPHSATVVIGDRDELDRNFTSPTLSSFPPHPGDLGAPQNPNAKAAG
SRKIHFNWLPPPGKPTGYRVKYWIQGDSESEAHLLDSKVPSVELTNLYPYCDYEMKVCAY
GAQGEGPYSSLVSCRTQQEVPSEPGRLAFNVVSSTVTQLSWAEPAETNGEITAYEVCYGL
VNEDNRPIGPMKKVLVDTPKRRMLLIENLRESQPYRYTVKARNGAGWGPEREAIINLATQ
PKRPMSIPIIPDIPIVDAQCGEDYESFLMYSDEVLRSPAGSQRPSVSDDTGGSWKFEPLL
GEELDLRRVTWRLPPELIPRLSASSGRSSDGEPPRGPPEDSADGGAGGEGGGLARGATPR
PPGEHLVVNGRMDVAFPGSSNSLNRMTVANTAYGTHLSPHLPHRVLSTSSTLTRDYHSLT
RTEHSHSHSATLPRDYSTLTSVSSHSLPPIWEEGRSRLPLSWALGSLSRAQMKGFPPSGD
SRDTIILAGQPAAPFRGPGSRLAAGVPNTPTRLVFSALGPTSLKVSWQEPQCEQALQGYS
VEYQLLNGGELHRLNIPSPSQTSVVVEDLLPNHSYVFRVRAQSQEGWGPEREGVITIESQ
VHPQSPLCPLPGSTFTLSTPSAPGPLVFTALSPDSLQLSWERPRRPDGDILGYLVTCEMA
HGGEPATTFLVDGDSPESRLTVPGLSENVPYKFKVQAKTTQGYGPEREGIITIESQDGGP
FPQLGSHPGLFQHQLPGEYSSITTTHTSTTEPFFLGRVLQCFFPCRWTDPGVPTPGSRWL
PHPPCDPGVCEPDTDHQWNPQYPGGPTVLPDLSPPPLPDSVLEPGPPPCLLLLALPQLLH
PQTPRSPAHPHADHRASTSGYGAEGRCPLGGVKGAEVPDGPSGHYSLTPGPSPFVRNQRA
GTSIRTQLCSALNKRFCYRLALPCLFFQGVPAQTEQASGSDTRFSDPQAHTHL |
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| NT seq |
6102 nt +upstreamnt +downstreamnt
atggcagggctgcgtcccagcccatggaccagcctgctgctggcagccctactgagtgtc
agcttccccgggcaaatggcgaaccgctgcaagaaggcccaggtgaagagctgcaccgag
tgcatccgcgtggacagggactgtgcctactgcaccgatgagatgttcaaggagcggcgc
tgcaacacccaggcagagctgctggctgcggggtgccggcaggagagcgtggtggtcatg
gagagcagcttcgagatcacagaggagacccagatcgacaccaccctgcagcgcagccag
gtgtcgccccagaggctgcgggttcggcttcggccaggcggggagcagcactttcagctg
tttgtgttcgagcccagcgagagccctgtggacctgtacatcctcatggacttctctaac
tccatgtctgacgatctggacaacctcaagcagatgggggagaagctggctgaggtcctg
aggaagctcaccaacgactacactattggatttggcaagtttgtggacaaagtcagcgtc
cctcagacggacatgaggcccgagaagctgaaggagccatggcccaacagtgaccctccc
ttctccttcaagaacgtcatcagcctgacggaagacttggctgagttcaggaacaaactg
ctaaaagagcggatctcgggcaacctggacgctcctgaaggaggttttgatgccatcctg
caggcggccgtgtgcacgagggacatcggctggcgccccgacagcacccacctgctggtg
ttctccacggagtctgcgttccactatgaggccgacggtgctaatgtgctggccggcatc
atgagccgtaatgacgaggcatgccacctggatgcctcgggtacctatacccggtacagg
acgcaggactacccgtcagtgcccaccctggtgcgcctgcttgccaagcacaacattatc
cccatcttcgccgtcaccaactactcctacagctattacgagaggctgcggacgtacttc
ccggtctcctccctgggggtgcttcaggaggactcctccaacatcgtggacctgctgcag
gaagcctttcagcgcattcgctccgacctggacatccgggccctggaaagcccccggggc
ctgcgcacagaggtcacctccgagatgttcgaaaagacgaataccgggtcctttcacatc
cagcgggggaaagtgggcacctaccaggtgcagctgcgggctctggaagagctggatggg
acccacgtgtgccagctgggagaagaggaccagaagggcaacatccatctcaagccctcc
ttctcggatggcctcaggatggatgtgggcatcatctgtgatgtgtgcccctgtgagctg
caaaaagaagtgcgttcagctcactgcagctaccacggagacttcatgtgtggacactgt
gtgtgcactgagggctggagcggcaacacgtgcagctgccccaccggctcactgagcgac
ataaagccctgtcttcgcgagggcgaggacaagccgtgctctgggcgtggcgagtgccag
tgcagccactgcgtgtgctacggggaaggccgctatgagggtccgttttgcgagtatgac
aacttccagtgcccccgtgcctctgggttcctctgcaatgaccggggacgctgttccatg
ggccagtgtgtgtgtgagcctggctggacaggcttgagctgtgactgccctctcagcaat
gccacctgcattgacagcaacgggggcatctgtaatggccgtggctactgcgagtgtggc
cgctgccactgcaaccagcagtcgctctacacggacaccatctgtgagatcaactactcg
gcgatccgcctgggcctctgtgaggacctgcgctcctgtgtccagtgccaagcctggggc
accggggagaagaaggggcgcatgtgtgaggggtgcaacttcaagatcaagatggtggac
gagcttaagaaaggaggcgaggtgctggagcactgctccttccgggatgaggacgatgac
tgcacatacagctacacagtggagggtgacggcacccctgggcccaacagcactgtcctg
gtgcacaggaagaaggactgcccgcccggctccttctggtggctcatccctctgctcatc
ttcctcctgctgctgctggcactgctgctgttgctctgctggaaatactgtgcctgttgc
aaggcttgcctggcacttctcccttgttgcaaccgagggcacatggtgggcttcaaggaa
gaccactacatgttgcgggagaacctgatggcctcagaccacctggacacgcccatgcta
cgcagcgggaacctcaagggacgtgacatggtccgatggaagatcaccaacaacgtgcag
cggcctggctttgccacccatgcctccagcaccaaccccatggagctggtgccctatggg
ctgtccctgcgcctcgcccgcctttgcactgagaacctgctgaagcctgacactcgagag
tgtgaccagctgcgccaggaggtggaggagaatctgaatgaggtgtacagacagatcaca
ggtgcacacaagctccagcagactaaattccggcagcagcccaacgccgggaaaaagcag
gaccacaccattgtggatacggtgttgatggcgcctcgcgcggccaagcaggccctgctg
aagctgacggagaagcaggtggaacagggggccttccatgagctcaaggtggcccccggc
tactacaccctcactgcagaccaagatgcccgggggatggtggagttccaggagggcgtg
gagctggtggacgtgcgggtgcccctcttcatccggcctgaggacgatgatgagaagcag
ctgctggtggaagccatcgatgtgcccatgggcactgccaccctcggtcgccgcctggta
aacatcaccatcatcaaggagcaagccagcgggatagtgtcatttgagaagcctgagtac
ttggtcagcggcggagagcaagtggcccgcgttcccgtcgtccggcgcatcctggacaac
ggcaagtcccaggtctcctaccgcacacaggataacaccgcacagggcaaccgggactac
atccctgcagagggggatctgctattccaacctggggagacctggaaggagctgcaggtg
aagctcctggagccgcgggagatagactccctcctgcggggccgccagacccaccgcttc
cacattcaactcagcaaccccaagtttggggcccgcctgggccagccccactcagccacc
gtcgtcattggagaccgagatgaactggaccggaacttcacaagcccgacgctgtcatca
tttccacctcaccctggcgacctgggtgccccacagaaccccaatgccaaggccgccggg
tcccgaaagatccacttcaactggctgccccctccgggcaagccaacggggtacagggtg
aagtactggatccagggtgactcggaatccgaggcccacctgctcgacagcaaggtgccc
tcggtggagctcacgaacctgtacccatactgcgactatgagatgaaggtgtgcgcctac
ggggcacagggcgagggtccctacagctccctggtgtcctgccgcacccaacaggaagta
cccagtgagccggggcgtctggccttcaatgtcgtctcctccacggtgacccagctgagc
tgggctgagccagctgagaccaacggagagatcacggcctacgaggtctgctacggcttg
gtcaacgaggacaaccgacccatcgggcccatgaagaaggtgttggtggacactcctaag
aggcggatgctgctcattgagaacctgcgggagtcccagccataccgctacacagtgaag
gcgcgcaacggggcaggctgggggcccgagcgggaggccatcatcaacctggccacccag
cccaagcggcccatgtccatccccatcatcccggacatccccatcgtggacgcccagtgc
ggggaagactacgagagcttcctcatgtacagcgacgaagtactgcgctccccggctggc
agccagaggcctagcgtctccgacgacaccggcggcagctggaagttcgagcccctgctg
ggggaggagctggacctgcggcgcgtcacgtggcggctgcccccggagctcatcccgcgc
ctgtcggccagcagcgggcgctcctccgacggcgagccgccccgcggccccccggaagac
agcgcggacgggggcgcgggcggggagggtggcggcctagcccgcggcgccacacccagg
ccccccggagagcacctggtggtgaacgggcggatggacgtagccttcccaggcagctcc
aactctctgaacaggatgaccgtggccaacaccgcttacggcacccacctgagcccacac
ctgccccaccgggtgctgagcacatcttccaccctcacgcgggactaccactcgctgacc
cgcacggaacactcccactcccactctgccacgctgcccagggactactccaccctcacc
tccgtgtcctcccacagcctccctcccatctgggaagaggggaggagcaggcttccgctg
tcctgggccctcgggtccctgagtcgggctcagatgaaagggttccctccctctggggac
tcccgagacactataatcctggctgggcagccagcggcgccctttcggggcccaggctcc
cgcttggctgcaggtgtgcccaacacacccacccgcctggtgttctcggctctgggcccc
acgtctctgaaagtgagctggcaggagccacagtgtgagcaggcgctacagggctacagt
gtggagtaccagctgctgaacgggggggagctgcatcggctcaacatccctagccccagc
cagacttcggtggtggtggaagaccttctgcccaaccattcctatgtgttccgtgtgcgg
gcccagagtcaggaaggctggggcccagagcgtgagggtgtcatcaccattgagtcgcag
gtgcacccccagagcccactctgccccctgccaggctccaccttcactttgagcacaccc
agtgccccgggcccgctggtgtttactgccctgagcccagactcgctgcagttgagctgg
gaacggccacgcaggcccgatggggatatcctcggctacctggtgacctgtgagatggcc
catggaggagagccagccaccacgttcctggtggatggcgacagccctgagagccggctg
acagtgccgggcctcagtgagaacgtgccctacaagttcaaggtgcaggccaagaccacc
caaggctatgggccggagcgtgagggtatcatcaccatcgagtcccaggacggaggccct
ttccctcaactgggcagccaccccgggctcttccagcaccagctgccaggcgagtacagc
agcatcaccaccacccacaccagcacaaccgagcctttcttcttgggcagggtccttcag
tgctttttcccctgcagatggactgaccctggggtcccaacgcctggaagcaggtggctc
cctcacccgccatgtgacccaggagtttgtgagccggacactgaccaccagtggaaccct
cagtacccaggtggaccaacagttcttccagacctgagccccccacccctacccgacagt
gtcctggaacctgggcccccaccctgcctcctcctcctggctctgcctcagctactccat
cctcagacccctcgcagcccagcacacccccatgctgatcacagggccagcacgtctggc
tacggagcagagggtaggtgtcctctgggaggcgtgaagggagcagaggtcccagatggt
ccttctggccactactcccttaccccaggcccaagcccgtttgtgcgtaaccaaagagct
gggaccagcataaggacccagctttgctctgcacttaataaaagattttgctaccgcttg
gctctgccctgtctgttcttccagggagtgccagcacagacagagcaggcgagcggttct
gacacacgcttctctgatccccaagcacacacccacctctag |
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