Entry |
|
Gene name |
ITGB8
|
Definition |
(RefSeq) integrin subunit beta 8
|
KO |
|
Organism |
|
Pathway |
hsa04810 | Regulation of actin cytoskeleton |
hsa05412 | Arrhythmogenic right ventricular cardiomyopathy |
|
Network |
nt06135 Cytoskeletal regulation (viruses and bacteria) nt06167 Human cytomegalovirus (HCMV) |
Element |
N00393 | ITGA/B-RhoGAP-RhoA signaling pathway |
N00951 | ITGA/B-RHOG-RAC signaling pathway |
N01068 | ITGA/B-FAK-RAC signaling pathway |
N01070 | ITGA/B-FAK-CDC42 signaling pathway |
N01072 | ITGA/B-RhoGEF-RhoA signaling pathway |
N01080 | ITGA/B-TALIN/VINCULIN signaling pathway |
|
Brite |
KEGG Orthology (KO) [BR:hsa00001]
09130 Environmental Information Processing
09132 Signal transduction
04151 PI3K-Akt signaling pathway
3696 (ITGB8)
09133 Signaling molecules and interaction
04512 ECM-receptor interaction
3696 (ITGB8)
04514 Cell adhesion molecules
3696 (ITGB8)
09140 Cellular Processes
09144 Cellular community - eukaryotes
04510 Focal adhesion
3696 (ITGB8)
09142 Cell motility
04810 Regulation of actin cytoskeleton
3696 (ITGB8)
09160 Human Diseases
09166 Cardiovascular disease
05410 Hypertrophic cardiomyopathy
3696 (ITGB8)
05412 Arrhythmogenic right ventricular cardiomyopathy
3696 (ITGB8)
05414 Dilated cardiomyopathy
3696 (ITGB8)
09172 Infectious disease: viral
05165 Human papillomavirus infection
3696 (ITGB8)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:hsa04147]
3696 (ITGB8)
04515 Cell adhesion molecules [BR:hsa04515]
3696 (ITGB8)
Exosome [BR:hsa04147]
Exosomal proteins
Exosomal proteins of other body fluids (saliva and urine)
3696 (ITGB8)
Cell adhesion molecules [BR:hsa04515]
Integrins
Integrin beta subunits
3696 (ITGB8)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Structure |
PDB: |
Position |
7p21.1
|
AA seq |
769 aa
MCGSALAFFTAAFVCLQNDRRGPASFLWAAWVFSLVLGLGQGEDNRCASSNAASCARCLA
LGPECGWCVQEDFISGGSRSERCDIVSNLISKGCSVDSIEYPSVHVIIPTENEINTQVTP
GEVSIQLRPGAEANFMLKVHPLKKYPVDLYYLVDVSASMHNNIEKLNSVGNDLSRKMAFF
SRDFRLGFGSYVDKTVSPYISIHPERIHNQCSDYNLDCMPPHGYIHVLSLTENITEFEKA
VHRQKISGNIDTPEGGFDAMLQAAVCESHIGWRKEAKRLLLVMTDQTSHLALDSKLAGIV
VPNDGNCHLKNNVYVKSTTMEHPSLGQLSEKLIDNNINVIFAVQGKQFHWYKDLLPLLPG
TIAGEIESKAANLNNLVVEAYQKLISEVKVQVENQVQGIYFNITAICPDGSRKPGMEGCR
NVTSNDEVLFNVTVTMKKCDVTGGKNYAIIKPIGFNETAKIHIHRNCSCQCEDNRGPKGK
CVDETFLDSKCFQCDENKCHFDEDQFSSESCKSHKDQPVCSGRGVCVCGKCSCHKIKLGK
VYGKYCEKDDFSCPYHHGNLCAGHGECEAGRCQCFSGWEGDRCQCPSAAAQHCVNSKGQV
CSGRGTCVCGRCECTDPRSIGRFCEHCPTCYTACKENWNCMQCLHPHNLSQAILDQCKTS
CALMEQQHYVDQTSECFSSPSYLRIFFIIFIVTFLIGLLKVLIIRQVILQWNSNKIKSSS
DYRVSASKKDKLILQSVCTRAVTYRREKPEEIKMDISKLNAHETFRCNF |
NT seq |
2310 nt +upstreamnt +downstreamnt
atgtgcggctcggccctggctttttttaccgctgcatttgtctgcctgcaaaacgaccgg
cgaggtcccgcctcgttcctctgggcagcctgggtgttttcacttgttcttggactgggc
caaggtgaagacaatagatgtgcatcttcaaatgcagcatcctgtgccaggtgccttgcg
ctgggtccagaatgtggatggtgtgttcaagaggatttcatttcaggtggatcaagaagt
gaacgttgtgatattgtttccaatttaataagcaaaggctgctcagttgattcaatagaa
tacccatctgtgcatgttataatacccactgaaaatgaaattaatacccaggtgacacca
ggagaagtgtctatccagctgcgtccaggagccgaagctaattttatgctgaaagttcat
cctctgaagaaatatcctgtggatctttattatcttgttgatgtctcagcatcaatgcac
aataatatagaaaaattaaattccgttggaaacgatttatctagaaaaatggcatttttc
tcccgtgactttcgtcttggatttggctcatacgttgataaaacagtttcaccatacatt
agcatccaccccgaaaggattcataatcaatgcagtgactacaatttagactgcatgcct
ccccatggatacatccatgtgctgtctttgacagagaacatcactgagtttgagaaagca
gttcatagacagaagatctctggaaacatagatacaccagaaggaggttttgacgccatg
cttcaggcagctgtctgtgaaagtcatatcggatggcgaaaagaggctaaaagattgctg
ctggtgatgacagatcagacgtctcatctcgctcttgatagcaaattggcaggcatagtg
gtgcccaatgacggaaactgtcatctgaaaaacaacgtctatgtcaaatcgacaaccatg
gaacacccctcactaggccaactttcagagaaattaatagacaacaacattaatgtcatc
tttgcagttcaaggaaaacaatttcattggtataaggatcttctacccctcttgccaggc
accattgctggtgaaatagaatcaaaggctgcaaacctcaataatttggtagtggaagcc
tatcagaagctcatttcagaagtgaaagttcaggtggaaaaccaggtacaaggcatctat
tttaacattaccgccatctgtccagatgggtccagaaagccaggcatggaaggatgcaga
aacgtgacgagcaatgatgaagttcttttcaatgtaacagttacaatgaaaaaatgtgat
gtcacaggaggaaaaaactatgcaataatcaaacctattggttttaatgaaaccgctaaa
attcatatacacagaaactgcagctgtcagtgtgaggacaacagaggacctaaaggaaag
tgtgtagatgaaacttttctagattccaagtgtttccagtgtgatgagaataaatgtcat
tttgatgaagatcagttttcttctgagagttgcaagtcacacaaggatcagcctgtttgc
agtggtcgaggagtttgtgtttgtgggaaatgttcatgtcacaaaattaagcttggaaaa
gtgtatggaaaatactgtgaaaaggatgacttttcttgtccatatcaccatggaaatctg
tgtgctgggcatggagagtgtgaagcaggcagatgccaatgcttcagtggctgggaaggt
gatcgatgccagtgcccttcagcagcagcccagcactgtgtcaattcaaagggccaagtg
tgcagtggaagaggcacgtgtgtgtgtggaaggtgtgagtgcaccgatcccaggagcatc
ggccgcttctgtgaacactgccccacctgttatacagcctgcaaggaaaactggaattgt
atgcaatgccttcaccctcacaatttgtctcaggctatacttgatcagtgcaaaacctca
tgtgctctcatggaacaacagcattatgtcgaccaaacttcagaatgtttctccagccca
agctacttgagaatatttttcatcattttcatagttacattcttgattgggttgcttaaa
gtcctgatcattagacaggtgatactacaatggaatagtaataaaattaagtcctcatca
gattacagagtgtcagcctcaaaaaaggataagttgattctgcaaagtgtttgcacaaga
gcagtcacctaccgacgtgagaagcctgaagaaataaaaatggatatcagcaaattaaat
gctcatgaaactttcaggtgcaacttctaa |