Oncorhynchus mykiss (rainbow trout): 110498731
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Entry
110498731 CDS
T07259
Symbol
itgb4
Name
(RefSeq) integrin beta-4 isoform X1
KO
K06525
integrin beta 4
Organism
omy
Oncorhynchus mykiss (rainbow trout)
Pathway
omy04382
Cornified envelope formation
omy04510
Focal adhesion
omy04512
ECM-receptor interaction
omy04518
Integrin signaling
omy04810
Regulation of actin cytoskeleton
omy04820
Cytoskeleton in muscle cells
Brite
KEGG Orthology (KO) [BR:
omy00001
]
09130 Environmental Information Processing
09133 Signaling molecules and interaction
04512 ECM-receptor interaction
110498731 (itgb4)
04518 Integrin signaling
110498731 (itgb4)
09140 Cellular Processes
09144 Cellular community - eukaryotes
04510 Focal adhesion
110498731 (itgb4)
09142 Cell motility
04820 Cytoskeleton in muscle cells
110498731 (itgb4)
04810 Regulation of actin cytoskeleton
110498731 (itgb4)
09150 Organismal Systems
09158 Development and regeneration
04382 Cornified envelope formation
110498731 (itgb4)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:
omy04147
]
110498731 (itgb4)
04515 Cell adhesion molecules [BR:
omy04515
]
110498731 (itgb4)
04090 CD molecules [BR:
omy04090
]
110498731 (itgb4)
Exosome [BR:
omy04147
]
Exosomal proteins
Exosomal proteins of colorectal cancer cells
110498731 (itgb4)
Exosomal proteins of bladder cancer cells
110498731 (itgb4)
Cell adhesion molecules [BR:
omy04515
]
Integrins
Integrin beta subunits
110498731 (itgb4)
CD molecules [BR:
omy04090
]
Proteins
110498731 (itgb4)
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
Integrin_beta
fn3
Calx-beta
Integrin_B_tail
Pur_ac_phosph_N
FN3_DSCAM-DSCAML_C
EGF_Teneurin
PSI_integrin
I-EGF_1
EGF_2
EGF_integrin
EGF_TEN
Motif
Other DBs
NCBI-GeneID:
110498731
NCBI-ProteinID:
XP_036811599
Ensembl:
ENSOMYG00000010633
UniProt:
A0A8K9XC72
LinkDB
All DBs
Position
20:8328298..8358871
Genome browser
AA seq
2011 aa
AA seq
DB search
MREMGRWTLNLLMGVVLLAVLTASCYAEKVNHCLATRASTCSECIQSGKGCAYCPDEIFD
GPRCDLHDNIISRGCNSAVTAKSSMSMERNEQIDMLLKQSQVAPQEMSMTLLPGEEREIE
MEVFEPAKGPLDLYILMDFSNSMEDDLDNLKRMGAELAALVGKLSDDYTIGFGKFVDKVV
EPQTDMRPSKLAKPWPNSDPPFSFRHVITLTPDLRSFNEKLQKERISGNLDAPEGGFDAI
LQAAVCGEKIGWRSHATHLLVFSTESAFHYEADGANVLAGIMPRNDEQCHLDPEGKYTED
TRQDYPSVPTLVRLLGKHNIIPIFAITNHSFTYYQKLYEYFPIAELGLLQEDSANILNIL
EKAFENIRSKISIRAEDRPKAIEAQVLSYSGSVAQAGTFKVKPGQIGKFKVRVKASEMVG
EQHVCSLEQGDKKGKMRVKPTTFSTALNINAEVLCKTCDCEKTPTKNAVRCTGHGDLVCG
KCRCYSGWLGPFCNCSTSASPVAGSSCLGPDVGEPCSGRGDCLCGTCVCYNTDQYEGPLC
QFDKSQCQRYGGFLCNDRGRCFMGQCACAEGWEGPACECPMSNQTCLDTKGGVCNGRGVC
KCGRCECQDSGLAMTPTCEANFQAQLGMCEDKRSCVQCQAWKTGEKKDSDQCDQCQFKVV
MVDELKENKEVIEACSFRDEDDDCTYHYTVDYPEDQTDKELEVQVLKKKDCPPAGFLWLI
PLIMFLMLLLGLLLLCCWKYCACCKACLALLPCCGRGRMVGFKEDQYMLRQSLLTSDHLD
TPLVRTGPPKSTDVVRWKITDNVHRSPNHPLAQVQPNPKETIQFPLSLRLNRLFTESLSH
PDARDTEMLRREVDDNLNEVYKHVPGAQRVQNTKFRLQRNAGKRKDHTIVDTVVSAPRSS
YPDIVKLTERNVQSGNFQDLKVVPGYYTVATDREAAGAVEFQEGVETVDVRVPLFIKEDD
DDKKQLQVEAVDVPLGIAEIGKRFVNITIIKEHAKSIMSFLQPSYTYSRQDRVANIPISR
EIIEDGHTQVTYRTRDLTAKDKKDYVTVDGELSYGPGETQQTVPVRLLELGEGDGLLKDT
QVKQFVMDLSNPRQGAKLGRYPRTTVTITDQPEPSVMMFMKSTQNFSTADPTYSIPVVRT
RNQEGPATVHWKTRNAKRFELSGPLKFSPGETEKNIVIDPRPHPGPVKPEMFQLELFDPS
TNAAVGERKTTMVTITDGALPEIAQKQQQGKDFINRTAMSPGGRLFSPTNVKAKATGPRN
IRLNWDPLGSPLGYKVKYWIYGDPETDGQVIDVKTTHAELTNLYPFCDYEMKVCGYNALG
NGNYSDMVPCQTLEDVPSEPGRLAFNVISPTVTQVSWAEPAETNGVITNYEVLYTPINDN
TKPMGVAKKVKIDNPKKRMLLIENLQSAQTYCYKVRAKNSVGWGPFREATINLASQPVRP
MSIPIIPDIPIVDAEAGDEYDGYLMYSSEVLRSPTGSKRPSVSDEDQMNGRWEQNFLFPG
GNNSMSRSANMSSSSYSQLSPMSTLSSNHRGGAGGSMTTESSTTYLSGQGGNLLSRTQVI
GGGTRIENVVMRKRSENRGYYEYDDNIRDSIVIGDLSSGLSGYTDGKSTYGFSPTQTQYS
YSMSQVLRGRTQSEDVNDALLNLDRVLQDSRLASGVPDTPTRLVFSALGPTALKVSWQEP
HCDRDVLGYCVLYQLLNGGDMKRIDVSSPAENSVVVQDLLPNHSYLFKVKAQSLEGWGPE
REGVITIESAVNPNSPLSPMPGSPFTLSTPSAPGPLVFTALSPEALQLSWDKPRKPNGDI
LGYVVTCEQLHGGGDMRSFQVSGNSAETSLTVPDLSENMPYKFKVQARTTQGFGPEREGI
ITIESQEGGSTSQLGGLGGMSQIGGLGGMSQLGGLGGMSQIQGLGGMSQLGGLGGMSQIE
GLGGMSQYSSQSLTKRDVFQLPTEVSTHSNVTHTMINDPYFSGDGMMMTSQHTETSGMVT
RHVTKEVVQRSMQVAGSSSVTKKVERSFYEA
NT seq
6036 nt
NT seq
+upstream
nt +downstream
nt
atgagggagatggggagatggacattaaatctcttgatgggggttgtacttcttgctgtc
ctcacagccagttgctacgctgaaaaagtgaatcactgtctggctacgagggctagcacc
tgttcagaatgtattcagtcagggaagggctgtgcctactgtccagatgagatctttgat
ggtccccgctgcgaccttcatgacaacatcataagccgcggctgtaatagcgcggtgaca
gccaaaagcagcatgtcgatggaaagaaacgagcagatcgacatgctgttgaagcagtcc
caggtagctcctcaggagatgtctatgactctgctgccaggggaggagagggagatcgag
atggaggtgtttgaaccagctaaaggacctctggacctctacattcttatggacttctcc
aactccatggaggacgacctggacaaccttaagagaatgggtgctgagctggctgcgttg
gtagggaagctgtctgatgattacaccatcgggttcggcaagtttgtggacaaagtggtg
gagccccagacagacatgagaccatccaaacttgccaagccttggcccaacagcgaccct
cccttctcgttccgtcatgtgatcactctgacccctgacctgcggtccttcaacgagaag
ctgcagaaggagaggatctcagggaacctggacgctccagaggggggcttcgacgccata
ctgcaggctgcagtctgcggggaaaagatcggctggcgtagccatgccacccacctcctg
gtcttctccaccgagtcggccttccactacgaggcggacggtgccaacgtgctggcaggc
atcatgccacgcaacgacgagcagtgccacctggaccccgaggggaaatacacagaggac
accaggcaggactacccctctgtgcccaccctggtccgcctgctgggcaaacacaacatt
atccccatcttcgccatcacaaaccactcctttacctattatcagaagctttatgagtat
ttccccatcgctgagttgggtctgctacaggaagactctgctaacatcctcaatatcctg
gagaaagcctttgagaatatccgctctaagatcagcatccgtgctgaggacaggcctaaa
gctatagaagctcaggtcctatcgtacagtggcagtgttgcgcaggctggaaccttcaaa
gtcaagcctggacaaatagggaagtttaaggtgcgtgtcaaggccagtgagatggttggg
gagcaacatgtgtgtagtctggagcagggtgacaaaaaggggaagatgagagtcaaaccg
acaaccttcagcacggctctaaacatcaacgccgaagtgctctgtaaaacctgcgactgt
gagaagacccccactaaaaatgcagtgcggtgtacaggccacggggacctggtctgtggg
aagtgccggtgctacagtggctggctgggtccgttctgtaactgctcaaccagtgcgtcg
ccggtcgcgggtagttcctgtctgggtcctgacgtgggggagccgtgttctggccgagga
gattgcctgtgtggaacttgtgtgtgttacaacaccgaccagtacgagggacccctctgt
cagtttgacaagtcccagtgtcaacgatacggaggcttcctctgcaacgaccgtggtcgt
tgcttcatgggtcagtgtgcgtgtgcagagggctgggagggaccggcctgtgagtgtccc
atgagcaaccagacatgtctggacactaaagggggtgtctgtaacgggcgtggtgtgtgt
aagtgcggtcgctgtgagtgccaggactctggcctggccatgacccccacctgcgaggct
aacttccaggcccagctggggatgtgtgaggacaagaggagctgtgtccagtgtcaggcc
tggaagaccggagagaagaaggacagcgaccagtgtgaccagtgccagttcaaagtggtc
atggtggacgagctcaaggaaaataaagaggtgattgaggcgtgtagtttccgtgacgag
gatgacgactgtacgtaccactacaccgtggactaccctgaggaccagactgacaaggaa
ctggaagtccaggtgcttaaaaagaaagactgtccccctgctggcttcctgtggctgatc
cctctcatcatgttcctcatgctactgctgggtctactgctgctctgctgctggaagtac
tgcgcctgctgcaaggcatgtcttgctctgctgccatgctgtggaagaggccgtatggtt
ggctttaaggaggaccagtacatgctccgccaatccctgctcacctctgaccacctggac
acgcccctagtgaggaccggcccgcccaagagcaccgacgtggttcgctggaagatcacc
gacaatgtgcaccgatcgcccaatcacccgctggcgcaggtccagcccaaccccaaagag
accatccagttccctctgtccctgcgtctgaacaggttgttcacagaaagtctgtctcac
cccgacgccagagacacggagatgctgcgcagggaggttgatgacaacctgaatgaagtg
tacaagcatgttcctggagcccagagggttcagaataccaaatttagattacagagaaat
gctggtaaaagaaaagaccacacaattgtagacacagtcgtgtccgctcctcgctccagc
taccccgacatcgtcaaattgactgagagaaacgtccagtctggaaacttccaagatctc
aaagtggtgccgggctactacacagtggccacagacagagaggcggctggtgccgtggag
ttccaggagggggtggagacggtggatgtgcgcgtgccgctcttcatcaaggaagatgac
gatgataagaagcagctgcaggtggaggcggtggacgttcctctgggcatcgctgagata
gggaaacgcttcgtcaacatcaccatcatcaaagaacacgccaagagtattatgtcgttc
ctccagccttcctacacctacagccgacaggacagagtggctaacatccccattagcaga
gagatcatagaggacggacacacacaggtcacctaccgcacccgagacctcaccgccaag
gacaagaaggactatgtgacagtggatggggaactgtcctacgggccaggggagacccag
cagactgtccctgtgcgtctattggagctgggagagggagacggtctgctgaaggacaca
caggtcaaacaatttgtcatggacctcagtaacccaagacagggagccaagctgggacgc
taccccagaaccaccgtcaccatcactgaccaaccagagcccagtgtgatgatgtttatg
aagagcacccagaacttctccacagctgacccaacctactccatccccgtggtccgcaca
cgcaaccaggaggggccagccaccgtccactggaagacccgcaatgccaagcgcttcgag
ctgtccggtcccctcaagttttctcccggggagactgagaagaacatcgtgatcgaccca
cgccctcaccctggaccggtcaaaccagaaatgttccagctggagttgtttgaccccagt
acgaacgctgcggtcggggagaggaagacaacaatggtcacgattactgatggagcacta
ccagagattgcccagaagcagcagcagggtaaggacttcatcaaccggacagccatgtct
cctggtggtcgtctcttctctcccaccaacgtgaaggctaaagccactggcccacgaaac
atccgtctcaactgggaccccttagggagccccctgggctacaaggtaaagtattggatc
tatggggaccctgagactgatggccaggtgatagatgtgaagaccacccacgctgagctg
accaacctgtaccccttctgtgactacgagatgaaggtgtgtggctacaacgccctggga
aacggaaactacagcgacatggtgccctgtcagaccctggaggacgtccccagtgagccc
ggtcgtcttgcgttcaacgtcatcagtccaactgtcactcaggtcagctgggcagagcct
gccgagaccaacggtgtcatcaccaactacgaggtcctctacacacccatcaatgacaac
acaaagccgatgggtgtagctaagaaggttaagatagacaaccctaagaagaggatgttg
ctaattgagaacctgcagtcagcccagacctactgctataaggtccgggctaagaacagc
gttggctggggtccattcagagaggcaaccatcaacctggcctcacagcccgtcagaccc
atgtccatccctatcatcccagacatcccaatagtggacgcggaggcgggggatgagtac
gacggctacctgatgtacagcagcgaggtcttgaggtcgccaacaggctccaagagaccc
agcgtctcagacgaagaccaaatgaacggcaggtgggaacaaaacttcctgttccccggg
ggaaataattccatgtcgcgcagtgccaacatgtcgtcttccagctacagccagctgtct
cccatgtccaccctcagctccaaccacagaggaggggccggaggttccatgactacggag
tcctccacaacatacctctctggacaaggagggaacttgctctcccgcactcaggtgatc
gggggcgggacgcgcatagagaatgttgtcatgaggaagcggtcagagaaccgaggttac
tatgagtatgacgacaacatccgagattccatcgtcataggagacctgtccagtggattg
tcgggatacacagacggcaaaagtacttatggcttcagccccactcagacacagtacagc
tacagtatgtctcaggtcttgcggggcaggacccagtctgaggatgtcaacgatgcgcta
ctgaatctggacagggtgctccaggactctcgtttggcctctggggtccctgacaccccc
accaggttggtgttctctgccctgggccccacggccctgaaggtcagctggcaggagccc
cactgtgacagggatgtgctggggtactgtgttctctaccagctactcaatggaggtgat
atgaagcgtatagacgtgtccagcccagcagagaactctgtggtggtgcaggacctgctg
cctaaccactcctacctgttcaaggtgaaggctcagagtctggagggctggggaccagag
agggagggagtcatcaccatagagtcagccgtcaaccccaacagcccactcagtccaatg
ccaggttctcccttcactctcagtacccccagtgctccaggccccctggtattcacagct
ctgtcccccgaggcactgcagctgagctgggacaaaccccgcaaacccaacggagatatc
ctgggctacgtggtcacctgtgaacagctgcacggaggaggtgacatgcgttccttccaa
gtgagcggtaacagcgctgagaccagtctgacggttccggacctgagtgagaacatgcca
tacaagttcaaagttcaggccaggacgacgcagggcttcgggcccgagagggagggtatc
atcaccatcgagtctcaggaagggggtagcacgtctcaactaggaggcctaggtggtatg
tcccaaataggaggcctaggtggtatgtctcaactaggaggcctaggtggtatgtcccaa
atacaaggcctgggaggtatgtctcaactaggaggcctaggtggtatgtcccaaatagaa
ggcctaggaggtatgtctcagtacagcagtcagtccttgaccaagagagatgtgttccaa
ctgccgacagaggtcagcacccacagcaacgtcacacacaccatgatcaacgacccctac
ttctcaggggacggtatgatgatgacttcccaacacacagagaccagtgggatggtaaca
cgtcatgtgactaaggaggtggtccagaggagcatgcaggtggccggctccagcagcgtc
accaagaaggtcgagaggtcgttctatgaggcttga
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integrated database retrieval system