| Entry |
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| Symbol |
itgb1a
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| Name |
(RefSeq) integrin beta-1a isoform X1
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| KO |
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| Organism |
emac Eleginops maclovinus (Patagonian blennie)
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| Pathway |
| emac05100 | Bacterial invasion of epithelial cells |
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| Brite |
KEGG Orthology (KO) [BR:emac00001]
09120 Genetic Information Processing
09125 Information processing in viruses
03271 Virion - Rotavirus
134884099 (itgb1a)
09130 Environmental Information Processing
09133 Signaling molecules and interaction
04512 ECM-receptor interaction
134884099 (itgb1a)
04514 Cell adhesion molecules
134884099 (itgb1a)
09140 Cellular Processes
09141 Transport and catabolism
04145 Phagosome
134884099 (itgb1a)
09144 Cellular community - eukaryotes
04510 Focal adhesion
134884099 (itgb1a)
04530 Tight junction
134884099 (itgb1a)
09142 Cell motility
04820 Cytoskeleton in muscle cells
134884099 (itgb1a)
04810 Regulation of actin cytoskeleton
134884099 (itgb1a)
09160 Human Diseases
09171 Infectious disease: bacterial
05100 Bacterial invasion of epithelial cells
134884099 (itgb1a)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:emac04131]
134884099 (itgb1a)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:emac04147]
134884099 (itgb1a)
04515 Cell adhesion molecules [BR:emac04515]
134884099 (itgb1a)
04090 CD molecules [BR:emac04090]
134884099 (itgb1a)
Membrane trafficking [BR:emac04131]
Endocytosis
Phagocytosis
Integrins (complement receptors)
134884099 (itgb1a)
Exosome [BR:emac04147]
Exosomal proteins
Proteins found in most exosomes
134884099 (itgb1a)
Cell adhesion molecules [BR:emac04515]
Integrins
Integrin beta subunits
134884099 (itgb1a)
CD molecules [BR:emac04090]
Proteins
134884099 (itgb1a)
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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 |
21:complement(10863968..10891414)
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| AA seq |
811 aa
MDLKLLLVSTLLGVFCFSNAQKEGNECINANAKYCGECIQAGAKCGWCKDPDFLKQGETV
STRCDELQSLIKRGCDDAMIENPRGDQKTLMNTPVTNRGKGVGKQKSKARLKLKPEEITQ
IQPQKLSLTLRSGEPQSFDLKFKRAEDYPIDLYYLMDLSYSMKDDLENVKNLGTSLMLEM
SKITSDFRIGFGSFVEKTVMPYISTTPAKLLNPCTGDQNCTSPFSYKNVLKLTSDGNRFN
TLVGKQHISGNLDSPEGGFDAIMQVAVCGDHIGWRNVTRLLVFSTDAGFHFAGDGKLGGI
VLPNDGKCHLENNIYTMSHYYDYPSIAHLVQKLSDNNIQTIFAVTKDFQPVYKELKNLIP
KSAVGTLSANSSNVINLIIDAYNSLSSEVILENSKLPEGVTIAYTSHCKNGVVNEGENGR
KCSNISIGDQVMFNISVTSKGCPKQDKPETIKIKPLGFTEEVEIILNFICECECNKDGIK
DSPDCHFGNGTYECGACKCNDGRVGRQCECSSNDVATEDMDRTCRKDNGTDICSNNGDCV
CGTCECKKRDNPEERYSGQYCDCDNFNCDRSGNKLCGGHGRCECRVCVCDPMWNGSACDC
SLDNSTCMASNKQLCNGRGTCECGTCKCTDPKFQGPTCETCPTCPGVCTEHKECVQCRAF
GTGEKKETCERDCSYFNLIKVKDRDKLPQPNDATYPVMHCKERDANDCWFYYTYAVNNNT
QKEVHVVDALDCPAGPDIIPIVAGVVAGIVLIGLALLLIWKLLMIIHDRREFAKFEKEKM
NAKWDTQDNPIYKSPINQFQNPSYGRKAAVL |
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| NT seq |
2436 nt +upstreamnt +downstreamnt
atggacctgaagctgcttttggtatccacattgttaggagtcttttgtttcagtaatgct
cagaaagaggggaacgagtgcatcaatgccaacgccaaatactgcggggagtgcatccag
gctggagccaaatgtggctggtgcaaagacccggacttcctgaaacagggtgagaccgtg
tcgacccgctgtgacgagctgcagtccctgataaaaaggggctgtgatgatgcaatgata
gagaaccctcgcggggatcagaagaccctgatgaacacaccggtgacaaaccgtggaaag
ggagtcgggaaacaaaagtccaaagcgagactgaaactgaagccagaggagatcactcag
atccagccacagaaactcagcctcaccctccgatccggtgagccccagtcctttgacttg
aagttcaaacgagcggaggattaccccatcgacctgtactacttgatggacctgtcctac
tccatgaaggacgatctggagaacgtcaagaacctgggaaccagtctaatgctggagatg
tcaaagatcacttcggacttcaggataggtttcggttcctttgtggagaagacggtcatg
ccatacatcagcaccaccccggccaagctgctgaacccatgcacgggcgaccagaactgc
accagcccgttcagctacaagaacgtgctgaagctcaccagcgacggcaacaggttcaac
accctggtgggcaagcagcacatctctggaaacctggactctcctgagggcgggttcgat
gccatcatgcaggttgctgtgtgtggggaccacattgggtggaggaatgtgactcgcctg
ctggtgttctccaccgacgctggcttccactttgctggcgatgggaaactgggtggcatc
gtcctgcccaatgacggaaaatgtcacttggagaataatatttataccatgagccactac
tatgactatccctccattgctcacctggttcagaagctgagcgacaacaacattcagacc
atcttcgcagtcacaaaggacttccagcctgtttataaagagctgaaaaatctgatacca
aaatctgcagtgggtactttatctgccaactccagcaatgtcatcaacctcattatagac
gcctacaattcgctgtcctccgaggtcattctggagaatagcaagcttccagagggagtg
accatagcttacacatcgcactgtaagaacggagtggttaatgagggggaaaatggacgg
aagtgctccaacatctccatcggagatcaggtcatgtttaacatcagtgtgacatctaag
ggctgtcccaagcaagacaagcctgaaaccatcaagatcaagcccctgggattcacagag
gaggtggagatcatcctcaacttcatctgtgagtgtgaatgcaacaaggacggcatcaag
gacagtccagactgccacttcggtaacgggacctacgagtgtggagcctgcaagtgtaat
gacgggcgcgtgggcagacagtgtgagtgcagcagcaacgatgtggccacagaggacatg
gaccggacctgtagaaaagacaacggcaccgacatctgcagcaacaacggagactgtgtg
tgcggcacgtgtgagtgcaaaaagagagataaccccgaggagaggtacagcggccagtac
tgcgactgtgacaacttcaactgtgaccgctctggaaacaagctgtgtggagggcatgga
cgctgtgagtgcagagtgtgtgtctgtgaccccatgtggaacggaagtgcctgtgattgt
tccctggacaacagcacgtgtatggccagcaacaagcagctctgtaacggcagaggaacg
tgtgaatgtggaacctgcaagtgcactgatcccaaattccagggtcccacctgtgaaact
tgtcctacctgtccaggggtctgcactgaacacaaagagtgcgtccagtgccgggcgttt
ggtacaggtgagaagaaggaaacatgtgagagggactgcagctacttcaacctgatcaag
gtgaaggacagggacaagctgccccagcccaatgacgccacctaccctgtgatgcactgc
aaggagagggacgccaacgactgctggttctactacacctacgccgtcaacaacaacacg
cagaaggaggtgcatgtggtggacgcgctggactgccccgccgggcctgacatcatcccc
atcgtggcgggcgtggtcgccggcatcgtcctgattggcttagccctgctgctcatctgg
aagctgctcatgatcatccacgacaggagagagtttgccaagttcgagaaggagaagatg
aacgccaaatgggatacgcaagacaacccaatatacaagagtcctatcaatcagttccag
aatccaagctatggacgtaaagctgctgtcctttaa |
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