| Entry |
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| Symbol |
itga2b.1.S, cd41, cd41b, gp2b, gpiib, gta, hpa3, itga2b.1
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| Name |
(RefSeq) integrin subunit alpha 2b S homeolog precursor
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| KO |
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| Organism |
xla Xenopus laevis (African clawed frog)
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| Pathway |
| xla04810 | Regulation of actin cytoskeleton |
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| Brite |
KEGG Orthology (KO) [BR:xla00001]
09130 Environmental Information Processing
09133 Signaling molecules and interaction
04512 ECM-receptor interaction
100191022 (itga2b.1.S)
09140 Cellular Processes
09144 Cellular community - eukaryotes
04510 Focal adhesion
100191022 (itga2b.1.S)
09142 Cell motility
04820 Cytoskeleton in muscle cells
100191022 (itga2b.1.S)
04810 Regulation of actin cytoskeleton
100191022 (itga2b.1.S)
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:xla01009]
100191022 (itga2b.1.S)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:xla04147]
100191022 (itga2b.1.S)
04515 Cell adhesion molecules [BR:xla04515]
100191022 (itga2b.1.S)
04090 CD molecules [BR:xla04090]
100191022 (itga2b.1.S)
Protein phosphatases and associated proteins [BR:xla01009]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-1
PP1-interacting proteins (PIPs)
100191022 (itga2b.1.S)
Exosome [BR:xla04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
100191022 (itga2b.1.S)
Cell adhesion molecules [BR:xla04515]
Integrins
Integrin alpha subunits
100191022 (itga2b.1.S)
CD molecules [BR:xla04090]
Proteins
100191022 (itga2b.1.S)
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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 |
9_10S:4720065..4736499
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| AA seq |
1034 aa
MMPLLLILLIPTYVQNLNLDKTPQTLSGPPGSYFGFSMDFYKGMSIVVGAPRMQIFQSNV
TNGGGVFLCPWDPKGSSCTNINFDKTGDRSDSVGSGTMKVYKSNQWLGATVRTWNTAIVA
CAPLQHWNFIRSDQEAGVAPTGACYITDNLRDIHEFAPCRDNKTDIYYAPDNRYCEVGFS
AEISKNGTLLAGAPGGYYFKGLCATEDLPSILKKPPTSALLRSYPSRQISPNFRFPSTML
SHDAYKGFSVAYGEFTDDNVPEIVLGSPVYPHMGIVEIYTNDYQWRIYTFKEEQIASYFG
HSVAVTDVNNDGKDDVLVGAPLFMERRTGGKLQEVGRVYVYLQRTYSRFSNDHPILRGSR
VYGQFGSSIAPIGDIDQDGFNDVAVGAPFGGESGGGCVHIYRGSTAGLSPQPSQILDSPL
PPPSQFGFALRGGTDIDNNGYPDLLVGAFEADKVFIFRAQPVVVLQASLFFHPEALNPEV
KLCKLPQGGAAVSCFTLRVCAQASGRSLPKKISLSAELQLDRLKSRFARRTFFLDSSQPS
KTIDMELHSNSAQICQNLTAYLRGESEFKDKLSPIAVSVNFSLVKEQSPDTVQPTLHGTT
LLQEQTNILLDCGEDNVCIPDLHLRANWSADPLLIGIDNLVHVLFNATNSGEGAYEAELH
VWLPVGAHYMQVLGKAEEKILCSPKKGNESEIVVCELGNPMKNRAEIHADLQLSFSNLED
SGSTVAFQMQIKSRNSMNSSSPVFWVKMPVTVATTLELRGSSHPAEVVLPLPNWEPKVES
RKAQDYGEEVTHLYELHNAGPSSVNVQLVVQSPTIYQDDYILYPLRLEFDDKMTCENQST
LNPLKLDIFFTTEAPLSYSTGNNHRLDKRDVRKETTDELIDEGKNHTKKDETLQKHPIQL
NCSSGVPCWAVTCSMQNLDRGERATVKLHSILWIPSLIKRPQQQFTLLSLGSFQVTGVPY
KIQPSTLLAGKAAANTTVLWASPDGQKEIPLWWIIVGALGGLLLLALFVFVMWKLGFFER
TRPPTDDQDELASD |
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| NT seq |
3105 nt +upstreamnt +downstreamnt
atgatgccactgttgcttatccttttgattcccacctacgtccaaaatctaaatctggat
aagactccccaaaccttgtctggaccccctggtagctactttggcttttccatggacttc
tacaaagggatgagcattgtggtgggtgctccaagaatgcagatattccagagcaacgtc
acaaatggtggtggtgtcttcctatgtccctgggaccctaagggcagcagctgcaccaac
atcaactttgataagacaggagatcgaagtgactctgtgggaagcggcaccatgaaagtc
tataagtccaaccaatggcttggggcaacggtcagaacctggaacacggccattgtggcc
tgtgcaccattacagcattggaatttcatccgaagtgaccaggaggctggtgtcgccccc
actggggcatgttacataacagacaacctgcgggatatccatgaatttgccccctgcagg
gacaacaaaaccgacatttactatgcccctgacaacagatattgtgaggtggggttcagt
gcagagatcagcaagaatgggaccctgttagctggagcacccgggggttactattttaaa
ggattatgcgctacagaagatctgcctagcatcttgaaaaagccccccacttcagccctg
ctgcgttcctatccaagccgacagatctctcccaacttcagatttccatcaacaatgctt
tcacatgacgcctacaaaggtttctcagtggcctatggagagtttacagatgataatgtc
ccagagattgtgcttgggagccctgtttaccctcatatgggcatcgttgaaatttataca
aacgactatcagtggagaatttacactttcaaggaagagcagattgcctcctattttggc
cactctgttgctgttaccgatgtcaacaatgatgggaaggatgatgttttggtgggtgcc
cctctgtttatggaacgtcggactggtgggaagctccaggaggttggacgggtctatgtg
tacctgcagaggacttacagtagattcagcaatgaccacccaatccttcgagggtcccga
gtctatgggcagtttggctcttccattgctcctataggagacatagaccaggatggcttc
aatgatgtagctgtgggcgctccattcggaggagaatctgggggaggctgtgtgcatatt
tatcgaggatccacagctggtctgtccccccaaccttcgcagatattggatagtcctcta
cctcccccatcccagtttggttttgcactaaggggagggacggatattgacaacaatggg
tacccagatctgctggtcggtgcatttgaagcagacaaagtctttatattccgggcccag
cctgtagttgtccttcaggcctcgttgttcttccacccagaagctctgaacccagaggtg
aagctctgcaaacttcctcaggggggcgctgctgtcagctgttttacacttcgtgtctgt
gctcaagcatcgggtcgtagccttccaaagaaaatcagtctttcagctgagctccaactg
gaccgtctgaagagcagatttgcccgaagaactttcttcttggattcctcccagccaagt
aaaaccatagacatggaacttcatagcaactccgctcagatctgccagaacctcacagcc
tacttgcggggagaatctgagttcaaggacaaactcagtcctatagctgtgagtgtcaac
ttcagtctggtgaaagaacagtctccagacacagtgcaacccacccttcatgggaccacc
ctcttgcaggaacagactaatatactgttggactgtggtgaggacaatgtctgtatccca
gacttgcatctacgtgccaactggtctgcagatcctcttcttattggcatagataacctt
gtacatgtcctgttcaacgccaccaattctggagaaggagcctacgaggccgagctgcac
gtctggctgccagtgggagcacactacatgcaagttttggggaaagcagaggagaagatc
ctgtgttcccccaaaaaggggaacgaatcggaaattgtggtttgtgaattggggaaccca
atgaagaacagagcagagatccacgcagacctgcagctcagcttcagtaacctggaggat
tctgggagcaccgttgccttccagatgcaaataaagagccgtaacagtatgaactcaagc
agcccagtgttttgggtgaagatgccagtcactgtggcaacaaccttagaactgcgaggg
agttctcaccctgccgaagttgttctcccattacccaactgggaaccaaaagtggaatca
agaaaagcccaagactatggggaggaggtgacacatctctatgagttacacaatgctggg
ccaagctccgtcaatgtccagttggttgtacagagcccaacaatctatcaggatgactac
attctgtatcctctgcgtttggagtttgatgacaaaatgacttgtgagaaccagtcaacg
ctcaaccctttaaagctggacatcttctttaccacggaagcacctctcagttatagcact
ggcaacaaccacaggttggacaagagagatgtcagaaaagaaaccactgacgagctgata
gatgaaggaaagaaccacacaaagaaagacgagacccttcagaagcaccctatacaactg
aactgtagcagtggtgtcccttgctgggccgtgacctgctcgatgcaaaatctggacaga
ggagagagagcaacagtgaaactccactcgatactttggattcccagtttaataaagagg
cctcaacagcagttcaccctcctttctctaggatccttccaggttacaggagtcccttac
aagatccagccttcaactctgttggccgggaaagctgcagccaacaccactgtcttgtgg
gcgagtccagatggtcagaaggagatcccactgtggtggataatcgtaggggctcttggg
ggactgctcctcttggccctctttgtatttgtcatgtggaagctcggattttttgagcgg
acgagacctccaactgatgatcaggatgaactagccagcgattag |
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