| Entry |
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| Name |
(RefSeq) protein tyrosine kinase 2aa isoform X1
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| KO |
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| Organism |
cide Ctenopharyngodon idella (grass carp)
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| Pathway |
| cide05100 | Bacterial invasion of epithelial cells |
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| Brite |
KEGG Orthology (KO) [BR:cide00001]
09130 Environmental Information Processing
09132 Signal transduction
04012 ErbB signaling pathway
127500741
04370 VEGF signaling pathway
127500741
09140 Cellular Processes
09141 Transport and catabolism
04148 Efferocytosis
127500741
09144 Cellular community - eukaryotes
04510 Focal adhesion
127500741
09142 Cell motility
04810 Regulation of actin cytoskeleton
127500741
09160 Human Diseases
09171 Infectious disease: bacterial
05100 Bacterial invasion of epithelial cells
127500741
09180 Brite Hierarchies
09181 Protein families: metabolism
01001 Protein kinases [BR:cide01001]
127500741
01009 Protein phosphatases and associated proteins [BR:cide01009]
127500741
Enzymes [BR:cide01000]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.10 Protein-tyrosine kinases
2.7.10.2 non-specific protein-tyrosine kinase
127500741
Protein kinases [BR:cide01001]
Non-receptor tyrosine kinases
FAK family
127500741
Protein phosphatases and associated proteins [BR:cide01009]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-1
PP1-interacting proteins (PIPs)
127500741
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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 |
19:complement(17542560..17626833)
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| AA seq |
1110 aa
MRVFESGGCWLTLTTGSDRQSAAYMEKRRCSPFPLCWAAEYDRHLAHNKGMATAYLEPNP
NYTLGGGAKARLSAGTERAPGAPDRVLKIFHHFENNSEHSTWSSNIRHGDATDVRGIIQK
IVDIHKVKHVACFGLRLTHVPSGDIHWLHPDMGVSHVREKYEQNRPQDEWRYELRIRYLP
KGFLNQFAEDKPTLNYFYQQVKNDYMLEMADQVEQEIALKLGCLEIRRFYREMRGNALDK
KSNYELLEKDVGLKRFFPKSLMESVKAKTLRKQIQQTFKQFANLNDEQSMLKFFEILAPI
YRFDKECFRCALGSSWVISVDLAIGPEEGISYLTDKGSTPTHLANFTQVQSIHYSCVEEK
ERKGILQLDVAGAAEPLTISTPSFATAENMADLIDGYCRLLNAVSQSFIVRPQKEGERAL
PSIPKLANNEKRLEGIRAGVRAISVSEDGSGDETDDYAEIIDEEDTYTMPSTECYGLDAA
QDYEIQRDRIELGRCIGEGQFGDVHQGVYISPENPSLSVAIKTCKNCTSDSVREKFLQEA
LTMRQFDHPHIVKLIGIITENPVWIIMELCTLGELRSFLQVRKYNLDLSTLILFAYQLST
ALAYLESKRFVHRDIAARNVLVSSTDCVKLGDFGLSRYMEDSSYYKASKGKLPIKWMAPE
SINFRRFTSASDVWMFGVCMWEILMFGIKPFQGVKNNDVIGRIENGERLAMPPNCPPTLY
SLMTKCWAYDPSKRPRFTELKTQLSTILDEEKAQQEERFRMEMRRQVTVSWDTGNSDEAP
PKPSRPGYPSPRSSDGYFPSPQHAGQHNHYQGSGYPSAHVPGAGFPPQASVLDPHETWNH
HRQEVPVWSPNMEDGGALGRSQAMPTAHLMEETLMKQQQQMEEDQRWLEQEESFLKPESR
NSRGSIDREDGALQTPMGKQHVYQPVGKADHVAPPKKPPRPGAPSHLTNLNPVDSYNEGV
KIQPQEISPPPTANLDRSNDKVYENVTGLVKAVIEMSSRIQPAPPEEYVPMVKDVGLALR
TLLATVDETIPVLPASTHREIEMAQKLLNSDLAELISKMRLAQQYMLTSLQQDYKKQMLT
AAHALAVDAKNLLDVIDQARLKMLAHNRPH |
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| NT seq |
3333 nt +upstreamnt +downstreamnt
atgagggtgtttgagagcggcgggtgctggctgaccctcaccacgggctcagacagacag
tcagccgcttacatggagaaaagacgctgcagtccattccccttatgctgggccgcagaa
tatgacagacacttagcgcacaacaaaggcatggcgacggcatacctggagcccaacccg
aactacaccctgggcggcggggccaaggcccgtctgagtgcggggacggagcgggcccct
ggggcccctgacagggtcttgaagatcttccatcactttgagaacaacagtgaacacagc
acctggtccagcaacatccgacatggagatgcaactgacgtcaggggaatcatacagaag
atcgtggacatccataaagtcaaacacgtggcttgtttcgggctgcggctcactcacgtc
ccatcgggcgacatccattggctccaccccgatatgggcgtgtcccacgtgagggagaag
tacgaacagaaccgcccacaggacgaatggaggtatgaactgcggatccgttacctgccc
aagggcttcctgaatcagtttgctgaagacaagccgacactgaactacttttatcagcag
gtgaagaatgactacatgctggagatggcagatcaggtggagcaggaaattgccctaaag
ctgggatgtcttgagatcaggagattctacagagagatgagaggaaacgctctggataaa
aaatccaactatgaactcttagaaaaggacgttggactcaaacgcttcttccccaaaagt
ttaatggagtctgttaaggccaaaacactgaggaaacagatccagcaaacatttaagcag
ttcgccaacctgaacgacgagcagagcatgctgaagttttttgagatcctggcacccatc
tacagattcgacaaagagtgctttcgctgtgctttggggtcgagttgggtcatatcagtg
gatcttgctatcggtccggaggagggaatcagttacctgacagacaagggttccacgccg
acacatctggccaacttcacccaggtgcagagcatccattactcctgcgtggaggagaag
gagaggaagggcatcttacagctggacgtggcaggagccgccgagcctctcacgatcagc
acgccatccttcgccactgctgagaacatggccgacctcatcgacggctactgtcgactg
ctcaatgccgtcagccagtccttcatcgtcagacctcagaaagagggtgagagagctctt
ccatccattccaaaacttgccaacaatgagaagcggctcgaggggattcgggcaggagtt
cgtgccatctctgtttcagaagatggtagtggagatgaaacagacgactacgcagagatc
atagatgaggaagacacctacaccatgccctctaccgaatgctatggattagacgcagct
caggactatgagatccagcgggacagaatcgagctgggacggtgtatcggcgagggacag
ttcggtgacgtccaccaaggggtttacatcagtccggagaatccatcattatcagtggcc
attaagacgtgtaagaactgcacctctgacagcgtgcgtgagaaatttctacaggaagca
ctgacaatgcggcagttcgaccatccgcacatcgtgaagttgattggaataataactgaa
aatcctgtctggatcatcatggagttgtgcacgcttggagagttgaggtcgttcttgcaa
gtaaggaagtacaacctggacctgtccacgctgattctgttcgcctaccagctgagcaca
gcgctggcgtacctggagagcaaacgctttgtgcaccgggacattgctgccaggaatgtg
ttggtgtcttccacggattgtgtgaaacttggtgactttggtctctccaggtacatggag
gacagttcctattacaaagcttctaaagggaaactgccgattaaatggatggctccagaa
tccataaacttccgtcggtttacctcagccagcgacgtctggatgtttggtgtgtgtatg
tgggaaatcctcatgttcggcatcaagcccttccagggggtgaagaataatgacgtcatc
ggccggatagagaacggcgagaggttagcaatgcccccaaactgccccccgaccctctac
agcctgatgaccaaatgctgggcgtacgaccccagcaaacgcccgcggttcactgaactc
aagacacagctcagcactatcctggatgaggagaaggcccaacaggaggagcgtttccgt
atggagatgaggagacaggtcaccgtgtcctgggacactggcaattcagacgaggcgcct
cctaagcccagtcgacccggatacccgagtcctcgatccagtgacggatatttccctagt
ccacaacatgctggccagcacaatcattaccaggggtctggatatcccagtgcacatgtg
cccggagctggattcccgccgcaagcctccgtcctagacccacatgagacgtggaaccat
cacagacaggaagttcctgtgtggtctccaaacatggaggatgggggcgctctagggagg
agtcaggcgatgcccactgcccacctgatggaggaaacgctgatgaagcagcagcagcag
atggaggaagaccagcggtggctggagcaggaggagagtttcttgaagccggagtcaagg
aactcgaggggcagtatcgaccgggaggatggcgctctccagaccccgatggggaagcaa
cacgtttaccagccagttggtaaagcagatcatgtggctcctccaaagaaaccgccccgt
cccggcgctccgagtcacctgaccaacctgaacccagtggacagttacaacgagggcgtc
aagatccagcctcaggagatcagtccacctcctacagcaaacctggaccgctccaacgat
aaagtgtacgagaacgtgacggggctggtgaaggccgtcattgagatgtccagtcggatc
cagccggctcccccggaggagtacgtccctatggtgaaggatgttggactggccctcagg
acgttactagcgacggtggacgagacgatcccagtgttaccggccagcacacacagagag
atcgagatggctcagaagctgctgaactctgacctggcggagctcatcagtaagatgcgt
ctggcgcagcagtacatgttgaccagcctgcagcaggactacaagaagcagatgctgacc
gcggctcacgcgctcgccgtcgacgccaagaacctgctggacgtcatcgaccaggcgcgg
ctgaagatgctggctcacaaccggccgcactag |
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