| Entry |
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| Name |
(RefSeq) vinculin-like 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]
09140 Cellular Processes
09144 Cellular community - eukaryotes
04510 Focal adhesion
134858467
04520 Adherens junction
134858467
09142 Cell motility
04820 Cytoskeleton in muscle cells
134858467
04810 Regulation of actin cytoskeleton
134858467
09160 Human Diseases
09171 Infectious disease: bacterial
05100 Bacterial invasion of epithelial cells
134858467
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:emac04812]
134858467
04147 Exosome [BR:emac04147]
134858467
Cytoskeleton proteins [BR:emac04812]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Cross-linking proteins
134858467
Exosome [BR:emac04147]
Exosomal proteins
Exosomal proteins of other body fluids (saliva and urine)
134858467
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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 |
22:complement(13114633..13136724)
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| AA seq |
1158 aa
MPVFHTKTIESILEPVAQQISHLVIMHEEGEVDGKAIPDLTVPVAAVQAAVSNLVRVGKE
TVQTTEDQVMKRDMPPAFIKVENSSSKLVQAAQMLKADPYSVPARDYLIDGSRGILSGTS
DLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLITYTKNLGPGMTKMSKMIEERQQ
ELTHQEHRQMLVNSMGTVKELLPVLISAIKIFVSTKTTRGAGVEEAEKNRRFTFEKMSAE
IHEIIRVLQLTTWDEDAWANKDMEALKRSLALIESKMAHAKSWLKDPHGQPGDPGEVALR
VILDEAGKVGELCAGKERKDILATTKALGQMTDQVADLRVRGQGPTPGCVQRAGQCSQGL
DLLFGKVDNAARRLEALINAKQAIARRLDAAQAWLADPNGGPEGEENIRALLAEAKRIAD
LCENPKERDDILRSISEIAGLTARLVELRRQFKQQPHVINRWHIIPAWKICCCLSTLGIS
PTIRGKGDSPEARALAKQIGAALLTLQSKTNRAVANMRPAKPDVTLEGKMEQALRWVNNP
GVDDRGVGQAAIRGMVGEGKRLAGGLIGPYRQDMIGRCDRTEGLMTSLADMAGRGEAEAP
HARATAAQLQDSLKDLRQHMQEVMTQEVSDVFSDTTTPIKLLAVAATAPPEAPNREEVFE
ERAGNFEAHAGRLGATAEKAAAVGTANKSTVEGIHAAVKNSRELTPQVTSAAVILLKNPG
NKAAYEHFDTMKNQWIDNVEKLTGLVDEAIDTKSLLDASEEAIKKDIDKCRVAMANVQPQ
MLVAGATSIARRANRVLLVAKREVENSEDPRFRDTVKNASDILSHTISPMVMDAKAVAGN
IQDKALQKAYLDSCLRILAAVGKVREAFQPQEPDFPPPPPDLDQLHVSDEQAPPKPPLPE
GEVPPPRPPPPEEKDEEFPEQKVGEVLSEPMMVAARQLHDEARKWSSKPEEEEAVEEREV
YDEDEFTDGEDDYEPELLMMPSNQPVNQPILAAAQALHQEARKWSSKGNDIIAAAKRMAL
LMAEMSRLVRGGSGNKRALIQCAKDIAKASDEVTRLAKEVAKQCTDRRIRTNLLQVCERI
PTISTQLKILSTVKATMLGRTNISEDESEQATDMLVHNAQNLMQSVKETVREAEAASIKI
RTDSGCTLRWVRKTPWYQ |
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| NT seq |
3477 nt +upstreamnt +downstreamnt
atgccggtgtttcacaccaaaaccatcgagagtatactggaaccggtggcccagcagatc
tcccacctagtcatcatgcatgaggagggggaggtggacggtaaagccatcccggatctg
acagtgcctgtggccgcggtgcaggcggcagtcagcaaccttgtacgggtggggaaggag
acagttcaaaccaccgaggaccaggtgatgaagagagacatgcctcctgcgttcatcaag
gtggagaactcgagctctaagctggtccaggcggctcaaatgctaaaggctgatccctac
tctgtccccgctcgagattacctgatcgatggatccagagggatcctgtctgggacatca
gacctgctccttacctttgatgaggcagaggtgcgtaagatcattcgggtgtgtaaaggg
atcctagagtatctgacagtagctgaggtggtggagaccatggaggacctcatcacttac
accaagaacctggggccagggatgaccaaaatgtcaaagatgattgaggagaggcagcag
gagctgacacaccaagaacacagacagatgctcgtcaactccatgggcactgtcaaagag
ctgctgcccgttcttatatcagctataaagatttttgtatcaactaagaccactcgaggt
gccggtgttgaggaggcagagaagaaccggagatttacctttgaaaagatgagcgctgaa
atccacgagatcataagggtcttacagctcaccacctgggatgaagacgcctgggccaat
aaggatatggaggctttgaagagaagtttggctttgattgagtcaaagatggcacacgct
aaaagctggctcaaagacccccacggacaaccaggagaccccggtgaggttgccctgcgt
gtgattctggatgaagctggcaaggtgggagagctttgtgctggaaaggagaggaaagat
atcctggcaaccactaaggctcttggacaaatgactgaccaggttgcagatctacgagtc
agaggacagggcccgaccccggggtgtgtgcagcgtgcaggccagtgctcgcagggcttg
gacttgttattcggcaaagtggacaatgctgctcgtagattggaggctctaatcaatgcc
aagcaggcaatagccaggaggctggatgctgcacaggcctggctggctgaccctaacggc
ggtcctgagggggaggagaacatcagagcgttactcgcagaagccaagcgcatcgctgat
ctctgtgaaaaccccaaagagagggacgacatcctgcgctccatcagcgagatcgcaggc
cttaccgccagactggtggagctacgcagacagttcaaacagcagcctcatgtcatcaat
agatggcatattatacctgcctggaaaatatgttgttgcctgtcgaccctaggaatcagt
cctacaataaggggtaaaggggacagcccggaggcccgtgcattggcaaagcagattgga
gccgcgctgctgaccctgcagtcaaaaaccaaccgggctgtggccaacatgagaccggcc
aaacctgatgtcaccctggagggcaagatggagcaggccctccgctgggtgaacaacccc
ggagtggacgacagaggagtaggtcaggcagcaatcagagggatggtaggagaagggaag
aggcttgcaggtggcctgataggcccgtaccggcaggatatgattggacgttgcgacaga
acagagggtctaatgacatctttggcagacatggctggcaggggcgaggctgaggctccg
catgcacgagctactgctgcacaactgcaggacagcctcaaggaccttaggcagcacatg
caggaggtgatgacccaggaagtgtcagatgttttcagtgacaccaccacccctattaaa
ctgctggctgtggctgcaaccgctccccctgaggcccctaacagagaggaggtctttgaa
gagcgtgcagggaactttgaggcccatgctggccgtctgggggcgactgcagagaaggct
gctgctgtgggaacagccaataagagtacagtagaggggatacatgctgctgtgaaaaat
tccagggagctcacaccacaggtaacttcggctgctgtgatcttgttgaaaaatcctggg
aataaagccgcatacgagcacttcgacaccatgaagaaccagtggattgacaatgtagaa
aaactcacaggtctggttgacgaggccatcgacaccaaatctctgttggatgcctctgag
gaggctataaagaaagacatcgacaagtgccgagttgctatggcgaatgttcagccccaa
atgcttgttgccggggcaacgagcatagcgagacgagccaatcgggtcctgttggtggct
aagagggaagtggagaactctgaagatccgcggttcagagacacggtgaaaaacgcatcg
gacatcctctcacacaccatctctcccatggtgatggatgctaaagccgtggctgggaac
atacaagataaagctctgcaaaaagcctatttggactcttgtctgaggatcctggctgca
gttggaaaagttagagaagccttccaacctcaggagcctgacttccctcctcccccacct
gacctggaccagctccatgtgagtgatgagcaggcgccacctaagccgcccttgccagag
ggcgaagtacccccccctcggcccccgcctccagaggagaaggacgaggagttccctgag
cagaaggttggagaggtgctcagtgagcccatgatggtggccgcccggcagctgcacgat
gaggcgcgcaagtggtcaagcaagcctgaggaggaggaggcagtagaggagagagaggtt
tatgatgaagatgagtttactgatggtgaggatgactatgagccagaactgctgatgatg
ccctccaaccagcctgtcaatcaacccattctggcagctgcccaggctctccaccaggag
gcgcgcaagtggtccagcaagggtaacgacatcatcgcagcagccaagcggatggctctg
ctaatggcagaaatgtctcggctggtgcgcggtggaagtgggaacaaacgagcgctgatt
cagtgtgctaaggacatcgccaaggcttctgatgaggtgacgagattggctaaggaagtg
gccaagcagtgcactgacagacgcattagaactaacctgctgcaggtgtgtgaacgaatc
cctaccatcagtactcagctgaagatcctctctactgtcaaagccaccatgctgggacga
acaaacattagtgaagacgagtcagagcaggccacagacatgttggtgcataacgcccag
aatctcatgcagtcagtgaaggagacagtcagagaagcagaagcagcctccatcaagatc
cgcacagattccggatgcacccttcgctgggtgcgcaagacgccctggtaccaataa |
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