Salmo trutta (river trout): 115178885
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Entry
115178885 CDS
T08542
Name
(RefSeq) myosin-11-like isoform X1
KO
K10352
myosin heavy chain 9/10/11/14
Organism
stru
Salmo trutta (river trout)
Pathway
stru03273
Virion - Lassa virus and SFTS virus
stru04270
Vascular smooth muscle contraction
stru04530
Tight junction
stru04810
Regulation of actin cytoskeleton
stru04814
Motor proteins
stru04820
Cytoskeleton in muscle cells
Brite
KEGG Orthology (KO) [BR:
stru00001
]
09120 Genetic Information Processing
09125 Information processing in viruses
03273 Virion - Lassa virus and SFTS virus
115178885
09140 Cellular Processes
09144 Cellular community - eukaryotes
04530 Tight junction
115178885
09142 Cell motility
04814 Motor proteins
115178885
04820 Cytoskeleton in muscle cells
115178885
04810 Regulation of actin cytoskeleton
115178885
09150 Organismal Systems
09153 Circulatory system
04270 Vascular smooth muscle contraction
115178885
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:
stru04812
]
115178885
04147 Exosome [BR:
stru04147
]
115178885
Cytoskeleton proteins [BR:
stru04812
]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Myosins
115178885
Exosome [BR:
stru04147
]
Exosomal proteins
Exosomal proteins of bladder cancer cells
115178885
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Myosin_tail_1
Myosin_head
Myosin_N
ERM_helical
Crescentin
ADIP
CC2-LZ
IQ
AAA_22
Motif
Other DBs
NCBI-GeneID:
115178885
NCBI-ProteinID:
XP_029596140
Ensembl:
ENSSTUG00000041884
LinkDB
All DBs
Position
38:complement(7082075..7123087)
Genome browser
AA seq
1980 aa
AA seq
DB search
MANKKQMTEDEKFLFLDKDFINSPMAQADWSAKKLVWIPSEKNGFEAASVKEEHGDECLV
ELADNGKKVTVNKDDIQKMNPPKFSKVEDMAELTCLNEASVLHNIRERYFSGLIYTYSGL
FCVVVNPYKMLPIYSEKIIEMYKGKKRHEVPPHIYSITDNAYRNMMQDREDQSILCTGES
GAGKTENTKKVIQYLALVASSHKGKKDTSATQPGAFVHGELEKQLLQANPILEAFGNAKT
IKNDNSSRFGKFIRINFDVTGYIVGANIETYLLEKSRCIRQAKTERAFHIFYYMVAGVKD
KLREELLLENFSAYRFLIAGHVSISGQQDDEMYEETMEAMNIMGITEEERTGILKVCSTV
LQLGNIEFKKERNQEQATMPDNTAAQKVCHLQGINVVDFTRAILTPRIKVGREVVQKAQT
KEQADFAIEALAKAMYERLFRWLLARVNKALDKTKRQGASFLGILDIAGFEIFEDNSFEQ
LCINYTNEKLQQLFNHTMFVLEQEEYQREGIEWSFIDFGLDLQPCIELIERPNNPPGILA
LLDEECWFPKATDVSFVEKLMNTQASHLKFSKPKQLKSKTEFSVHHYAGKVDYNADNWLT
KNMDPLNDNVIALLNSSSNTFIQDLWKDADRVVGLETMAKMSDSSMPSGSKTKKGMFRTV
GQLYKESLAKLMTTLHNTQPNFVRCIIPNHEKRAGKLDAHLVLDQLKCNGVLEGIRICRQ
GFPNRILFQEFRQRYEILAASAIPKGFMDGKQACGLMIKHLDLDPNLYRIGQSKIFFRTG
VLAQLEEERDLKITVVIIAFQSQARGFLARKAFAKRQQQLMAMKVIQRNCAAYLKLRNWQ
WWRLFTKVKPLLQVTRQEEEMGLKDEELQKAKESAVKYESELKEITLKHTTIMEERNTLQ
EQLQAETELYAEAEEMRVRLAAKKQELEEILHEMEARLEEEEDRAQALQVDKKKMQQQMQ
DLEEHLEEEEDARQKLQLEKVACEGKIKKLEDDVLVMEDHNTKLLKERKLMEERLADFSS
NLAEEEEKSKNLTKLKNKHESMISELEVRLKKEEKGRQELDKAKRKLEAESNDLQEQIAD
LLAQIAELKAQLAKKEEELQAALARLEDEMAQKNNALKKIRELEGHISDLQEDLDSERQA
RNKTEKARRDLGEELEALKSELEDTLDSTATQQELRAKREQEVTLLKKAMDDEGRTHEAQ
VQEMRQKHTQAVEELTEQLEQSKRVKSNLDKAKQALEKETSELTVEVRSLTTAKQDVENK
KRKVEGQLNELQARFTDSEKQKGELGERCSKITIELESVTNLLNEAEGKNIKLSKDVSTL
SAQVQDTQELLAEETRQKLQFSTKLRQMEDDRNSLQEQLEEEVEAKRNVERHVSTLNIQL
SDSKKKLEEMAGNNELLEESKKRLQRDLEASNTQFEEKASAYDKLEKTKNRLQQELEDIL
MDLDNQRTVVSNLEKKQKKFDQMLAEEKTISSKYADERDRAEAEAREKETKALSLARALE
EAQDSREELERANKSLRTEMEDLVSSKDDVGKSVHELEKGKRGLEAQVEEMKTQLEELED
ELQAAEDAKLRLEVNMQALKAQFERDLVGRDEMGEEKKRQLIKQVRELETELEDERKQRA
TAAAAKKKLEGDMKDLEGQIEMSNKGRDEAIKQLRKIQAQMKDFQRELEDAHAAREEVLG
TAKESERKAKSLEAELMQIQEELAAAERARKQAEAERDELSDELASNTSGKSALSDEKRR
LEAKISQLEEELEEESSNMEILNDRLRKSTQQVDQLNNELQTERTTSQKNESARQQMERQ
NKDLKAKLQEMENQVKSKFKSSITALEAKVAQLEEQVEQESRDKQAVAKGLRQKDKKLKD
LMIQVEDERKQAEQYKEQAEKGNTRMKQLKRQLEESEEESQRITAARRKLQRELDESTEA
NDAMSREVNSLKSKLRRGTEPSFSSAPRRVGGSARRGVIDDASEEDGDSQGDYNGTKSVE
NT seq
5943 nt
NT seq
+upstream
nt +downstream
nt
atggctaataaaaaacagatgactgaggatgagaagttcctcttcctggacaaggacttc
atcaacagtcccatggcccaggctgactggtcagccaagaagctggtgtggatcccctca
gagaagaatggcttcgaggcggcgagcgtcaaggaggagcacggggacgagtgcctggtt
gagctggccgacaatgggaagaaggtgacggtgaataaggacgatatccagaagatgaac
cctcccaagttcagtaaggtggaggacatggccgagctcacctgcctgaacgaggcatcg
gtgctgcacaacatccgggagaggtacttctccggactcatctatacatactctggcctg
ttctgtgtagtggtgaacccatacaagatgctgcccatctactctgagaaaatcattgag
atgtacaaagggaagaaacgccacgaagtcccccctcacatctactccatcactgacaat
gcctacagaaacatgatgcaagatcgtgaggaccagtccattctttgcactggggagtct
ggtgcgggtaagacagagaacaccaagaaggtcatccagtatctggctctagtggcctct
tctcacaaaggcaagaaggacaccagtgctacacagccaggagcatttgtccacggggag
ctggaaaagcagcttctgcaggctaaccccatcctggaggccttcgggaacgccaagacc
atcaaaaatgacaactcttcgcgatttggtaaattcatccgcatcaactttgacgtgact
ggctacatcgtcggagccaacattgaaacctacctgctggagaaatctcgttgtatcaga
caggccaagacagagagagccttccacatcttctactacatggtggctggggtcaaggac
aagctacgtgaggagcttctgctggagaacttcagcgcctaccgtttcctgattgcgggc
catgtctcgatctcgggccagcaggacgacgagatgtacgaggagaccatggaggccatg
aacatcatgggtatcactgaggaagagaggacaggcatcctgaaggtgtgctccacggtg
ctgcagttgggaaacatagagttcaagaaggagaggaaccaggagcaggccaccatgcct
gacaacacagcggctcagaaggtgtgccatctccagggcatcaacgtggtagacttcacc
agagccatcctcacgcctcgcatcaaagtgggcagagaggtggtacagaaagcacagacc
aaagagcaggctgactttgccatcgaggccttggccaaggctatgtacgagcgtctgttc
cgctggctgctagctagggtcaacaaggctctggacaagaccaaacgccagggagcatcc
ttcttgggcatcctcgacatcgctggctttgagatctttgaggataactcctttgagcag
ctgtgcatcaactacacaaacgagaagctgcagcagctgttcaaccacaccatgttcgtc
ctggagcaagaggagtaccagagggagggaattgaatggagcttcatcgactttggcctg
gacctgcagccctgcattgagctcattgagaggccgaacaatcctcctggtattctggcc
ctgttggatgaggagtgctggttccccaaagccacagacgtctccttcgtggagaaactc
atgaacacccaggccagccacctcaagttcagcaaacccaaacagctgaagagcaagaca
gagttctctgtgcaccactacgctggaaaggtggactacaatgctgataattggttgaca
aagaacatggaccctctcaacgacaacgtcatagcactgcttaacagctcgtccaacacg
tttatccaggatctctggaaagatgcggaccgcgtggtgggcctagagaccatggccaag
atgtccgacagctccatgcccagcggctccaagaccaagaagggcatgttccggaccgtg
ggtcagctctacaaggagtccctggccaagctcatgaccacgctgcacaacacccagccc
aacttcgtcagatgtatcatccctaaccacgagaagagggcggggaaactggatgcccat
ctggtcttggatcagctgaagtgcaacggggtgttggagggcatccgtatctgccggcaa
ggattccccaaccgaatcctcttccaggagttccgtcagcgttacgagatcctggcggct
agtgctattcccaagggattcatggatggcaaacaggcgtgtggtctcatgattaagcac
ctggatctggaccccaacttgtaccggattggtcagagtaagatcttcttccgtaccggc
gtgttggcccagcttgaggaggagagagatctgaagattactgtggtcattatcgccttc
cagtcccaggctagaggtttcctggccagaaaggcctttgctaagagacagcagcaactg
atggccatgaaggtgattcagaggaactgtgctgcctacctcaaactcaggaactggcag
tggtggagactcttcaccaaggtcaagcctctgctgcaagtgacccgccaggaggaggag
atgggcctgaaggacgaggagctgcagaaggccaaggagtctgcagtgaagtacgaatca
gagctgaaggagatcaccctgaaacacacaacaattatggaagagaggaacacactgcaa
gagcagctgcaggctgagaccgagctgtatgcagaggcagaggagatgagggtgcgtctg
gccgctaagaagcaggagctggaggagatcctccatgaaatggaggccaggttggaagag
gaggaggaccgcgctcaggccctgcaggtggacaagaaaaagatgcagcaacagatgcag
gacctggaagagcatctggaggaggaggaggatgcccgtcagaagctgcaactggagaag
gtagcatgtgaaggcaagatcaagaagttagaggacgatgtcttagtgatggaggaccac
aacaccaaactgttaaaggagaggaaactaatggaagagaggctagcagatttcagctcc
aacctggcagaggaggaagagaagtccaaaaacctgaccaagctcaagaacaaacatgag
tcgatgatctctgaacttgaggtccgtctgaagaaggaggagaagggtcggcaggagctg
gacaaagcaaagcgtaagctggaggcggagtctaacgacctccaggagcagatagccgac
ctgctggcccagatcgctgagctcaaagcccagctggctaagaaggaggaagagctacag
gctgctctggccaggctggaggacgagatggcccagaagaacaatgccctaaagaagatc
cgggagctggagggccacatctcagaccttcaggaggacctggactcagagcgccaggcc
aggaacaagactgagaaggccaggagggacctgggagaggagctggaggccctcaagtct
gagctggaggatacacttgacagcaccgctacccagcaggagctccgggcgaagagagaa
caggaggtgaccctgttgaagaaggccatggacgacgagggtcggacccacgaggcccag
gtgcaggagatgagacagaaacacacccaggccgtagaggagctcacagagcagctggag
cagtccaaacgggtgaagtcgaacctggacaaggccaagcaggccctggagaaggagacg
tcggagctgacggtggaggtgcgctccctgaccacggccaaacaggacgtggagaacaag
aagaggaaggtcgaaggtcagctgaacgagctgcaggcacgcttcaccgacagcgagaag
cagaagggcgagctgggagagcgctgctccaagatcactattgaactagagagtgtcacc
aacctcctgaatgaagccgaggggaagaacatcaagctgagcaaagatgtctccaccctc
agcgcccaagtccaagacacacaagagctgctggctgaggagacccgtcagaagctgcag
ttctccacgaagctgcgtcagatggaggacgaccgcaacagtctgcaggaacagctggag
gaggaggtggaggccaagaggaacgtggagagacacgtgtccaccctcaacatacagctg
tcagactccaagaagaagctagaagaaatggccggcaacaatgagctcctggaggagagc
aagaagcgtcttcagagagacctggaagcgtccaacacccagttcgaggagaaggcctct
gcctacgacaagctggagaagaccaagaaccgtctgcagcaggagctagaggacatcctc
atggacctggacaaccagaggaccgtcgtctccaacctggagaagaagcagaagaagttc
gaccagatgttagctgaggagaagaccatctccagtaagtacgctgatgagagggaccgt
gctgaggcagaggccagggagaaggagaccaaggctctgtctctggcacgtgctctggag
gaggcccaggacagcagggaggagctggagagagccaacaagtccctgaggactgagatg
gaagacctggtcagctctaaggacgacgtgggcaagagtgtccatgagttggagaagggg
aagcgtgggctggaggcccaggtggaggagatgaagacccagctggaggagctggaggac
gagctgcaggctgcagaggacgccaagctgcgtctggaggtcaacatgcaggccctgaag
gcccagttcgaaagggacctggtgggacgtgacgagatgggagaggagaagaagagacag
ctcataaagcaggtgcgcgagttggagacagagctagaggacgagaggaagcagagagcc
acggcggcagcagccaagaagaagctggagggagatatgaaggacctggagggacagatt
gagatgtccaacaagggacgcgacgaggccattaagcagctgcgcaagatccaggcccag
atgaaggacttccagagggaactggaagatgcccatgcagccagagaagaggtgctgggt
acggccaaggagagcgagaggaaggccaagagtctggaggctgagctcatgcagattcag
gaggagctggctgctgctgagagggcacggaaacaagcagaggctgagcgggacgagctg
tccgacgaactagccagcaacacctctggaaagtcagccctgtctgatgaaaagcgtcgt
ttggaggctaagatctcccagctggaggaggagctggaggaagagagcagtaacatggag
atcctcaacgacagattgaggaagagcactcaacaggtggaccagctgaacaatgagctg
cagactgagcgcaccacctcccagaagaacgagagcgcccggcagcagatggagaggcag
aacaaggacctaaaggccaagctgcaggagatggagaaccaggtcaagtccaagttcaag
tcatccatcaccgccctggaggcaaaggtggctcagttggaagagcaggtggagcaggag
agcagagacaagcaggccgtagccaagggcctgcgccagaaggacaaaaagctgaaagat
ctgatgatccaggtggaggacgagaggaaacaggccgaacagtacaaggaacaggcagaa
aagggcaacacgcggatgaagcagctgaagcgccagctggaggagtcggaggaggagtct
cagcgcatcacggctgcgcgcaggaagctgcagagggagctggatgagtccaccgaggct
aacgatgccatgagccgcgaggtcaactccctcaagagcaaactcaggcgcgggaccgag
ccctccttcagcagcgcaccgcgccgtgtcgggggcagtgcccggagaggggtcatcgat
gacgcgtcggaagaagacggggactcacagggggactacaacggaacaaagtctgttgag
tag
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integrated database retrieval system
