KEGG   Salmo salar (Atlantic salmon): 100380663
Entry
100380663         CDS       T04363                                 
Symbol
myh11
Name
(RefSeq) myosin-11
  KO
K10352  myosin heavy chain 9/10/11/14
Organism
sasa  Salmo salar (Atlantic salmon)
Pathway
sasa03273  Virion - Lassa virus and SFTS virus
sasa04270  Vascular smooth muscle contraction
sasa04530  Tight junction
sasa04810  Regulation of actin cytoskeleton
sasa04814  Motor proteins
sasa04820  Cytoskeleton in muscle cells
Brite
KEGG Orthology (KO) [BR:sasa00001]
 09120 Genetic Information Processing
  09125 Information processing in viruses
   03273 Virion - Lassa virus and SFTS virus
    100380663 (myh11)
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04530 Tight junction
    100380663 (myh11)
  09142 Cell motility
   04814 Motor proteins
    100380663 (myh11)
   04820 Cytoskeleton in muscle cells
    100380663 (myh11)
   04810 Regulation of actin cytoskeleton
    100380663 (myh11)
 09150 Organismal Systems
  09153 Circulatory system
   04270 Vascular smooth muscle contraction
    100380663 (myh11)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:sasa04812]
    100380663 (myh11)
   04147 Exosome [BR:sasa04147]
    100380663 (myh11)
Cytoskeleton proteins [BR:sasa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Myosins
     100380663 (myh11)
Exosome [BR:sasa04147]
 Exosomal proteins
  Exosomal proteins of bladder cancer cells
   100380663 (myh11)
SSDB
Motif
Pfam: Myosin_tail_1 Myosin_head Myosin_N ERM_helical Crescentin ADIP CC2-LZ IQ AAA_22
Other DBs
NCBI-GeneID: 100380663
NCBI-ProteinID: XP_013986237
UniProt: A0A1S3L5I4
LinkDB
Position
ssa12:complement(16867043..16902000)
AA seq 1980 aa
MANKKQMTEDEKFLFLDKDFINSPMAQADWSAKKLVWIPSEKNGFEAASVKEEHGDECLV
ELADNGKKVTVNKDDIQKMNPPKFSKVEDMAELTCLNEASVLHNIRERYFSGLIYTYSGL
FCVVVNPYKMLPIYSEKIIEMYKGKKRHEVPPHIYSITDNAYRNMMQDREDQSILCTGES
GAGKTENTKKVIQYLALVASSHKGKKDTSATQPGAFVHGELEKQLLQANPILEAFGNAKT
IKNDNSSRFGKFIRINFDVTGYIVGANIETYLLEKSRCIRQAKTERAFHIFYYMVAGVKD
KLREELLLENFSAYRFLIAGHVSISGQQDDEMYEETMEAMNIMGITEEERTGILKVCSTV
LQLGNIEFKKERNQEQATMPDNTAAQKVCHLQGINVVDFTRAILTPRIKVGREVVQKAQT
KEQADFAIEALAKAMYERLFRWLLARVNKALDKTKRQGASFLGILDIAGFEIFEDNSFEQ
LCINYTNEKLQQLFNHTMFVLEQEEYQREGIEWSFIDFGLDLQPCIELIERPNNPPGILA
LLDEECWFPKATDISFVEKLMNTQASHIKFSKPKQLKSKTEFSVHHYAGKVDYNADNWLT
KNMDPLNDNVIALLNSSSNTFIQDLWKDADRVVGLETMAKMSDSSMPSGSKTKKGMFRTV
GQLYKESLAKLMTTLHNTQPNFVRCIIPNHEKRAGKLDAHLVLDQLKCNGVLEGIRICRQ
GFPNRILFQEFRQRYEILAASAIPKGFMDGKQACGLMIKHLDLDPNLYRIGQSKIFFRTG
VLAQLEEERDLKITVVIIAFQSQARGFLARKAFAKRQQQLMAMKVIQRNCAAYLKLRNWQ
WWRLFTKVKPLLQVTRQEEEMGLKDEELQKAKESAVKYESELKEITLKHTTIMEERNALQ
EQLQAETELYAEAEEMRVRLAAKKQELEEILHEMEARLEEEEDRAQALQVDKKKMQQQMQ
DLEEHLEEEEDARQKLQLEKVACEGKIKKLEDDVLVMEDHNTKLLKERKLMEERLADFSS
NLAEEEEKSKNLTKLKNKHESMISELEVRLKKEEKGRQELDKAKRKLEAESNDLQEQIAD
LLAQIAELKAQLAKKEEELQAALARLEDEMAQKNNALKKIRELEGHISDLQEDLDSERQA
RNKTEKARRDLGEELEALKSELEDTLDSTATQQELRAKREQEVTLLKKAMDDEGRTHEAQ
VQEMRQKHTQAVEELTEQLEQSKRVKSNLDKAKQALEKETSELTVEVRSLTTAKQDVENK
KRKVEGQLNELQARFTDSEKQKGELGERCSKITIELESVTNLLNEAEGKNIKLSKDVSTL
SAQVQDTQELLAEETRQKLQFSTKLRQMEDDRNSLQEQLEEEVEAKRNVERHVSTLNIQL
SDSKKKLEEMAGNNELLEESKKRLQRDLEASNTQFEEKASAYDKLEKTKNRLQQELEDIL
MDLDNQRTVVSNLEKKQKKFDQMLAEEKTISSKYADERDRAEAEAREKETKALSLARALE
EALDSREELERANKSLRTEMEDLVSSKDDVGKSVHELEKGKRGLEAQVEEMKTQLEELED
ELQAAEDAKLRLEVNMQALKAQFDRDLVGRDEMGEEKKRQLIKQVRELETELEDERKQRA
TAAAAKKKLEGDMKDLEGQIEMSNKGRDEAIKQLRKIQAQMKDFQRELEDARAAREEVLG
TAKESERKAKSLEAELMQIQEELAAAERARKQAEAERDELSDELASNTSGKSALSDEKRR
LEAKISQLEEELEEESSNMEILNDRLRKSTQQVDQLNNELQTERTTSQKNESARQQMERQ
NKDLKAKLQEMENQVKSKFKSSITALEAKVAQLEEQVEQESRDKQAVAKGLRQKDKKLKD
LMIQVEDERKQAEQYKEQAEKGNTRMKQLKRQLEESEEESQRITAARRKLQRELDESTEA
NDAMSREVNSLKSKLRRGTEPSFSSAPRRVGGSARRGVIDDASEEDGDSQGDYNGTKSVE
NT seq 5943 nt   +upstreamnt  +downstreamnt
atggctaataaaaaacagatgactgaggacgagaagttcctcttcctggacaaggacttc
atcaacagtcccatggcccaggccgactggtcagccaagaagctggtgtggatcccctca
gagaagaatggcttcgaggcggcgagcgtcaaggaggagcacggggatgagtgcctggta
gagctggctgacaatgggaagaaggtgacggtgaataaggatgatatccagaagatgaac
cctcccaagttcagtaaggtggaggacatggccgagctcacctgcctgaacgaggcttca
gtgctgcacaacatccgggagaggtacttctccgggctcatctatacatattctggcctg
ttctgtgtagtggtgaacccatacaagatgctgcccatctactctgagaaaatcattgag
atgtacaaagggaagaaacgccacgaggttcctcctcacatctactccatcactgacaac
gcctacagaaacatgatgcaagatcgtgaggaccagtccattctttgcactggggagtct
ggtgcaggtaagacagagaacaccaagaaggtcatccagtatctggctctagtggcctct
tctcacaaaggcaagaaggacaccagtgctacacagccaggagcatttgtccacggggag
ctggaaaagcagcttctgcaggctaaccccatcctggaggccttcgggaacgccaagacc
atcaaaaatgacaactcttcacgatttggtaaattcatccgcatcaactttgacgtgact
ggctacatcgtcggagccaacattgaaacctacctgctggagaagtctcgttgtatcaga
caggccaagacagagagagccttccacatcttctactacatggtggctggggtcaaggac
aagctccgcgaggagcttctgctggagaacttcagtgcctaccgtttcctgattgcgggc
catgtctcgatctcgggccagcaggacgacgagatgtacgaggagaccatggaggccatg
aacatcatgggtatcactgaggaagagaggacaggcatcctgaaggtgtgctccacggtg
ctgcagttgggaaacatagagttcaagaaggagaggaaccaggagcaggccaccatgcca
gacaacacagcggctcagaaggtgtgccacctccagggcatcaacgtggtagacttcacc
agagccatcctcacacctcgcatcaaagtgggcagagaggtggtgcagaaggcccagacc
aaagagcaggctgactttgccatagaggccttggccaaggctatgtatgagcgtctgttc
cgctggctgctagctagggtcaacaaggctctggacaagaccaaacgccagggagcgtcc
ttcttgggcatcctcgacattgctggctttgagatctttgaggataactcctttgagcag
ctgtgcatcaactacacaaacgagaagctgcagcagctgttcaaccacaccatgttcgtc
ctggagcaagaggagtaccagagggagggaattgaatggagcttcatcgacttcggcctg
gacctgcagccctgcattgagctcatcgagaggccaaacaatcctcctggtattctggcc
ctgttggatgaggagtgttggttccccaaagccacagacatctccttcgtggagaaactc
atgaacacccaggccagccacatcaagttcagcaaacccaaacagctgaagagcaagaca
gagttctctgtgcaccactatgctggaaaggtggactacaatgctgataattggttgaca
aagaacatggaccctctcaacgacaacgtcatagcactgcttaacagctcgtccaacacg
tttatccaggatctctggaaagatgcggaccgcgtggtgggcctggagaccatggccaag
atgtccgacagctccatgcccagcggctccaagaccaagaagggcatgttccggaccgtg
ggtcagctctacaaggagtccctggccaagctcatgactacgctgcacaacacccagccc
aacttcgtcagatgtatcatccctaaccacgagaagagggcggggaaactggacgcccat
ctggtcttggatcagctgaagtgcaacggtgtgttggagggcatccgtatctgccggcaa
ggattccccaaccgaatcctcttccaggagttccgtcagcgttacgagatcctggcggct
agtgctattcccaagggattcatggatggcaaacaggcgtgtggtctcatgattaagcac
ctggatctggaccccaacttgtaccggattggtcagagtaagatattcttccgtaccggc
gtgttggcccagctcgaggaggagagagatctgaagattacggtggtcattatcgccttc
cagtcccaggctagaggtttcctggccagaaaggcctttgctaagagacagcagcaactg
atggccatgaaggtgattcagaggaactgtgctgcctacctcaaactcaggaactggcag
tggtggagactcttcaccaaggtcaagcctctgttgcaagtgacccgccaggaggaggag
atgggcctgaaggacgaggagctgcagaaggccaaggagtctgcagtgaagtacgaatca
gagctgaaggagatcaccctgaaacacacaacaattatggaggagaggaacgcattgcag
gagcagctgcaggctgagaccgagctgtatgcagaggcggaagagatgagggtgcgactg
gccgctaagaagcaggagctggaggagatcctccatgaaatggaggccaggttggaagag
gaggaagaccgcgctcaggccctgcaggtggataagaaaaagatgcagcaacagatgcag
gacctggaggagcatctggaggaggaggaggatgcccgtcagaagctgcagctggagaag
gtagcatgtgaaggcaagatcaagaagttagaggacgatgtcttagtgatggaggaccac
aacaccaaactgttaaaggagaggaaactaatggaagagaggctagcagatttcagctcc
aaccttgcagaggaggaagagaagtccaaaaacctgaccaagctcaagaacaaacacgag
tcaatgatctctgaacttgaggtccgtctgaagaaggaggagaagggtcggcaagagctg
gacaaagcaaagcgtaagctggaggcggagtctaacgacctccaggagcagatagccgac
ctgctggcccagatcgctgagctcaaagcccagctggctaagaaggaggaggagctacag
gctgctctagccaggctagaggacgagatggcccagaagaacaatgccctaaagaagatc
cgggagctggagggccacatctcagaccttcaggaggacctggactcagagcgccaggcc
aggaacaagactgagaaggccaggagggacctgggagaggagctggaggccctcaagtct
gagctggaggatacacttgacagcaccgctacccagcaggagctccgggcgaagagagaa
caggaggtgaccctgttgaagaaggccatggacgacgagggtcggacccacgaggcccag
gtgcaggagatgagacagaaacacacccaggccgtagaggagctcacagagcagctggag
cagtccaaacgggtgaagtcgaacctggacaaggccaagcaggccctggagaaggagacg
tcggagctgacggtggaggtgcgctccctgaccacggccaaacaggacgtggagaacaag
aagaggaaggtcgaaggtcagctgaacgagctgcaggcacgcttcaccgacagcgagaag
cagaagggcgaactgggagagcggtgctccaagatcactattgagctagagagtgtcacc
aacctcctgaatgaagccgaggggaagaacatcaagctgagcaaagatgtctccactctc
agcgcccaagtccaagacacacaagagctgctggctgaggagacccgtcagaagctgcag
ttctccacgaagctgcgtcagatggaggacgaccgcaacagtctgcaggaacagctggag
gaggaggtggaggccaagaggaacgtggagagacacgtgtccaccctcaacatacagctg
tcagactccaagaagaagctagaagaaatggccggcaacaatgagctcctggaggagagc
aagaagcgtcttcagagagacctggaagcgtccaacacccagttcgaggagaaggcctct
gcctacgacaagctggagaagaccaagaaccgtctgcagcaggagctagaggacatcctc
atggacctggacaaccagaggaccgtcgtctccaacctggagaagaagcagaagaagttc
gaccagatgttggccgaggagaagaccatctccagtaagtacgctgatgagagggaccgt
gctgaggcagaggccagggagaaggagaccaaggctctgtctctggcacgtgctctggag
gaggccctggacagcagggaggagctggagagagccaacaagtccctgaggactgagatg
gaagacctggtcagctctaaggacgacgtgggcaagagtgtccatgagttggagaagggg
aagcgtgggctagaggcccaggtggaggagatgaagacccagctggaggagctggaggac
gagctgcaggctgcagaggacgccaagctgcgtctggaggtcaacatgcaggccctgaag
gcccagttcgatagggacctggtgggacgtgacgagatgggagaggagaagaagagacag
ctcataaagcaggtgcgtgagttggagacagagctggaggacgagaggaagcagagagcc
acggcggcagcagccaagaagaagctggagggagatatgaaggacctggagggacagatc
gagatgtccaacaagggacgcgacgaggccatcaaacagctgcgcaagatccaggcccag
atgaaggacttccagagggaactggaagatgcccgtgcagccagagaagaggtgctgggt
acggccaaggagagcgagaggaaggccaagagtctggaggctgagctcatgcagattcag
gaggagctggctgctgctgagagggcacggaaacaagcagaggcagagcgggacgagctg
tccgacgaactagccagcaacacctctggaaagtcagccctgtctgatgaaaaacgtcgc
ctagaggctaagatctcccagctggaggaggagctggaggaagagagcagtaacatggaa
atcctcaacgatagattgaggaagagcactcaacaggtggaccagctgaacaatgagctg
cagaccgagcgcaccacctcccagaagaacgaaagcgcccggcagcagatggagaggcag
aacaaggacctaaaggccaagctgcaggagatggagaaccaggtcaagtccaagttcaag
tcatccatcaccgccctggaggccaaggtggctcagttggaggagcaggtggagcaggag
agcagagacaagcaggccgtagccaagggcctgcgccagaaggacaaaaagctgaaagat
ctgatgatccaggtggaggacgagaggaaacaggccgaacagtacaaggaacaggcagaa
aagggcaacacgcggatgaagcagctgaagcgccagctggaggagtcggaggaggagtct
cagcgcatcacggctgcccgcaggaagctgcagagggagctggatgagtccaccgaggcg
aacgatgccatgagccgcgaggtcaactccctcaagagcaaactcaggcgcgggaccgag
ccctccttcagcagcgcaccgcgccgtgtcgggggcagtgcccggagaggggtcatcgat
gacgcatcagaagaagacggggactcacagggggactacaatggaacaaagtctgttgag
tag

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