Seriola lalandi dorsalis (Yellowtail amberjack): 111666716
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Entry
111666716 CDS
T06058
Symbol
myh11
Name
(RefSeq) myosin-11 isoform X1
KO
K10352
myosin heavy chain 9/10/11/14
Organism
slal
Seriola lalandi dorsalis (Yellowtail amberjack)
Pathway
slal03273
Virion - Lassa virus and SFTS virus
slal04270
Vascular smooth muscle contraction
slal04517
IgSF CAM signaling
slal04530
Tight junction
slal04810
Regulation of actin cytoskeleton
slal04814
Motor proteins
slal04820
Cytoskeleton in muscle cells
Brite
KEGG Orthology (KO) [BR:
slal00001
]
09120 Genetic Information Processing
09125 Information processing in viruses
03273 Virion - Lassa virus and SFTS virus
111666716 (myh11)
09130 Environmental Information Processing
09133 Signaling molecules and interaction
04517 IgSF CAM signaling
111666716 (myh11)
09140 Cellular Processes
09144 Cellular community - eukaryotes
04530 Tight junction
111666716 (myh11)
09142 Cell motility
04814 Motor proteins
111666716 (myh11)
04820 Cytoskeleton in muscle cells
111666716 (myh11)
04810 Regulation of actin cytoskeleton
111666716 (myh11)
09150 Organismal Systems
09153 Circulatory system
04270 Vascular smooth muscle contraction
111666716 (myh11)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:
slal04812
]
111666716 (myh11)
04147 Exosome [BR:
slal04147
]
111666716 (myh11)
Cytoskeleton proteins [BR:
slal04812
]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Myosins
111666716 (myh11)
Exosome [BR:
slal04147
]
Exosomal proteins
Exosomal proteins of bladder cancer cells
111666716 (myh11)
BRITE hierarchy
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
Myosin_tail_1
Myosin_head
Myosin_N
CCDC39
FKBP15
ADIP
ERM_helical
CC2-LZ
Sec2p
IQ
AAA_22
Motif
Other DBs
NCBI-GeneID:
111666716
NCBI-ProteinID:
XP_023277915
Ensembl:
ENSSLDG00000008979
LinkDB
All DBs
Position
Unknown
AA seq
1978 aa
AA seq
DB search
MSKKAPSEDEKFLFVDKDFLNSPMAQADWVAKKLVWVPSEKHGFEAASIKEEHGEEVLVE
LADNGKKVTVNKDDIQKMNPPKFSKVEDMAELTCLNEASVLHNLRERYYSGLIYTYSGLF
CVVVNPYKMLPIYSEKIIDMYKGKKRHEVPPHIYSITDNAYRNMMQDREDQSILCTGESG
AGKTENTKKVIQYLAVVASSHKGKKDSSAQQSGAQLAYGELEKQLLQANPILEAFGNAKT
IKNDNSSRFGKFIRINFDVTGYIVGANVETYLLEKSRCIRQAKTERAFHIFYYMIAGAKE
KLREELLLEPFSNYRFLSAGHVQIPGQQDDEMYEETMEAMKIMGLTDEERIDILKVCSTV
MQLGNIEFKKERNQEQATMPDNTAAQKVCHLQGINVTDFTRAILTPRIKVGREVVQKAQT
KEQADFATEALAKAVYERLFRWILSRVNKALDKTKRQGASFLGILDIAGFEIFEDNSFEQ
LCINYTNEKLQQLFNHTMFILEQEEYQREGIEWNFIDFGLDLQPCIELIERPNNPPGILA
LLDEECWFPKATDISFVEKLMNTQGNHVKFAKPKQLKDKTEFSIFHYAGRVDYNATAWLT
KNMDPLNDNVTSLLNNSSSQFVQDLWKDADRVVGLDTIAKMTDSSMPSASKTKKGMFRTV
GQLYKESLAKLMTTLHNTQPNFVRCIIPNHEKRAGKLDANLVLEQLRCNGVLEGIRICRQ
GFPNRIVFQEFRQRYEILAASAIPKGFMDGKQACCLMIKHLDLDPNLYRIGQSKIFFRTG
VLAQLEEERDLKITVIIIAFQAQARGFLARKAFAKRQQQLTAMKVIQRNCAAYLKLRNWQ
WWRLFTKVKPLLQVTRQEEEMSLKEEELQKAKEVASKVESELKEISLKHTSVLEERNALQ
EQLQAETELYAEAEEMRVRLAAKKQELEEILHEMEARLDEEEERAQALLLDKKKMQQQMQ
ELEEHLEEEEDARQKLQLEKVTCDGKIKKLEDDILVMEDQNNKLLKERKLMEERIADFSA
NLAEEEEKSKNLTKLKNKHESMISELEVRLKKEEKSRQELDKAKRKLEAESNDLQEQIAD
LQAQIADLKAQLAKKEEELQNALARLEDETGQKNNALKKIRELEGHISDLQEDLDSERAA
RNKAEKIKRDLGEELEALKSELEDTLDTTATQQELRAKREQEVNLLKRAIEDENRTHEAQ
VQEMRQKHTQAVEELTEQLEQSKRVKSNLEKAKQALEKETSELTVEVRSLTQAKQDGEHK
RKKLEGQVVELQSRFTDSEKQKAELGERCSKITVELESVTNLLNEAESKNIKLSKDVSSL
ASQLQDTQELLAEETRQKLQFSTKLRQAEDDKNSLQEQLEEEMEAKRNVERHVSTLNIQL
SDAKKKLEEMAGNIELLEEGKKRLQRDLEAANTQFEEKASAYDKLEKTKNRLQQELEDTL
MDLDNQRQNVSNLEKKQKKFDQMLAEEKSISSKYADERDRAEAEAREKETKALSLARALE
EAQDGREELERANKALRMEMEDLISSKDDVGKNVHELEKSKRGLEAQVEEMKTQLEELED
ELQAAEDAKLRLEVNMQALKAQFERDLVGRDEMGEEKKRQLVKQVRELETELEDERKQRA
LAAAAKKKLETDMKDLEGQIETSNKGRDEAIKQLRKLQAQMKDYQRELEDARAARDEVLT
TAKESEKKAKSLEAELMQLQEELAAAERGRKQAEAERDELSDELASNSSGKSALADEKRR
LEAKISQLEEELEEEQSNMEILNDRLRKSSQQVDQLNNELQTERSTSQKNESARQQMERQ
NKELKAKLQEMENQVKSKFKSSISALEAKVAQLEEQLEQENRDKQVAAKSIRQKDKKLRD
LLMQVEDERKQAEQYKDQADKSSTRMKQLKRQLEESEEESQRASAARRKLQRELDEATET
NDAMSREVNSLKSKLRRGNEPSFGSAPRRMGGGRRVVEDASEEEPDVQSDFNGTKAAE
NT seq
5937 nt
NT seq
+upstream
nt +downstream
nt
atgtccaagaaggccccgagcgaggacgagaaattcctctttgttgacaaagacttcctg
aacagccccatggcgcaggccgactgggtggccaagaagctggtgtgggtgccatcagag
aagcatggcttcgaggcagctagtatcaaggaggagcacggcgaagaggtgctggtggag
ctcgctgataatggcaagaaggtgacagtcaacaaggatgacatccaaaagatgaaccct
cccaagttcagcaaggtggaggacatggctgaactcacctgcctgaacgaggcctccgtg
ttgcacaatctccgcgagaggtactactccggcctcatatatacgtactctggcctgttc
tgcgtggtggtgaacccttataaaatgctgccaatctactcagagaagatcattgacatg
tacaaagggaagaaacgacatgaagtcccccctcatatctactccatcaccgataacgcc
tacagaaacatgatgcaagatcgtgaggaccagtccatcctctgcactggggagtctggt
gctgggaagacggagaacaccaagaaggtcatccagtatctggctgttgtggcctcctca
cacaaaggcaagaaggacagcagtgctcaacaatcaggagcacagttggcctacggggag
ctggagaagcagctcctgcaggccaatcccatcctggaggccttcggaaatgccaagacc
atcaaaaatgacaactcctctcgatttggaaaattcatccgcatcaactttgatgtgacc
ggctacattgttggagccaacgttgagacctatctgctggagaagtctcgctgtatcaga
caggcaaagacagaaagagcttttcacatcttctactacatgattgccggtgccaaagag
aaactgcgtgaggagcttcttctggagcccttcagtaattaccgcttcctgagtgcgggc
cacgttcagatccctggccagcaagacgatgagatgtatgaagagaccatggaggccatg
aagatcatgggcttaaccgatgaggagagaatcgatatcctcaaggtgtgctccacagtg
atgcagttgggaaacatcgagttcaagaaagagaggaaccaggagcaggccaccatgcca
gacaacaccgcggcacagaaggtgtgtcacctgcagggcatcaatgtgacagacttcacc
cgagccattctcacccctcgaatcaaagtgggcagagaggtggtgcagaaggcacagacc
aaagagcaggccgacttcgctactgaagctctggctaaggctgtctatgagcgactgttc
cgctggatcctgtcccgagttaacaaagccttggacaaaaccaaacgccaaggagcctcc
ttcctgggaatcctcgacattgccggctttgagatctttgaggataactcctttgagcag
ctgtgcatcaactacaccaacgagaagctgcagcagctcttcaaccacaccatgttcatc
ctggagcaggaggagtaccagagggagggcatcgagtggaacttcatcgacttcggcctt
gacctgcagccctgcatcgagctcatcgagagaccaaacaaccctcctggtatcctggcc
ctgctggatgaagagtgctggttccccaaagccacagatatctcctttgtagagaaactc
atgaacacacaagggaaccatgtgaaattcgccaaacctaaacagctcaaagacaagaca
gagttttctatttttcattatgctgggagggtggactacaatgccactgcctggttgaca
aagaatatggaccctctaaatgacaacgtcacatctttgctcaacaactcctccagccag
tttgtgcaagacctctggaaagatgctgacagagtggttggtctcgacacgatagccaag
atgacggacagctccatgccgagcgcctcaaagaccaagaagggaatgttccgcacggtg
ggacagctctacaaggagtctctggccaaactcatgaccacactgcacaacacccagccc
aacttcgtcagatgcatcatccccaaccacgagaagagggcagggaagctggatgctaat
ctggtcctggagcagctgaggtgtaatggtgtgttggaggggatcaggatctgccgacaa
ggatttcccaaccgaatcgtcttccaggagttccgccagcgttatgagatcttggctgct
agcgctattcccaaaggtttcatggatggtaaacaagcctgctgcctcatgatcaaacat
ctggacttggaccccaacctgtacaggattggacagagtaagatctttttccgaacagga
gtgttggcccagttggaggaggagagagatctgaagatcactgtgatcatcatcgctttc
caggcccaggctagaggcttcctggcaagaaaggcatttgccaagaggcaacagcagctc
acagccatgaaagtgatccagaggaattgtgctgcctacctcaaacttaggaactggcag
tggtggagactcttcacaaaggtcaagcctctgctgcaagtgacccgacaggaggaggag
atgagtctgaaggaggaagaactgcagaaggcgaaagaagttgcttcaaaggttgaatct
gagctgaaggagatcagcttgaaacacacatcggttttggaggagaggaacgcactgcag
gagcagcttcaggcggagacagagctgtacgccgaggctgaggagatgagagttcgtctg
gcggctaagaagcaggagctggaggagatccttcatgagatggaggcaaggctggatgaa
gaggaagaacgtgctcaggcgctgctattggataagaagaagatgcaacaacagatgcag
gaattggaggaacatttggaagaggaggaggacgcccgtcaaaagctgcagctagagaag
gtcacctgcgatggaaagatcaaaaagctggaggatgacatcctggtaatggaggaccag
aacaacaagctgctgaaggagcggaagctgatggaggagagaattgcagacttcagtgcc
aatctggctgaggaggaagagaagtcaaagaacctcaccaagctcaaaaacaaacacgag
tccatgatctctgaattagaggtccgcttgaagaaagaagaaaagagtcgccaggagctg
gacaaggctaagcggaagttggaggcagagtcgaatgacctacaagagcagatagccgac
ctgcaggctcagattgccgacctcaaagctcagctcgccaagaaggaagaggagctacag
aacgccttggccaggttagaagatgagacaggccagaaaaacaatgctctgaagaagatc
agagagctggagggacacatctccgacctgcaggaggacctcgactctgagcgggcggcc
aggaacaaggcagagaagatcaaacgggacctcggggaggagctggaggccctcaagtct
gagctagaggacactttagacacaactgccactcagcaagaactaagagccaaacgtgag
caggaggtgaacctgctgaagagagccatcgaggatgagaaccgaacccatgaggcccag
gtccaggagatgagacagaaacacacccaggctgtggaggaactcacagagcagctggag
cagtccaaacgagtgaagtcaaacctggagaaggcgaaacaggctttagagaaggagacg
tcagaattaaccgttgaggtgcgctcactgacccaggccaaacaagatggggagcacaag
aggaagaagttggaaggtcaggtggtagaactgcagtcacgcttcaccgacagcgagaag
cagaaggctgagctgggagaacgctgctccaagatcactgttgaactggagagcgtgaca
aacctgctgaatgaagcagaaagcaagaacatcaaactgagcaaagacgtcagcagctta
gcctcccaactccaagacacacaggagctgctggctgaagagacgcgtcagaagttgcag
ttctccacaaagctgcggcaagcagaggacgacaagaacagtctgcaggagcagcttgaa
gaagagatggaggccaagaggaacgtggagagacacgtgtccaccctcaacatccagctt
tctgatgcaaagaagaagctagaggagatggcaggaaacattgagctgcttgaagaaggc
aagaaacgtctgcagagagatttggaggcagccaacacccagtttgaggagaaggcctct
gcatacgacaagttagagaagaccaaaaaccgtctgcagcaggagctggaggacacgctg
atggacctggacaaccagagacagaacgtgtccaacctggagaagaagcagaagaaattt
gaccagatgctggctgaggagaagagtatctccagcaaatatgcagatgagagagaccgt
gctgaagctgaggccagagagaaggagaccaaagctctgtctttggcgagagctctggaa
gaggcccaggacggcagagaggagctggagagagccaacaaggccctgaggatggagatg
gaggacctgatcagctccaaggatgacgtgggaaaaaatgtccacgagctggagaagtcc
aaacgaggcctggaggcccaggtagaggagatgaagactcagctggaggagctggaggac
gagctgcaggcggctgaggatgccaagctgcgtctggaggtcaacatgcaggccctgaag
gcccaattcgagagagacctcgtgggacgggatgagatgggcgaggagaagaagaggcaa
ctggtcaagcaggttcgtgagctggagacagagctggaggatgaacgtaaacagagggcc
ctggcagcagcagccaagaagaagctggagacagacatgaaagatctggagggacagatc
gaaacatccaataagggacgagatgaggctatcaagcagctccgcaagcttcaggctcag
atgaaggactaccagagggagttggaagatgcccgtgccgccagggatgaggtgctgact
accgcaaaggagagtgagaagaaggccaagagtctggaggctgagctcatgcagctgcag
gaggaactggctgcagctgaaagggggaggaagcaggcagaggccgagagagacgagctg
tctgatgagctggcgagcaactcctctggaaagtcagccttggcagatgagaagcgtcgt
ctggaagcgaagatctcccagctggaggaggagctggaggaggagcagagcaacatggag
atcctcaacgacaggctgaggaagagctcacagcaggtggatcagttgaacaacgagctg
cagacagagcgcagcacctcccagaagaatgagagcgctcggcagcagatggagcgccag
aacaaggagctgaaggccaagctccaggagatggagaaccaggtcaaatccaagttcaag
tcctccatctccgccttggaggccaaagtggcacagctggaggagcagctggagcaggag
aacagagacaagcaggtagctgccaagagcatacgccagaaggacaagaagctcagggac
ctgctgatgcaggtggaagacgaaagaaaacaggcagagcagtacaaagaccaggcggac
aagtcaagtactcgcatgaagcagctgaagaggcagctagaggagtcggaggaagagtct
cagcgtgcctcagccgcccgcaggaagctgcagcgggagctggatgaagccaccgagaca
aacgatgccatgagccgcgaggtcaactctctcaagagcaaactcaggcgtggaaacgag
ccctcctttggcagcgcacctcggcgtatgggcggaggccgcagggtggtggaggatgcc
tcagaggaggagcccgacgtccaaagtgacttcaacggaacaaaagccgcggagtaa
DBGET
integrated database retrieval system
