Antennarius striatus (striated frogfish): 137600118
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Entry
137600118 CDS
T10427
Symbol
myh11a
Name
(RefSeq) myosin-11a isoform X1
KO
K10352
myosin heavy chain 9/10/11/14
Organism
astr Antennarius striatus (striated frogfish)
Pathway
astr03273
Virion - Lassa virus and SFTS virus
astr04270
Vascular smooth muscle contraction
astr04530
Tight junction
astr04810
Regulation of actin cytoskeleton
astr04814
Motor proteins
astr04820
Cytoskeleton in muscle cells
Brite
KEGG Orthology (KO) [BR:
astr00001
]
09120 Genetic Information Processing
09125 Information processing in viruses
03273 Virion - Lassa virus and SFTS virus
137600118 (myh11a)
09140 Cellular Processes
09144 Cellular community - eukaryotes
04530 Tight junction
137600118 (myh11a)
09142 Cell motility
04814 Motor proteins
137600118 (myh11a)
04820 Cytoskeleton in muscle cells
137600118 (myh11a)
04810 Regulation of actin cytoskeleton
137600118 (myh11a)
09150 Organismal Systems
09153 Circulatory system
04270 Vascular smooth muscle contraction
137600118 (myh11a)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:
astr04812
]
137600118 (myh11a)
04147 Exosome [BR:
astr04147
]
137600118 (myh11a)
Cytoskeleton proteins [BR:
astr04812
]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Myosins
137600118 (myh11a)
Exosome [BR:
astr04147
]
Exosomal proteins
Exosomal proteins of bladder cancer cells
137600118 (myh11a)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Myosin_tail_1
Myosin_head
Myosin_N
ERM_helical
ADIP
CC2-LZ
IQ
Crescentin
AAA_22
Motif
Other DBs
NCBI-GeneID:
137600118
NCBI-ProteinID:
XP_068177634
LinkDB
All DBs
Position
8:16598404..16628823
Genome browser
AA seq
1978 aa
AA seq
DB search
MSKKAPADDEKFLYVDKDLLNSPMAQADWAAKKLVWVPSERHGFEAASIKEEHGDEVLVE
LADNAKKITVNKDDIQKMNPPKFSKVEDMAELTCLNEASVLHNIRERYFSGLIYTYSGLF
CVVVNPYKMLPIYSEKIIDMYKGKKRHEVPPHIYSIADNAYRNMMQDREDQSILCTGESG
AGKTENTKKVIQYLAVVASSHKGKKDSSVQQSGSQFAYGELEKQLLQANPILEAFGNAKT
IKNDNSSRFGKFIRINFDVTGYIVGANIETYLLEKSRCIRQAKTERAFHIFYYMIAGAKD
KLREELLLEPFSNYRFLSSGHVQIPGQQDDEMYEETMEAMNIMGLTEEERIDILKVCSTV
MQLGNIAFKKERNQEQATMPDNTAAQKVCHLQGINVTDFTRAILTPRIKVGREVVQKAQT
KEQADFAIEALAKAVFERLFRWILARVNKALDKTKRQGASFLGILDIAGFEIFEDNSFEQ
LCINYTNEKLQQLFNHTMFILEQEEYQREGIEWNFIDFGLDLQPCIELIERPNNPPGILA
LLDEECWFPKATDISFVEKLLNTQGNHIKFAKTKQLKDKTEFSILHYAGKVDYNATAWLT
KNMDPLNDNVTSLLSNSSSQFVQDLWKDTDRVVGLDTIAKMSDSSMPSASKTKKGMFRTV
GQLYKESLAKLMTTLHNTQPNFVRCIIPNHEKRAGKLDAHLVLEQLRCNGVLEGIRICRQ
GFPNRIVFQEFRQRYEILAANAIPKGFMDGKQACCLMIKHLDLDPNLYRIGQSKIFFRTG
VLAQLEEERDLKITVVIIAFQAQARGFLARKAFAKLQQQLTAMKVIQRNCAAYLKLRNWQ
WWRLFTKVKPLLQVTRQEEEMSLKEEELQKAKEVSIKYESELKEISLKHTQVLEERNALQ
EQLQAETELFAEAEEMRVRLAAKKQELEEILHEMEARLDDEEERAQALLVDKKKMQQQMQ
ELEEHLEEEEDARQKLQLEKVTCEGKIKKLEDDVLVIEDQNNKLLKERKLMEERIADFST
NLAEEEEKSKNLTKLKNKHESMISELEVRLKKEEKGRQELDKAKRKLEAESNDMQEQIAD
LQAQIADLKAQLAKKEEELQNALARLEDETAQKNNALKKIRELEGHISDLQEDLDSERAA
RNKAEKIKRDLGEELEALKSELEDTLDTTATQQELRAKREQEVTLLKRAIDDENRTHEAQ
VQEMRQKHTQAVEELTEQLEQSKRVKSNLEKAKQALEKETSELTMEVRSLVQAKQDGDHK
RKKLEGQVADLQSRFADSEKQKAEMGERCSKITTELESVTNLLNEAEGKNIKLSKDVSSL
SSQLQDSQELLAEETRQKLQFSTKLRQAEDDKNNLQEQLEEEIEARRNIERHVSTLNIQL
SDSKKKLEEMMGNIELLEEGKKRLQRDLETSNTQYEEKAAAYDKLEKTKNRLQQELEDTL
MDLDNQRQNVSNLEKKQKKFDQMLAEEKSISSKYAEERDRAEAEAREKETRALSLTRALD
EAHESREELERANKALRMEMEDLISSKDDVGKNVHELEKSKRGLEAQVEEMKTQLEELED
ELQAAEDAKLRLEVNMQALKAQFERDLQGRDEMGEEKKRQLVKQVRELETELEDERKQRA
LATAAKKKLETDMKDLEGQIETVSKGRDEAIKQLRKVQAQMKDFQRELEDARAAREEVLT
TAKESEKKAKSLEAELMQLQEDLAAAERARKQAEAERDELSDELASNTSGKSALADEKRR
LEAKISQLEEELEEEQSNMEILNDRLRKSAQQMDQLNNELQMERTASQKNESARQQMERQ
NKDLKAKLQEMENQVKSKFKSSISALEAKVAQLEEQLEQENREKQASAKTIRQKDKKLKD
LIMQVEDERKQAEQYKDQAEKSNSRVKQLKRQLEESEEESQRATAARRKLQRELDEATEA
NDAMSREVNSLKNKLRRGNEPSFGSAPRRIGGSRRMVEDASEEEADSQSDFNGTKSVE
NT seq
5937 nt
NT seq
+upstream
nt +downstream
nt
atgtccaagaaagctccagccgacgatgagaagttcctctacgtcgacaaagacctcttg
aacagcccaatggctcaggccgactgggcggccaagaagctggtgtgggtcccatcagag
aggcacggcttcgaggccgccagcatcaaggaggagcacggcgacgaggtactggtggag
ctggcggacaacgccaagaagataaccgtcaacaaggatgacatccagaagatgaacccg
cccaagttcagcaaggtggaggacatggccgagctgacctgcctgaacgaagcctctgtg
ttgcacaatatccgcgagagatacttctctggccttatttatacatactcgggcctcttc
tgtgtcgtggtgaacccttataaaatgctgcccatttactcagagaagatcattgacatg
tacaaagggaagaaacgacatgaagtcccccctcacatctactccatcgctgataacgcc
tacaggaacatgatgcaagatcgggaggaccagtccattctttgcactggagagtccggt
gcggggaagactgagaacacgaagaaggtcatccagtatctggctgtagtggcctcctca
cataaaggcaaaaaggacagcagcgttcagcaatcaggatcacagtttgcctacggggag
ctagagaagcagctccttcaggccaatcccatcctggaggccttcggaaacgcaaagacc
atcaaaaatgacaactcctcccgatttggtaaattcatccgtatcaactttgatgtgact
ggttacattgttggagccaatatcgagacttacctgctggagaagtctcgctgtatcaga
caagcgaagacagaaagagcttttcacatcttctactacatgatcgctggagccaaagac
aaactgcgtgaggagcttctcctggaacccttcagtaactaccgcttcctgagttcgggc
catgttcagatccctggccagcaagatgatgagatgtatgaggaaaccatggaggccatg
aacattatgggcctcaccgaagaggaaagaatagatatcttgaaggtgtgctccacagtc
atgcagctgggaaacattgctttcaagaaagagaggaaccaggagcaggccaccatgcca
gataacacagctgcccaaaaggtatgtcacctgcagggcataaatgtgacagacttcacc
cgtgccatcctcacgcctcgaatcaaagtgggtagagaagttgtccagaaggcacagacc
aaagagcaggctgattttgccattgaagccctagctaaagctgtgtttgagcgacttttc
cgctggatcctggctcgagtcaacaaggctctggacaagaccaaacgccaaggagcctcc
ttcctgggaatccttgacatcgctggctttgagatctttgaggacaactcctttgagcaa
ctgtgcatcaactacaccaatgagaagctgcagcagctcttcaaccacacaatgttcatc
ctggagcaagaggagtaccagagggaaggcattgagtggaacttcattgacttcggtctt
gacctgcagccctgcattgagctcattgagagaccaaacaacccaccaggtatcctggcc
ctgctggacgaagagtgctggttccctaaagccacagatatctcctttgtcgagaaactc
ttgaacacacaagggaaccatatcaagtttgcaaaaacaaaacagctgaaagacaagaca
gagttttcaatcttacattatgctgggaaggttgactataatgctactgcctggttgaca
aagaacatggacccactgaacgacaacgtcacttcactgctcagcaactcctccagccag
tttgtgcaagacctgtggaaagatacggacagagtggtgggtctagacacaatagccaag
atgtcagacagctcaatgccaagtgcctcaaagaccaagaaggggatgttccgaactgtg
ggacagctctacaaggagtcactggccaaactcatgaccactctgcacaacacccagccc
aactttgtcagatgcatcatccctaaccatgagaagagggcagggaaattggacgctcac
ctggtcctggagcagctgaggtgtaacggtgtgttggaaggtatcagaatttgccgacaa
ggatttcctaataggatcgtcttccaggagttccgccaacgttatgagattcttgctgct
aatgctatccccaaaggttttatggatggcaaacaagcctgctgtctcatgatcaagcat
ctagatttggaccccaacctgtacaggatcggacaaagtaagattttcttccgaacggga
gtgcttgcccagctggaggaggaaagagatctgaagatcaccgtggtcatcatcgctttc
caggctcaggctagaggcttcctagccagaaaggcattcgccaagttgcaacagcaactc
acagccatgaaggtgattcaaaggaactgtgctgcctacctcaaattacgaaactggcag
tggtggaggctcttcacaaaggttaagcctctgctgcaagtgactcgacaggaggaagag
atgagtctgaaggaggaagagctgcagaaagccaaagaagtttctattaagtatgaatct
gagctaaaggaaatctccttgaagcacacacaggtattggaggagaggaatgcacttcag
gagcaactgcaagcagagacggagctttttgctgaagctgaggagatgagggttcggcta
gctgctaagaagcaggagttggaggagattcttcatgagatggaggcaagactggatgat
gaggaagaacgtgctcaagcgctgttagtggataagaagaaaatgcaacagcagatgcag
gaattagaagagcacttggaggaagaggaagatgctcgccagaagctgcagctagagaaa
gttacctgtgaggggaagattaaaaagttggaggatgacgtcctggtgatagaggaccag
aacaacaagctgctgaaggaaagaaaactgatggaggaaaggattgctgactttagcacc
aacctggcagaggaagaggagaagtcaaagaacctcaccaagctgaaaaacaaacatgaa
tctatgatctctgagctagaagttcgcttgaaaaaggaagagaagggccgacaggagctg
gacaaggctaaacgtaagttggaagcagagtcgaatgacatgcaagagcagatagctgat
ctgcaggcccagatcgctgacctcaaagcccaactcgcaaagaaggaggaggagttacag
aatgctttggccagattagaagatgaaacagcacagaagaacaatgctctaaagaagatc
cgagagctagaaggacacatctctgatttgcaagaggacctggactcagagcgtgcagct
cggaacaaggctgagaagatcaaacgagaccttggagaggaactagaggccttgaagtct
gagctggaggacaccttggacaccaccgccactcagcaggagctaagggccaaacgtgag
caggaggtgacgctgctcaagagagctattgacgatgagaaccgaacccatgaggcccag
gtacaagagatgagacagaagcacacccaggctgtggaagagctcacagagcagctggaa
caatccaaacgagtgaagtcaaacctggagaaagctaagcaagctttggagaaggagacg
tcagaattaacgatggaggtgcgctcactcgtccaggccaaacaagatggagatcacaag
aggaagaagttggagggtcaagtggcagatctgcagtcacgcttcgcggacagtgagaag
cagaaggctgagatgggagagcgctgctcaaagatcactactgaactggagagtgtgaca
aatctactgaatgaagctgagggcaagaacattaaactgagcaaagatgttagcagtctt
tcctcccaactccaagactcacaggaactcctggccgaagagacacgtcagaaactgcag
ttctctacaaaactgcgacaagccgaagatgacaagaataacttacaggagcagcttgaa
gaggagatagaagccaggaggaatattgagagacacgtgtctaccctcaacatccagttg
tcagattcaaagaagaagctggaagaaatgatgggaaatattgagctgttagaagagggt
aagaaacgtctgcagagagacttagagacatcaaacacccagtatgaggagaaggcagct
gcatatgataagttagagaaaaccaagaaccgtctacagcaggagctagaggacacgctg
atggatctggacaatcagagacagaacgtttccaacttggagaagaagcagaagaagttt
gatcagatgctggctgaggagaagagtatctccagtaaatatgcagaagagagagatcgg
gctgaagctgaggccagagagaaagagactagggctctgtccctgacgagggctctggac
gaagcccatgaatccagagaggagctggagagagccaacaaggccctgaggatggagatg
gaagacctgatcagctccaaggacgatgttggaaaaaatgtccatgagttagagaagtcg
aagcgaggtctcgaagctcaggtggaagagatgaagacccagctggaggagttggaggat
gagctgcaggccgctgaagacgccaagctgcgtctggaggtcaatatgcaggcgctgaag
gcccaattcgagagggatctccagggacgtgatgagatgggcgaggagaagaagagacag
cttgttaaacaggtccgtgagctggaaactgagttggaggatgaacgcaagcagagggcc
ctcgcgacagcagccaagaagaagctcgagacagacatgaaagatctggaaggacagatt
gagacggtcagcaagggacgggatgaggccatcaaacagctccgtaaagtccaggctcag
atgaaagacttccagagggagctggaggacgcccgtgctgccagagaggaggtgttgacc
acggcgaaggagagtgagaagaaggccaagagtctggaggccgagctcatgcagctgcag
gaggacctggcagcagcggagagggcgcggaagcaggcggaggccgagagagatgagctg
tcagacgagctggccagcaacacctctggaaagtcagccttagctgatgagaaacgtcgt
ttggaagctaagatctcccagctggaggaggagctggaggaggagcagagcaacatggag
atcctcaacgacaggctgaggaagagtgcgcagcagatggatcagctgaacaatgagctg
cagatggagcgcaccgcttcccagaagaacgagagcgcccggcagcagatggagcgccag
aacaaggatctgaaggcaaagctccaggagatggagaatcaggtcaaatccaaattcaag
tcctccatctctgccttggaggctaaagtggcccagctggaggagcagttggaacaggag
aacagggaaaagcaggcatcagctaagaccatacgccagaaagacaagaagctgaaggac
ctgataatgcaagtggaggatgaaaggaaacaggcggagcaatacaaagaccaggcggaa
aagtcaaattcacgcgtgaagcagttgaagcggcagctagaggagtcagaggaagagtct
cagcgtgctacagccgcccgcaggaagctgcagcgggagctggacgaagccaccgaggcc
aacgacgccatgagccgcgaggtcaactctctcaagaacaaactcaggcgtggaaacgag
ccttcctttggcagcgcacctcggcgcattggcggaagccgaaggatggtggaggatgcc
tcagaggaggaggctgactctcagagcgacttcaacggaaccaagtctgtggagtga
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integrated database retrieval system
