Oncorhynchus clarkii lewisi (westslope cutthroat trout): 139421361
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Entry
139421361 CDS
T10872
Name
(RefSeq) myosin-10-like isoform X1
KO
K10352
myosin heavy chain 9/10/11/14
Organism
ocla Oncorhynchus clarkii lewisi (westslope cutthroat trout)
Pathway
ocla03273
Virion - Lassa virus and SFTS virus
ocla04270
Vascular smooth muscle contraction
ocla04530
Tight junction
ocla04810
Regulation of actin cytoskeleton
ocla04814
Motor proteins
ocla04820
Cytoskeleton in muscle cells
Brite
KEGG Orthology (KO) [BR:
ocla00001
]
09120 Genetic Information Processing
09125 Information processing in viruses
03273 Virion - Lassa virus and SFTS virus
139421361
09140 Cellular Processes
09144 Cellular community - eukaryotes
04530 Tight junction
139421361
09142 Cell motility
04814 Motor proteins
139421361
04820 Cytoskeleton in muscle cells
139421361
04810 Regulation of actin cytoskeleton
139421361
09150 Organismal Systems
09153 Circulatory system
04270 Vascular smooth muscle contraction
139421361
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:
ocla04812
]
139421361
04147 Exosome [BR:
ocla04147
]
139421361
Cytoskeleton proteins [BR:
ocla04812
]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Myosins
139421361
Exosome [BR:
ocla04147
]
Exosomal proteins
Exosomal proteins of bladder cancer cells
139421361
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Myosin_tail_1
Myosin_head
Myosin_N
ERM_helical
IQ
ADIP
AAA_22
Motif
Other DBs
NCBI-GeneID:
139421361
NCBI-ProteinID:
XP_071028260
LinkDB
All DBs
Position
12:77182224..77252268
Genome browser
AA seq
2012 aa
AA seq
DB search
MAHRSGLEDPERYLFVDRAVVYNPATQADWTAKKVVWIPSERHGFEAASIKEERGEEVVV
ELSENGKKAVVNKDDIQKMNPPKFSKVEDMAELTCLNEASVLHNLKDRYYSGLIYTYSGL
FCVVINPYKNLPIYSENIIEMYRGKKRHEMPPHIYAISESAYRCMLQDREDQSILCTGES
GAGKTENTKKVIQYLAHVASSHKGRKDHNIPPESPKALNKLQGELERQLLQANPILESFG
NAKTVKNDNSSRFGKFIRVNFDVTGYIVGANIETYLLEKSRAVRQAKDERTFHVFYQLLA
GAGEHLKTDLLLEGFDNYRFLSNGNITIPGQQDKDNFQETMDAMHIMSFSHEEIVCMLKV
VSAVLQFGNVVFKKERNTDQASMPENTAAQKLCHLLGLNVMEFTRAILSPRIKVGRDYVQ
KAQTKEQADFAVEALAKATYERLFRWLVHRINKALDRTKRQGASFIGILDIAGFEIFELN
SFEQMCINYTNEKLQQLFNHTMFILEQEEYQREGIEWSFIDFGLDLQPCIDLIERPTNPP
GVLALLDEECWFPKATDKTFVDKVLQEQGTHPKFQKPRQLKDKADFCIIHYAGRVDYKAD
EWLMKNMDPLNDNVATLLNQSTDKFVSELWKDDIQTFQRACFYDKASGLLEPPVDRIVGL
DQVAGMNETAFGAAYKTKKGMFRTVGQLYKESLTKLMATLRNTNPNFVRCIIPNHEKRAG
KLDPHLVLDQLRCNGVLEGIRICRQGFPNRIVFQEFRQRYEILTPNAIPKGFMDGKQACE
RMIRALELDPNLFRIGQSKIFFRAGVLAHLEEERDLKITDIIIYFQSVCRGYLARKAFVK
KQQQLNCLKVLQRNCSAYLKLKHWQWWRLFTKVKPLLQVTRQEEEMQAKDDELVKVKEKQ
TKVEGELVEMERKHSQLIEEKNILAEQLQAETELFAEAEEMRARLAAKKQELEEILHDLE
SRVEEEEERTQGLQSEKKKMQSHIQDLEEQLDEEEAAKQKLQLEKVTAEAKMKKFEEDIL
LLEDQNSKFLKEKKLLDDRVNEMMSQLTEEEEKAKNLGKTKNKQEVMMVDLEERLKKEEK
TRQELEKAKRKLDGETTDLQDQIAELQAQIEELKVQLAKKEEELQAIQARGDEEVTQKNN
ALKQVRELQAQLAELQEDLESEKVSRNKAEKLKRDLSEELEALKTELEDTLDTTAAQQEL
RTKREQEVTELKKAIDEETKNHEAQIQEMRQRHSTALEEVSEQLEQAKRFKVNLEKNKQS
TESANKVLVSEVKGLQQAKTESEHKKKKLEAQLQEFMARVTEGEKGKGELADRSHKLQTE
LDSVSALLEDAERKGIKLVKDTTVLESALQDTQELLQEETRQKLNMSSRIRQLEEEKSTL
QEQQEEDEVACRNLEKQLCTLQAQLVETKNKLEDDVGMVEGLEEVKRKLQKDMELATLRL
EEKGIAFEKMEKTKTRLQQELDDLMVDLDHQRTIVSNLEKKQKKFDQLLAEEKNISARYA
EERDKAEAEAREKETKSLSLARALDEALEAKEEFERLNKQLRSEMEDLMSSKDDVGKNVH
ELEKSKRTLDQQLEEMRTQLEELEDELQATEDAKLRLEVNMQAMKAQYERDLQGRDDQND
EKKRALVKQVREMEAELENERKQRALAMAAKKKLEMDLMDMVGQIDGANKARDEAIKQLR
KLQSQMKDYQRELEDARASRDEIFSQSKENEKKLKSLEAEVLQLHEDLAASERARRHAEQ
ERDELADEISNSTSGKSALMDEKRRLEARIAQLEEELEEEQGNMELLNDRFRKTTMQVDT
LTLELVAERSLAQKSENSRQQLERQNKDLRAKLGELEGSVKSRFKASITALEAKILQLEE
QLEQEAKERAAANKLVRRTEKKLKEVCMQVEDERRHSDQYKEQMEKANSRMKQLKRQLEE
AEEEATRANAYRRKLQRELDDATEASEGLSREVNTLKSRLRRGGPISFSSSRSGRRQLQV
DGTSLDLLSDDEVENKTTDANANETPAAPQPE
NT seq
6039 nt
NT seq
+upstream
nt +downstream
nt
atggctcatcgaagtgggctggaggacccggagcggtacctgtttgtggatcgcgctgtg
gtctacaacccggccacacaggccgactggacagccaagaaggtggtgtggatcccttca
gagcgtcatggttttgaggcggccagcatcaaggaggagcggggagaggaggtggtggtg
gaactgtccgagaatggcaagaaggccgttgtcaataaggacgacatccagaagatgaac
ccgcccaagttcagcaaggtggaagacatggccgagctcacctgcctgaatgaggcctcg
gtgctgcacaacctcaaagaccgctactactctggcctcatctatacttactctgggctg
ttctgtgtggtgataaacccctacaaaaacttacccatctactcagagaacatcatagag
atgtacagagggaagaagcgtcatgagatgccaccacacatctacgccatttcagagtca
gcataccgctgcatgctccaagatcgtgaagaccaatcaatcctttgcacaggcgagtcg
ggtgccggcaagacagaaaacaccaaaaaggtcatccagtacctggcccacgtcgcctcg
tcacacaaaggacgcaaagaccacaacattcctcccgaatcccctaaagcgttgaacaag
ctccagggcgagctggaacggcagcttctgcaagccaaccccatccttgaatcctttggc
aatgccaagacggtgaaaaacgacaactcgtcacgtttcggcaagttcatcagagtcaac
tttgacgtgaccggctacattgttggggccaatatcgagacctacctcctggagaagtcc
agggccgttcgccaggccaaagacgagaggaccttccatgtcttctaccagcttctggca
ggagccggggagcacctcaaaactgacctgctcctggagggcttcgacaactaccgcttc
ctgtccaatggcaacattaccatccctggccagcaggacaaggacaacttccaggagacc
atggatgccatgcacatcatgagcttctcccatgaggagattgtatgcatgctgaaggtg
gtgtctgcagtactacagtttggtaacgttgtcttcaagaaggagaggaacacagaccag
gcctccatgcctgagaacacagcggctcagaagctgtgccacctgttgggactgaatgtg
atggagtttaccagggccattctatccccccgcatcaaagtgggccgagactacgtccag
aaggcccagaccaaagaacaggctgactttgcagtggaagccctggccaaggccacatat
gagcgtctgttccgctggctcgtccaccgcatcaacaaggccctggacaggaccaagaga
cagggagcctccttcatcggcatcctggacatcgctggctttgagatctttgagctgaac
tcatttgagcagatgtgcatcaactacaccaacgagaagctgcagcagctgttcaaccac
accatgttcatcctggagcaggaggagtaccagagggaaggcatcgagtggagcttcatc
gacttcggcctggacctgcagccctgcatcgacctgattgagagaccgaccaaccctcca
ggagttctggccctgttggatgaggagtgctggttccccaaggccactgataagacattt
gtagacaaggtgctccaggagcagggcacccaccccaagttccagaaaccccggcagctg
aaggacaaagccgacttctgcatcattcactacgctggcagggtggactacaaggctgac
gagtggctgatgaagaacatggaccctctgaacgacaacgtggccacgctgctcaaccag
tccactgacaagtttgtttctgaactgtggaaggacgacattcagacctttcagagagcc
tgtttctatgacaaggcctctggtctccttgagcctccagtggaccgtatcgtgggtctg
gaccaggtagcagggatgaacgagacggccttcggcgcagcctataagaccaagaagggc
atgttccgtacggtgggccagctctacaaggagtctctcaccaagctcatggccacactg
aggaacaccaaccccaactttgtccgctgcatcatccccaaccacgagaagagggctggt
aagctagatccccacctggttctggaccagctgaggtgtaatggtgttctggaggggatc
cgtatctgcagacagggcttccccaaccgtattgtcttccaggagttcagacagaggtat
gagatcctcacccccaacgccatccccaagggcttcatggatggcaagcaagcctgtgag
agaatgatccgagccttggagttggatcctaacctgttcaggattgggcagagtaagatc
ttcttcagggctggagtcttggcccacctggaggaggagcgagacctgaagatcacggac
atcatcatctacttccagtctgtctgccggggatacctggcccgcaaggcgtttgttaag
aagcagcagcaactgaattgtctgaaggtgcttcagaggaactgttctgcctacctgaag
ctgaagcattggcagtggtggagactctttaccaaggtgaagcccctgctgcaggtgacc
aggcaggaggaggagatgcaggccaaggacgatgagcttgtcaaggtgaaggagaagcag
accaaggtggagggagaactggtggagatggaaagaaagcactcacagctgattgaggag
aagaacatcctagcggagcagctgcaggccgagacggagctgtttgcagaggctgaggag
atgagagctcgtctggccgctaagaagcaggagctggaggagatccttcatgacctggag
tctagagtggaggaggaggaggagaggacccagggcctgcaaagtgagaagaagaagatg
cagtctcacatccaggacctggaggagcagttggatgaggaggaggctgccaagcagaag
ctgcagctggagaaggtgacagccgaggccaagatgaagaaatttgaggaggacatcttg
ctcctggaggaccagaactccaagttcctgaaggagaagaagctcctggatgaccgtgtc
aatgagatgatgtcccagctgaccgaggaggaggagaaggccaagaacctgggcaagaca
aagaacaagcaggaggtgatgatggtggacctggaagagcgtttgaagaaggaggagaag
actcgtcaggagctggagaaggccaagaggaagctggatggagagaccacagacctgcag
gaccagatagctgagctgcaggcccagatagaggagctcaaggtgcagctggctaagaag
gaggaggagctgcaggctatacaggccaggggagacgaggaggtgacccagaagaacaac
gccctgaagcaggtacgggagctacaggcccagttggcagagctgcaggaagacctggaa
tcagaaaaggtctccaggaacaaggctgagaagctcaagagagatctgagtgaggagctg
gaggccttaaagactgagctagaggacaccctggacaccaccgcagcccagcaggagctc
aggaccaagcgtgagcaggaggtgacggagctgaagaaggccatcgacgaggagaccaag
aaccacgaggctcagatccaggagatgaggcagagacactccacggccctggaggaggtg
tctgagcagctagagcaggccaaaaggttcaaggtcaacctggagaagaacaagcagagc
acagagagtgccaacaaggtgctggtcagtgaggtaaaggggctgcagcaggccaagacg
gagtcagaacacaagaagaagaagctggaggcccagctccaggagttcatggcccgggtc
acagagggagagaagggcaagggagagctggccgaccgctcccacaaactacagacggag
ctggatagtgtgtctgctctgctggaagatgcagagaggaagggaatcaagctggttaaa
gacaccactgtcctggagagtgctttgcaggacacacaggagcttctccaggaagagaca
cgtcagaagctgaacatgagcagtcgtatccgccagctggaggaggagaagagcaccctg
caggagcagcaggaggaggacgaggtggcgtgcagaaacctggagaaacagctgtgcaca
ctgcaggcccagctggttgagactaaaaataagctggaggatgacgtggggatggtggag
ggtctggaggaggtgaagaggaagctgcagaaggacatggagctggccaccctgaggctg
gaggagaagggcattgcctttgagaagatggagaagaccaagacccgcctgcagcaggag
ctggacgacctcatggtggatctggaccaccagagaaccattgtctccaacctggagaag
aagcagaagaagtttgaccagctgctggctgaggagaagaacatctctgcacgctacgct
gaggagagggacaaggctgaggcagaggccagggagaaggagaccaagtccctgtctctg
gcccgggctctggatgaggctctggaggccaaggaggagtttgagagactcaacaagcag
ctgaggagtgagatggaggacctgatgagctccaaggacgacgtgggcaagaacgtccat
gagttggagaagtccaagaggactctggatcagcagctggaggagatgaggactcagctg
gaggagctggaggacgagctgcaggccacggaggacgccaagctgcgtctggaggtcaac
atgcaggccatgaaggcccagtacgagagagacctgcaggggcgagacgaccagaacgac
gagaagaaaagggcgcttgtcaaacaggtgcgtgagatggaggcagagctggagaatgag
aggaagcagagagccctggccatggctgctaagaagaagctggagatggacctgatggac
atggtgggacagatagatggcgccaacaaggcccgtgacgaagccatcaagcagctacgc
aaattgcagtcccagatgaaagactaccagagggagttggaggacgcccgggcctctcgg
gacgaaatattctcccaatccaaggagaacgagaagaagctgaagagcctggaggccgag
gttctccagctgcatgaggacctggcggcgtcagagagggcgcggcgccacgcagagcag
gaacgggatgagctagcggacgagatctccaacagcacctcgggcaagtctgccttgatg
gatgagaaaaggaggctggaggctcgcattgctcagctggaggaggaactagaggaggaa
cagggcaacatggagctgcttaacgaccgcttccgcaagaccaccatgcaggtggacacc
ctgaccctggagcttgtggcagagcgcagcttggcccagaagagtgagaattcgcgccag
cagctggagaggcagaacaaggacttgcgggccaagctgggtgagctggagggctctgtg
aagagccggttcaaggcctccatcactgccctggaggccaagatactgcagctggaggag
cagctggagcaggaggctaaggagcgagcagcggccaataagcttgtgagacggacagag
aagaagctgaaggaggtgtgcatgcaggtggaggacgagcgccgccattccgaccagtac
aaggaacagatggagaaggccaactctcgcatgaagcagctgaagaggcagcttgaggag
gctgaggaggaggccacacgtgccaacgcctaccgcaggaagctgcagagggagctggac
gatgcaactgaggccagtgagggtctcagccgcgaggtcaacacactcaagagccgcctc
aggcgtggaggccccatcagtttctcctccagccgctcgggcaggcgtcagctgcaggtg
gatggaacatcgcttgacctcctatccgacgacgaggtggaaaacaagaccacggacgcc
aatgccaacgagacgccagcagctccccaaccagagtag
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integrated database retrieval system
