Branchiostoma floridae (Florida lancelet): 118414221
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Entry
118414221 CDS
T01074
Name
(RefSeq) kinesin-like protein KIF20B isoform X1
KO
K10402
kinesin family member 20
Organism
bfo
Branchiostoma floridae (Florida lancelet)
Pathway
bfo04814
Motor proteins
Brite
KEGG Orthology (KO) [BR:
bfo00001
]
09140 Cellular Processes
09142 Cell motility
04814 Motor proteins
118414221
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:
bfo04131
]
118414221
03036 Chromosome and associated proteins [BR:
bfo03036
]
118414221
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:
bfo04812
]
118414221
Membrane trafficking [BR:
bfo04131
]
Endosome - Golgi transport
Rab GTPases and associated proteins
Rab associated proteins
118414221
Chromosome and associated proteins [BR:
bfo03036
]
Eukaryotic type
Centrosome formation proteins
Spindle formation proteins
118414221
Cytoskeleton proteins [BR:
bfo04812
]
Eukaryotic cytoskeleton proteins
Microtubules
Tubulin-binding proteins
Kinesins
118414221
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Kinesin
Microtub_bd
TMF_TATA_bd
Tropomyosin
Motif
Other DBs
NCBI-GeneID:
118414221
NCBI-ProteinID:
XP_035674000
UniProt:
A0A9J7MNS0
LinkDB
All DBs
Position
4:12246593..12276286
Genome browser
AA seq
2120 aa
AA seq
DB search
MSDQDTQEIPLSDGEEDLLEDPGLEDTVSDEIIRKDLLSDFATPAKVPTGRSSIDHGTEH
MKVYLRIRPLAEEEKEHGEEQGCMHIDNENTLVTMAPKDSFMYKSSTRGFGDIMHKFGFS
RIFNEDTCQKDFFDNSMLGMVKDFVGGQNCLVFTYGVTNSGKTYTIQGNAKDGGILPRTL
DVVFNSIAEKKWEGGITLKPKCFSDVVKLDERGVRQQEAIKAAVLKMAEKQELEGASGAD
LTNISKVSTMTEDSLCSQSSQKSDTMEDSDGIDVLAEVESRVADETSVSVDAQGPVKFSI
WVSFAEIYNEYIYDLLEAYPQGKNKRRPTLKLSEDKHGSIYIKGLREIMVTSADEAYKIL
TIGQKNLHIAATKMNHCSSRSHCIFSIKILRVVDVDDPHVARMSMLSFCDLAGSERYTKT
QSTGDRLREAGNINTSILTLGKCIKNLRWNQHHRDNPKIIPFRESKLTRLFQSFFLGHGK
ACMIVNVNKCASMFDETYHVLKFSAVAKQIVTRISKVDRWNSSFPRPAPPRNVSLALNTS
ATPRSRATVGWAANAVRASTVVEQDVIEEEEEEDDDDDDDDAETTYTDLASLVEKLQQEL
VEERKEKVLMEVRIREEVCEEMAKSLVEIENDYSERLQQQQQNIEEKWEKRIEMYSQSIK
KSRKRARVDRVQDEEEEWVSSVLLHAEQVKVKERDEQIKDLTIQITSMNENLKIANDNLD
FKRLELQRRDDQHKQEMIRLKESLQKAEKSASKQGSSSSSVDMDLQTELSEALKTIKEQE
KEIADLQETLKEAGETFFEKNDEIEKLKSAIAEDEEKMKSQNATITDLQQLVEELRTLVD
QTKATIAEKEEKIADLAKQIQDQKDMMDQKIEALQQDLSLLSSERNEAINKADKQQNEIQ
ELVEKVQSQTALLNATATDEEEESQMLRQKLSELENSLKEARTKSDSYQEKVEELSKTKE
ELLLTQQKVTELEERLSEAQTTSESSQVKTDELSSKQEEVLTLKKKVEELEGSLKEATSS
EDSNKEMMAKQDEDLLSLKQKILDLEQAAKDSTAETEQYKEKAEKYEKTVEDYKTALSDH
ESFVENLNKEVKELKSELEEEVKRHQTAKTMVLELEHKVEELDTANKTIAGSTRKGDKEK
QRLEKALKEANTSHLETKKHNLELEKKLQEAEKHLGEAKKREQLAKKDVKSARENLKTAE
EQVAANEKSIKGLDNHVAELKESEGSLKKLLASAQEQADKLTSLVTERESAIKELREGVA
SKEAAVREKEAEVGSLSQKLDEMKKLHQQDENTCSSRQEEISQLKTQLSEVNKQLQEKDA
SEKEMKSQVAMLWNQTQADKSALHEAESASRQMETQVEGLKLQLKEKEDRAAMLEKDLEI
VRSTVSDYKAVREDLEKTRSREVDIRATLQSMTAQQEERNSTIDRLEDTLNNLKQELKEK
VDQAKLAQEEQQAAKKEKEDAAKKVEEVEALLEAKEKRLKAKSATIKELMEKADQERRKA
EDERQRYEIAFTDVQGNETVISTLKQALEEQEATMATQDKVLESKQEEIQTFADELEDLQ
KKYSELLESSDVNKRELKRTVSNLEHLKVNYEQADTDRKAAQEELCSVKEEKDGLLEQLK
SLSERVQELERTLHSTKGEEGALQNEKDRLEVALTDSKKEVESLEQWLSETKKELEQLKN
ELEQGEKNNTDTEALEDTVRQLKQELETVQQQKEEELAQWRSERDKLVSELEKQLMALVA
REKATQESLKDAEEEITTLKTEKEATQVSDDRLTALQSQLDECYATISHLEEKLKQQTGG
PATRRGRRTTRSAMISEDQLRRELDTCRKQLVEEQRAKEKVSDNLDKAVRAKDKIIDELK
QSNQDLQRELWAQSEEGSRHESSSSSTSIKQEEEEEVEPAEEATEEGDGPIVFDESEIVD
EEGNKKRRFPSVHLEMDVTPVVTKRKTKTTKAAGSRRGRKRKSEELVENEDPKVDTPATR
TRSRKKVPKTSVKQEPVSPSPSEVHVPETPEDQLPLSSLRGGKRTALSRIGDYVSNSPVA
KSAKKMMEAAVGMASPTKSPVSESPPRPVEKKKRRKLYKTDISAPFECPPHQMMSTGINE
PAEDAHSIVTRRLRTRAHKK
NT seq
6363 nt
NT seq
+upstream
nt +downstream
nt
atgtcagatcaagatacccaggagatcccactgtcggatggggaggaggatctgttggaa
gatcctggactcgaagatacagtttcagatgaaattattcgcaaggacctcctatcagat
tttgccacacctgccaaagtcccaactgggcgcagcagcatcgaccatggcactgagcac
atgaaggtttatctcagaatcaggcccctggcagaggaagagaaggaacatggagaagaa
cagggctgtatgcatatagacaatgagaacaccttggtgaccatggcacccaaggattcc
ttcatgtacaagagcagcaccagggggtttggtgacatcatgcacaagttcggcttctct
cgcatcttcaatgaagatacctgccagaaggacttctttgataactccatgttggggatg
gtgaaggactttgtgggaggacagaactgcctggtgtttacgtatggggtcaccaactct
ggcaagacttacaccatacaaggaaatgccaaagatgggggtatacttccacgtaccctg
gatgtggtcttcaacagtattgcagagaagaagtgggaggggggcataaccctgaagcct
aagtgcttctccgatgtggtcaaactcgacgagagaggtgtgcgtcagcaagaagctatc
aaggcagctgtgctaaagatggcagaaaaacaggagctagagggagccagcggagcagac
ttgaccaatatctccaaggtgtccaccatgacagaagactccttgtgtagccagtcctcc
cagaaatctgacacaatggaggactctgatggaattgatgtccttgcagaggtagagtct
cgtgtggctgatgagacatcggtcagtgtggatgcccaggggcctgtcaagttttccatc
tgggtctcatttgctgagatctacaatgagtatatctatgacctgctggaggcctaccca
cagggaaagaataagcgcaggccgaccttgaaactttctgaggacaaacatggcagtata
tacataaaaggtctgagagagatcatggtgaccagtgcagatgaggcatacaagatcctg
accattgggcagaagaacctgcacattgctgccaccaagatgaaccactgctccagcaga
agccattgtatcttcagtatcaagatcctgagagttgtagacgttgatgacccacatgtg
gccaggatgagcatgttgtccttctgtgacctggctggatcagagcggtacactaaaaca
cagagcaccggagatcgactccgagaggcaggaaacatcaacacctccatcctcaccctc
ggcaagtgtatcaagaacctgaggtggaaccagcatcacagggacaacccaaagatcatt
ccgttccgtgagagcaagctgacacgactgtttcagagtttcttcctggggcacggcaag
gcctgcatgattgtgaatgtgaacaagtgtgcctccatgtttgatgaaacgtaccatgtc
ctgaagttctccgcagttgctaagcagattgtgaccagaatctccaaggtggacaggtgg
aactcgtctttccctcgcccagcaccacctcggaatgtgtctcttgcactcaacacctcg
gccacgcccagaagtcgtgctactgttggttgggcagccaacgcagtacgagcgtccaca
gtggtggaacaggatgtcattgaggaggaggaggaggaagatgatgatgacgatgatgat
gatgcagagacaacatacacggatttggcatctctggtagagaaactccaacaggagctt
gtagaggagaggaaggagaaggtcctgatggaggtccgcatccgggaggaagtgtgtgag
gaaatggccaagtctctggtggagatagagaacgactacagtgaacgactgcagcaacag
cagcagaacattgaggagaagtgggagaagaggattgagatgtacagccagagcatcaag
aagtcccggaagcgagcccgggtggacagggtgcaggatgaggaggaggagtgggtctcc
agcgtgctacttcatgcagagcaagtcaaggtcaaggaaagggatgaacagatcaaggat
ctgacaatccaaatcacctccatgaatgaaaacctaaagattgcaaacgacaaccttgac
ttcaaacgtctggaactccaacgccgggacgaccagcacaaacaggagatgatccggctc
aaggagtcactacagaaggcagaaaagtctgcatcaaaacagggatcatccagtagctct
gtagacatggatctacagacagagctgagtgaggccctgaaaacaatcaaggaacaagaa
aaggagatagcagacctccaggaaacactgaaggaagcaggggaaaccttctttgagaag
aatgacgaaattgagaaacttaagtcagccatagctgaggatgaagagaagatgaagtca
cagaatgcgaccatcacagacctgcagcagctggttgaggaactccgtactttggtcgac
cagaccaaggccaccattgctgagaaggaagagaagatcgctgaccttgctaagcaaatc
caagaccagaaagacatgatggaccagaagatagaagccctacagcaagacctgtctctc
ctgtcatcagagagaaacgaagccatcaacaaggcagacaaacaacaaaatgaaatccag
gaactagtagaaaaggttcagtcccagacagctctgcttaatgccaccgctacagacgaa
gaggaagagagtcagatgctgcgtcagaaactgtctgaactggagaattctctcaaggag
gcaagaacaaagtcagactcctaccaagaaaaggtagaggagttatctaagacaaaggaa
gagcttttgttgacacagcaaaaagttacagaactagaagaacgtctcagtgaggcccaa
accacctcagagtctagtcaagtcaaaactgatgaactgtctagtaagcaagaagaagtc
ctgactctaaaaaagaaagttgaagaattggagggcagcctgaaagaggcaacctcaagt
gaagattccaacaaggaaatgatggccaagcaagatgaggatctcctctccttgaagcag
aagattctagaccttgagcaggctgcaaaagactccacagcagaaacagagcagtacaag
gaaaaagctgagaaatacgagaagacagtggaagactacaaaacggccttgagtgatcat
gaatcttttgtggaaaatctgaacaaagaagtgaaggaactgaagtctgagcttgaggaa
gaagtcaaacgtcaccagacagcaaagactatggtgctggaactagaacacaaggttgaa
gagctggacacagcaaataaaacaatagcagggtcaactagaaagggtgacaaggagaaa
cagagactagaaaaggctcttaaagaagccaatacgtcccacttggaaaccaagaaacat
aacttagagctggagaagaagttacaggaagctgaaaaacacctgggagaagccaagaaa
agggagcaactggccaagaaagatgtcaagtctgctagagagaatctcaaaacagcagaa
gagcaggtagctgcaaatgaaaagtctataaaaggcttagataatcatgttgctgagctg
aaagaatccgaagggagtctcaagaagctgctggcctcagcccaagaacaggctgataaa
ctaacaagcctcgtgactgaaagagaaagtgcaatcaaggagttaagagagggtgtcgct
tccaaggaggctgctgtgagagagaaggaggcagaagttggctccttatctcagaagctt
gatgagatgaaaaagctgcaccagcaggatgagaacacatgcagcagccgccaggaggaa
atatcacagctgaagactcaactgtccgaggtcaacaagcagctgcaagagaaggacgct
tcagagaaagagatgaaaagccaggttgccatgttgtggaatcagacccaggcagacaag
agtgccctacacgaggcagagagtgcctccaggcagatggagacccaggtcgagggactg
aagctacagctaaaggagaaggaagaccgtgctgccatgttggagaaggatcttgaaatt
gtaagatctactgtcagtgactacaaagcagtcagggaagatctagagaagacacggtcc
cgggaggtagacataagagccaccttgcaatctatgactgcacagcaggaagagagaaat
agcacaatcgacaggctggaggataccttaaacaacctgaagcaggaactgaaggaaaag
gtggatcaagccaagctggctcaggaggaacaacaagctgcaaagaaggagaaagaagat
gcagccaagaaagtagaagaggtggaagctctcctggaggcaaaggaaaagcggctgaaa
gccaagtctgccacaatcaaagaacttatggagaaggctgaccaggagaggaggaaggct
gaggacgagaggcagagatatgagattgctttcacagatgtgcagggtaatgagacagtg
atttcgaccctgaaacaggccctagaggagcaagaggctaccatggcaacccaggacaag
gtgttagagagcaaacaggaggagatccagacatttgcagatgaactggaagacctgcaa
aagaaatactctgagttgttggagtcatctgacgtgaacaagagggagctgaagagaacc
gtcagtaacctggagcacctgaaggtaaactatgagcaggctgacactgacaggaaggca
gctcaggaggaactgtgcagtgtgaaggaggagaaggatggactgctggaacagttgaag
tcactgtctgaaagagtccaagaacttgagcgaacactccattctacaaagggtgaggag
ggggcacttcagaatgagaaagatcgtctagaagtggctcttactgacagcaaaaaggaa
gtggagtcccttgagcagtggctgtcagagacaaaaaaggagttggaacaactgaaaaat
gagcttgagcagggagaaaagaacaacactgacacggaagccctggaggacacagtaagg
cagctgaaacaggaactggagacagttcagcagcagaaggaggaagagctggcccagtgg
aggagtgagagggacaagctggtttctgagctggagaaacaactcatggcacttgtagcc
agggaaaaggccacacaggagtccctgaaagatgcagaagaagaaatcacgacattgaag
actgagaaggaagcgacccaggtgtctgacgaccgtctcacggccctgcagagccagctg
gacgagtgttacgccaccatttctcacctggaggagaaactgaagcagcagaccggcggc
cccgctacccgtcgcggcaggcgcaccacccgctccgccatgatcagtgaggaccagctg
cgcagggagctcgacacctgtcgcaaacagcttgtagaggagcagcgtgccaaggagaag
gtgtctgataacctagataaggctgtcagggcaaaggacaagatcattgatgagctgaag
cagtccaaccaggacctgcagagggaactctgggcacagtcggaggagggtagtcgccat
gagagcagcagcagcagcaccagcatcaaacaggaggaggaggaggaggtagaacctgct
gaggaggctacagaggaaggagacgggccgatcgtgtttgatgagagcgagatagttgac
gaggaggggaacaagaagcgacgcttcccgtctgtccatctggagatggatgtcacacct
gtggtcacaaagcgcaagactaaaaccacaaaagctgcagggagtcgtaggggaaggaag
aggaagagtgaagagctggtggagaatgaagaccccaaggtcgacacccctgccacaagg
acccgcagtaggaagaaagtccccaagacgtctgtgaaacaggaacctgtatcaccaagt
ccttcagaggtgcatgtaccagaaactccagaggaccagttgccactcagctcactccgt
gggggcaagagaacagccctctccaggattggtgactatgtcagcaactcgcctgtggca
aagtcagctaagaagatgatggaggctgcagtgggaatggcgtctccaaccaaatcaccg
gtttccgaatctcctcccaggccggtggagaaaaagaaacgtaggaaactttacaagacg
gacatctctgcaccattcgagtgtcctccccatcaaatgatgtcaactgggatcaatgag
ccagcagaggatgcacactccattgtgactaggagattgagaacaagagctcacaagaaa
taa
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integrated database retrieval system
