Lucilia sericata (common green bottle fly): 119601064
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Entry
119601064 CDS
T08270
Name
(RefSeq) clathrin heavy chain
KO
K04646
clathrin heavy chain
Organism
lsq
Lucilia sericata (common green bottle fly)
Pathway
lsq04142
Lysosome
lsq04144
Endocytosis
lsq05100
Bacterial invasion of epithelial cells
Brite
KEGG Orthology (KO) [BR:
lsq00001
]
09140 Cellular Processes
09141 Transport and catabolism
04144 Endocytosis
119601064
04142 Lysosome
119601064
09160 Human Diseases
09171 Infectious disease: bacterial
05100 Bacterial invasion of epithelial cells
119601064
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:
lsq04131
]
119601064
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:
lsq04147
]
119601064
Membrane trafficking [BR:
lsq04131
]
Endocytosis
Clathrin-mediated endocytosis
Clathrin
119601064
Exosome [BR:
lsq04147
]
Exosomal proteins
Proteins found in most exosomes
119601064
BRITE hierarchy
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
Clathrin
Clathrin_propel
Clathrin_H_link
Clathrin-link
TPR_COPA_B
TPR_Vps41
HEAT_Nup120
Gp18_dom_I
Motif
Other DBs
NCBI-GeneID:
119601064
NCBI-ProteinID:
XP_037807692
LinkDB
All DBs
Position
Unknown
AA seq
1681 aa
AA seq
DB search
MTQILPIRFQEHLQLTNVGININSISFSTLTMESDKFICVREKVNDTAQVVIIDMNDTAN
PTRRPISADSAIMNPASKVIALKAQKTLQIFNIEMKSKMKAHTMTEDVVFWKWISLNTLA
LVTETSVYHWSMEGDSTPLKMFDRHSSLNGCQIINYRCNPNQQWLLLVGISALPNRVAGA
MQLYSVERKVSQAIEGHAAAFASFKMEGNKEPSTLFCFAVRTATGGKLHIIEVGAPPTGN
QPFVKKSVDVFFPPEAQSDFPVAMQVSSKYDTIYLITKYGYIHLYDMETGTCIYMNRISA
DTIFVTAPHESSGGIIGVNRKGQVLSVTVDEEQIIPYINTVLQNPDLALRMAVRNNLSGA
EELFVRKFNKLFTAGQYAEAAKVAALAPKGILRTPQTIQRFQQVQTPAGSTTPPLLQYFG
ILLDQGKLNKYESLELCRPVLLQGKKQLCEKWLKEEKLECSEELGDLVKTSDLTLALSIY
LRANVPNKVIQCFAETGQFQKIVLYAKKVNYTPDYIFLLRSVMRTNPEQGSSFASMLVAE
EEPLADINQIVDIFMEHSMVQQCTAFLLDALKHNRPNEGALQTRLLEMNLISAPQVADAI
LGNAMFTHYDRAHIAQLCEKAGLLQRALEHYTDLYDIKRAVVHTHLLNADWLVGFFGTLS
VEDSLECLKAMLTANIRQNLQICVQIATKYHEQLTTKALIDLFESFKSYEGLFYFLGSIV
NYSQDPEVHFKYIQAACKTNQIKEVERICRESNCYNAERVKNFLKEAKLTDQLPLIIVCD
RFDFVHDLVLYLYRNNLQKYIEIYVQKVNPSRLPVVVGGLLDVDCSEDIIKNLILVVKGQ
FSTDELVEEVEKRNRLKLLLPWLESRVHEGCIEPATHNALAKIYIDSNNNPERFLKENQY
YDSRVVGRYCEKRDPHLACVAYERGQCDRELIAVCNENSLFKSEARYLVRRRDAELWAEV
LAESNPYKRQLIDQVVQTALSETQDPDDISVTVKAFMTADLPNELIELLEKIILDSSVFS
DHRNLQNLLILTAIKADRTRVMDYINRLDNYDAPDIANIAISNQLYEEAFAIFKKFDVNT
SAIQVLIEQVNNLERAYEFAERCNEPAVWSQLAKAQLDKGLVKEAIDSYIKADDPSAYMD
VVNVASQSDSWEDLVRYLQMARKKARESYIESELIYAYARTGRLADLEEFISGPNHADIQ
KIGDRCFNDGMYDAAKLLYNNVSNFARLAITLVYLKEFQGAVDSARKANSTRTWKEVCFA
CVDAEEFRLAQMCGLHIVVHADELEDLINYYQDRGYFEELIALLESALGLERAHMGMFTE
LAILYSKFKPSKMREHLELFWSRVNIPKVLRAAESAHLWSELVFLYDKYEEYDNAVIAMM
AHPTEAWREGHFKDIITKVANIELYYKAIQFYLDFKPLLLNDILLVLATRMDHTRAVTFF
SKTGHLALVKPYLRSVQSLNNKAINEALNGLLIEEEDYQGLRNSIDGFDNFDTIALAQKL
EKHELTEFRRIAAYLYKGNNRWKQSVELCKKDRLYKDAMEYAAESGKQEIAEELLAWFLE
RNAYDCFAACLFQCYDLLRPDVILELAWKHNIMDFAMPYMIQVIREYTAKVDKLEQNEQR
REKEDETVEHKNIITMEPQLMITAGPAMGIPPQYAQNYGAAAAAPGYAPNMAYPPGYGIY
K
NT seq
5046 nt
NT seq
+upstream
nt +downstream
nt
atgactcaaatactacccatacgctttcaggagcatttacagctcacaaatgtcggtatt
aatatcaattcgatatcgttcagtactcttaccatggagtctgacaaattcatttgtgtg
cgtgaaaaggtcaacgataccgcacaagtggtcattattgatatgaatgacactgctaat
ccaactagacgtccaatatcagccgattcagctattatgaatccagctagtaaagttatt
gcacttaaagcgcaaaaaactttacaaatctttaatatcgaaatgaaatcgaaaatgaaa
gctcataccatgaccgaagacgtagtcttctggaaatggatttcattgaatactttagct
ttggttacagagacctctgtatatcattggtcgatggagggtgattcgacgccccttaaa
atgttcgatagacattcctcattaaatggttgccaaatcattaattatcgttgtaatcca
aatcaacaatggcttttgttggtgggtatatcggcattgccaaatcgtgtggctggtgct
atgcaattgtattcggtggaacgtaaagtatcacaggcaattgaaggtcatgccgccgct
tttgcttcgtttaaaatggagggcaataaggaaccttcaactttgttctgttttgctgtt
cgcactgctaccggtggtaaattgcatattatcgaagttggtgctccaccaactggcaat
cagccgtttgttaagaaatccgttgatgtcttctttccacccgaagcccaaagtgatttc
cccgtagcaatgcaagtttcctcgaaatatgataccatctatttgattaccaaatatggt
tatattcatctatacgacatggagacgggcacctgcatctacatgaatcgcatttcggcc
gatacaatatttgtaacagcgcctcatgaatcgagtggcggtattattggggtaaatcgc
aagggtcaagtgctatcggtgacagtggacgaggaacagattataccctatattaatacg
gtattacagaatcccgatttggctttgcgcatggctgtacgcaacaatctctctggtgca
gaggaattgtttgtgagaaaattcaataagctatttacggccggccagtatgccgaggcc
gccaaggtagccgctttggcgcccaagggtattttgcgtacgccacagactatacaacgt
ttccagcaagtccaaacgccggctggttctacaacaccacctctattgcaatattttggt
atattattagatcagggtaaattgaataaatatgaatctttggaattatgccgcccggtg
ttgttgcaaggcaaaaagcaactgtgcgagaaatggctgaaggaggagaaattggaatgc
agcgaagagttgggtgatttggtcaaaacctccgatctaacactggctttgtccatctat
ttgagagcgaatgtgcccaataaggttatacaatgctttgccgagactggccagttccag
aagatcgtgttgtatgctaaaaaggtgaactatacacccgactatatattcctgttgcgt
tcggtaatgcgcaccaatcctgagcagggttccagctttgcttcgatgctggtggccgag
gaagaacctttggcggatatcaatcaaatagtggacattttcatggaacactctatggtc
cagcaatgtacggcctttttgctagatgctcttaagcataatcgtcccaatgagggcgcc
ttacagacccggctgttggaaatgaacttgatttccgcaccccaagtggccgatgccatt
ttaggcaatgccatgtttacccactacgatcgtgctcacattgcccaattgtgtgagaag
gctggtttgttgcaacgtgctttggaacactataccgatttgtatgacattaagagagct
gtggtgcatactcatctcttaaatgccgactggttggtgggctttttcggtaccctctcg
gtggaggattctttggagtgcctaaaggccatgttgactgctaacattagacagaattta
cagatttgtgttcaaattgctaccaaatatcatgaacaactgaccaccaaagctctgata
gatctcttcgaaagctttaaatcctacgagggtctcttctatttcttgggttccattgtc
aactactcgcaagatcctgaggttcatttcaagtacatacaggctgcctgtaagaccaac
caaatcaaggaagtggaacgtatttgtcgtgagtccaactgttacaatgctgaacgtgtt
aagaatttcctcaaagaagccaaattgaccgatcaattgcctttgatcattgtatgcgat
cgttttgatttcgtgcacgatttagtcttgtacttgtaccgcaataatctacagaagtac
attgaaatctatgtgcaaaaggtcaatccttcccgtctgcccgtagtggtgggtggtctc
ttagatgtggactgttccgaggatattattaagaaccttattctggtcgttaagggacaa
ttctccaccgatgagctggtggaagaggtagagaaacgcaatcgcttgaaattgctgtta
ccctggttggagtcgcgtgtccatgagggctgcattgagccggctacacacaatgccttg
gccaagatttatattgattcgaataacaaccctgagagattccttaaggaaaatcaatat
tatgatagtcgtgttgtgggacgttactgcgagaaacgtgatcctcatttggcctgtgtg
gcctacgaacggggtcaatgtgatcgtgaattgattgctgtgtgcaatgaaaactctctg
ttcaagagcgaggcccgttatttggttagacgtcgtgatgctgaactttgggctgaagtg
ctggccgaatcgaatccctacaagcgccaacttatcgatcaggtggtacaaaccgctttg
tccgagacacaagatcccgatgatatatctgtcaccgtcaaggctttcatgaccgccgat
ttacccaatgaactcattgaattgttggaaaagatcatcttagactcttcagtcttttcg
gatcatcgcaatttgcaaaatcttttgattttgaccgccatcaaggccgatcgtactcgt
gttatggattacattaatcgtctggacaactatgatgctcccgatatcgccaacatagcc
atatcgaatcaattatatgaggaagcctttgccatctttaagaaatttgatgttaacacc
tcggctatacaggtattgattgaacaggtcaataatctggaaagagcctatgaatttgct
gaacgttgtaatgagccagcagtatggtctcaattggccaaggcccagctagataagggt
ttggttaaggaagccatcgactcttacatcaaggctgatgatcccagcgcctatatggat
gtggtaaatgtcgcctcacaatctgattcttgggaagatttggtacgttacttgcaaatg
gcccgcaagaaggctagagagtcatacattgaaagtgaattgatttacgcctatgcccgc
actggccgtttagctgatttggaagaattcatctccggacccaatcatgctgacattcaa
aagataggcgatagatgtttcaacgatggcatgtatgatgccgccaaactgctttacaac
aatgtcagcaactttgcccgcttggccattactttggtatatctcaaggagttccaagga
gctgtggattcagcccgcaaagccaattctacacgcacctggaaggaggtgtgcttcgct
tgtgtcgatgccgaagaattccgtttggctcaaatgtgcggcctccatattgtagtgcac
gccgatgaactcgaggatttgatcaactactatcaagatcgcggctactttgaagaactc
attgccctcctcgaatctgccttgggtttggaacgcgctcacatgggcatgttcaccgaa
ttggctatactctattcaaaattcaagccttcgaaaatgcgcgaacatttggaattgttc
tggtcgcgtgtcaatatacccaaagtattacgtgctgccgaatcggcacacttgtggtcc
gagttggtattcctttatgataaatacgaggagtacgataacgctgtaattgctatgatg
gctcatcccaccgaagcctggcgtgaaggtcacttcaaagatattatcacaaaggttgcc
aacattgaactgtactacaaggctatacaattctatttggactttaagcccctgctactc
aacgacatacttttggtattggccacacgcatggatcacactagagccgttacgttcttc
tcgaaaaccggtcatttggctttggtcaaaccctatttgcgttccgtgcaatcgcttaac
aacaaagccatcaatgaggctttgaacggtttgttaatcgaagaggaagactatcaagga
ctacgcaactctattgatggtttcgataatttcgatactattgctttggcccagaaattg
gagaaacatgaattaactgaatttagacgtattgctgcttatctgtacaaaggcaacaac
cgctggaaacaatcagttgaattgtgtaaaaaggatcgtttgtacaaggatgctatggaa
tatgcagctgaatctggtaaacaggaaattgccgaagaactgctggcttggttcctcgaa
cgtaatgcctatgattgttttgctgcctgcttattccaatgttacgatttattaagaccc
gatgttattttggaactagcatggaaacacaatattatggactttgccatgccttatatg
atacaggtcatacgtgaatataccgccaaagtggataaactcgaacaaaacgaacaacga
cgagagaaagaagatgaaacggttgaacataaaaacattattaccatggaacctcaatta
atgataacagctggtcctgcaatgggtataccaccacagtatgctcaaaattatggtgct
gctgctgcagcgcctggttatgcgcccaatatggcttatccacccggttatggaatatac
aaataa
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integrated database retrieval system
