Lucilia sericata (common green bottle fly): 119609521
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Entry
119609521 CDS
T08270
Name
(RefSeq) uncharacterized protein LOC119609521 isoform X1
KO
K00901
diacylglycerol kinase (ATP) [EC:
2.7.1.107
]
Organism
lsq
Lucilia sericata (common green bottle fly)
Pathway
lsq00561
Glycerolipid metabolism
lsq00564
Glycerophospholipid metabolism
lsq01100
Metabolic pathways
lsq04070
Phosphatidylinositol signaling system
Brite
KEGG Orthology (KO) [BR:
lsq00001
]
09100 Metabolism
09103 Lipid metabolism
00561 Glycerolipid metabolism
119609521
00564 Glycerophospholipid metabolism
119609521
09130 Environmental Information Processing
09132 Signal transduction
04070 Phosphatidylinositol signaling system
119609521
Enzymes [BR:
lsq01000
]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.107 diacylglycerol kinase (ATP)
119609521
BRITE hierarchy
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
DAGK_acc
RA
C1_1
DAGK_cat
C1_2
Motif
Other DBs
NCBI-GeneID:
119609521
NCBI-ProteinID:
XP_037820270
LinkDB
All DBs
Position
Unknown
AA seq
1645 aa
AA seq
DB search
MDLLVHKMADGGHTFVKKNFHKPTYCHHCSDILWFGLIGQGYICEVCNFIIHERCVTNVV
TPCSGIAPCIIKNPVAHCWSEPTTHKKKFCTVCRKRLDETPSVHCIVCEYYAHLECQDFA
VPDCTENATYVPGKELLNVKHQHHWREGNLPSNSKCVYCKKTCWSSECLTGYRCEWCGLT
THAGCRMYLPTECTFGCLQPIYLPPHCVSIPRTEVPIKEIMGVRKTESESNLVREYSCPD
EFENIEIADLIADDISHDQRIIDERKRADSTPDLSLREILLLQRQRLEQSKQNFFLSSSP
SSYAPSPIPTMIAGDMTSSTLAAVADVMEKGLDKNDDGDMECDEAKERTGEGEEQKNQND
IDDITELDVNDDSALQLTQTTNTTYSKHNKKCQNTKNITKSPSASSSLHLFYTNIVRKIP
YHGRRKHLSSNTDDEDEDVGVCDVSGGDISDDYDHCDVALKKRAAGAKLQGPSERAGAEA
SGAGSDCDYHGDVEGETAPHEGFYETSDTGGELTTTDDIDSSMNLISNLSYNSSNSNTSI
DNRSSIDRSKNAHNLKLSSGVPLPKKRNHPMTVNTALGVHSSSSAGAAGKPTSQKTGAIT
KTTKPILCPPKGHSTGGSVSSPNSSDCSSASPIPPPTTGKTLSSLPAQLSPVGRSKSFQE
PGVKSHSPSPRHKKYARFFQRRRSKRSNGGKCESKNIHSNYSLDTMYQNIEITIQDEDGN
FQPYDDNYDTYKCRRQRRSDDLVNADDYDDDDEDREVLKEYSQFLDNRLRPHCHTMYGGH
SDDAGGDISDATSSRSRSRLSDNEHVFGKLLKRMRRLSLGWRKPRYHKRRARSISEEFSS
GDTPRFKDEESVDRIEAMAVVPGGSAAGCSSGGSSSHHRPDSQLGHKSDKSDKEKEKKEK
EREEKDIEAIKVFDGNNSFRRQLYRVIVVPRTYTLEQLLTTALRAFHISRDPSAFYLTDL
YAPAGNEDAPLQDPNPVLSLNHLEGKRPAIFLRFHDRDNGFVRVYPGKLQCSVEEPYVSV
PVDTTTTIKDLIRDALDRFGLADNQIDDYRCSQVLLDSGVTERILSITERPLNIMKQMGK
DSIRQMELMRFYMQHSQDPHGPNIALFVGNLDPGKSQRKYEDFLNKYLNEDSKFTSIGPI
YYEYGSVVLTYEDAQKAVRAFYILREVRWDGKDLLVMLLPNIEPSMVPADINPLLVFVNV
KSGGCQGLELISNFRKLLNPFQVFNLENGGPLPGLYVFRHIPHYKILVCGGDGTVGWVLQ
CLDNVGQDSECSSPPCAILPLGTGNDLARVLCWGTGYTGDQDPLSYLREVIDAEDIRLDR
WTVVFHPEEKPEEQTMKVTTNTTGKKKKAHQAHLSQQTDQHHQEPAITSSDKSGAADDEC
EGTKNEDNTQIFVMNNYFGIGLDADLCLDFHNARMENPFKFNSRLHNKGVYVKMGLRKMM
TRKCTKDLQKEMRLEVDGKVVELPPCEGIIILNILSWGSGANPWGPDKDDRFSPPNHYDG
LLEIVGVTGVVHLGQIQSGIRYANRIAQGGHIKMHLHSDLPVQVDGEPWVQCSGDIVVLK
SALRALMLRKVKSKRRLTEPHISPAVLSLSSTAAATSSSSTALQIAAAQTNATAVGPQQQ
QQQQQLPDNANERDKDKDNQNANPT
NT seq
4938 nt
NT seq
+upstream
nt +downstream
nt
atggacctgctggtacacaaaatggcggatggtggtcacacattcgtgaagaagaatttc
cataagcctacgtattgtcatcattgctccgatatattgtggttcggtttaattggacag
ggttatatatgtgaagtatgcaattttataatacacgaaagatgtgtcacaaatgtggta
actccttgttctggcattgcaccatgtattattaagaatcctgttgcgcattgttggtca
gaaccaacaactcacaagaagaaattttgtacagtatgtcgcaaacgcttagatgaaaca
ccatccgtacattgtatagtttgtgaatattatgcgcatcttgagtgccaagattttgct
gtacctgattgtacagaaaatgccacctatgtacccggcaaggagttgttaaatgttaag
catcaacatcactggcgagaaggcaatctaccatcaaattcaaaatgtgtttattgcaaa
aagacctgttggtcctccgagtgtctaacaggttatcgttgcgaatggtgtggtttaacc
acacacgctggatgtcgcatgtacctgccaaccgaatgtactttcggttgtttacaaccg
atttatttacctccgcattgtgtttcaattccacgtaccgaggtgccaattaaagaaata
atgggtgttagaaaaacagaatccgaatcaaatttagttcgtgaatattcgtgccccgat
gaatttgaaaatattgaaatagctgatttaatagcagacgatattagtcacgatcagcgt
attattgacgagagaaaacgagccgatagtacacccgatttaagtttaagagaaatttta
ttattacaaagacaacgtttagaacaatcaaaacaaaacttttttctttcatcttcaccc
tcttcgtatgcaccctcacctataccgacaatgatagcgggcgatatgacctcttcgaca
ctggcagcggttgcggatgttatggaaaaaggtttagataaaaatgatgatggtgatatg
gagtgtgacgaagcaaaagagcggaccggagaaggcgaagagcaaaaaaatcaaaacgat
atagatgatataactgagttggatgtgaatgatgatagtgctttacagttgacccagacc
acaaatactacatactccaaacacaataaaaaatgccaaaatacaaaaaatattacaaaa
tctccctctgcctcgtcgtctttgcatttattttatacgaatatagtacgtaagatacca
tatcatggaagacgaaaacatctctcctccaataccgacgatgaggacgaggatgtgggt
gtttgtgatgtcagtggaggtgatattagtgatgattatgatcattgtgatgtggctcta
aagaaaagagcagctggtgcaaaactccagggaccaagtgaaagagcaggcgcagaagct
agtggagctggtagtgattgtgactatcatggtgatgtagagggcgaaacggcaccacat
gaaggtttctatgaaacttccgatactggcggggaattgaccacaaccgatgatattgat
tcaagcatgaatcttataagtaatttaagttataatagtagtaatagcaatacatctata
gacaatcgtagtagcatagatagaagtaaaaatgcacacaacttgaaattgtcttcgggg
gtaccgctgccaaaaaagcgtaatcatccgatgacagttaacactgccttaggtgtgcac
agtagtagtagtgcaggtgctgctggaaaaccaacctcacaaaagactggagctataaca
aagaccacaaaacctatactctgtccaccaaaaggacactctacaggcggttctgtaagc
tcacccaattcaagtgattgttcttcagcttcacccataccaccaccaaccacgggaaaa
acgctttcctcactaccggctcaactgtcgccggtaggtcgcagtaaatcgtttcaagag
cccggtgtaaaatcacactcacccagtccgcgtcacaagaaatatgcccgtttctttcaa
cgtcgtcgttcgaaacgttccaatggcggaaagtgcgaaagtaaaaatatccatagcaac
tatagtcttgatactatgtatcagaatattgaaattaccatacaagatgaggatggcaat
tttcagccttacgacgataattacgatacctacaaatgcagacgccaaaggcgtagtgat
gatctcgttaatgccgatgactacgacgacgacgatgaggatagggaggtgttgaaagag
tattcgcaatttttggacaatcgtttaaggcctcattgtcatacaatgtatggcggtcat
agtgatgatgctggcggtgatataagtgatgctaccagttcacgcagtcgttcacgtctc
agtgataatgagcatgtttttggcaaattactaaaacgtatgcgtcgtttgtcattgggt
tggcgtaaaccgcgctatcataaacgcagagctcggagtatatcggaagagtttagcagt
ggtgatacgcctcgttttaaagatgaagaatctgtggatagaattgaggcaatggccgtt
gtgccaggcggtagtgcagctggctgcagtagtggtggttcctcatcgcatcatagacca
gattcacaattaggtcacaaatcggataaatccgataaagaaaaggagaagaaagaaaaa
gaacgtgaagaaaaggatatagaagccataaaagtattcgatggcaacaattcatttaga
cgtcaactatatcgtgtcattgtagtacctcgtacatacactctggaacaattgctaacg
acagcacttagagcatttcatatctcacgtgatccaagtgcattttatttaactgatttg
tatgcaccagctggtaatgaagatgcaccattgcaagatcctaatcctgttttaagctta
aatcatttggagggtaaacgaccagctatatttctaaggtttcatgacagagataatggc
tttgtacgcgtttatcctggcaaattgcaatgctctgttgaagagccttatgttagtgtt
cctgtcgataccacgaccactattaaggatttgatacgtgatgctctcgatcgttttggt
ttagccgataatcaaatcgatgactaccgatgttcccaagtattattagatagtggtgtt
actgaacgcattttatctataactgaacgtcctttgaatattatgaaacaaatgggcaaa
gactctatacgtcaaatggaattgatgcgtttctatatgcaacatagtcaagatcctcat
ggtcccaatattgctttattcgtgggcaatctagatccgggcaagtctcagcgcaaatat
gaggatttccttaataaatatttaaatgaggatagtaaatttacaagtattggtccaatc
tattatgaatatggttcggttgtcttgacctatgaagatgcccagaaagcggtaagagct
ttttatatattacgtgaagtgcgttgggatggtaaagatctgttggtaatgctattgcca
aatattgaacccagcatggtgccggccgatatcaatcctttgttagtgtttgtaaatgtt
aaatctggtggctgtcagggtttggaattgatatcgaactttagaaaactactgaatcca
tttcaagtatttaatttagaaaatggtggaccattacccggtttatacgtatttcgtcat
attcctcattataaaatcttggtgtgtggtggagatggtaccgtaggttgggtgttgcag
tgtcttgacaatgtgggtcaagattcagagtgttctagtccaccttgtgctattttaccg
ctgggaacaggtaacgatttggcacgtgtactctgctggggtactggctatacaggcgat
caggatcctcttagctatttgcgtgaagttattgatgctgaggatatacgtttagatcgt
tggactgtggtgttccatccggaggagaaaccagaggaacaaaccatgaaggttacgacc
aatacaaccggtaagaagaagaaggctcatcaagcacatctatcgcaacaaacagatcag
catcatcaagaaccggccattacatcgagtgataaatcaggtgccgcagatgatgagtgt
gagggtacgaaaaatgaggataatacccagatatttgttatgaataattactttggtatt
ggactcgatgcggatctgtgtctagactttcacaatgcacgcatggaaaatccatttaaa
tttaattcacgtctccacaacaagggtgtgtatgtgaaaatgggtctgcgtaaaatgatg
acacgtaaatgtacaaaggatttgcaaaaggaaatgcgtttagaggtcgatggcaaagta
gttgagttgccgccatgtgagggcattattatattgaatatattaagttggggaagtggt
gctaatccttggggacctgataaggatgatcgtttttcaccacccaatcattatgatggt
ctgttggaaattgttggtgttaccggtgttgtacatttgggtcaaatacaatcgggcata
cgttatgctaatcgtatagctcagggtggccatattaaaatgcatttacattctgattta
cctgtacaagttgatggtgaaccttgggtacaatgttccggtgatattgtggttttaaaa
tctgctctaagggcccttatgctaaggaaagtcaagagtaagcggcgtttgacagagcca
catatttcaccagctgtcttgagtctctcgtcaacagctgcggctacctcatcttcgtcg
acggctttacaaatcgcagcagcacaaacaaacgccacagcagtgggaccccaacagcag
cagcaacagcaacaattaccggataatgctaatgaacgtgataaagataaagataaccaa
aatgctaatcctacatag
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integrated database retrieval system