Pipistrellus kuhlii (Kuhl's pipistrelle): 118723715
Help
Entry
118723715 CDS
T07682
Symbol
EIF2AK4
Name
(RefSeq) eIF-2-alpha kinase GCN2 isoform X1
KO
K16196
eukaryotic translation initiation factor 2-alpha kinase 4 [EC:
2.7.11.1
]
Organism
pkl
Pipistrellus kuhlii (Kuhl's pipistrelle)
Pathway
pkl04140
Autophagy - animal
pkl05160
Hepatitis C
pkl05162
Measles
pkl05168
Herpes simplex virus 1 infection
Brite
KEGG Orthology (KO) [BR:
pkl00001
]
09140 Cellular Processes
09141 Transport and catabolism
04140 Autophagy - animal
118723715 (EIF2AK4)
09160 Human Diseases
09172 Infectious disease: viral
05160 Hepatitis C
118723715 (EIF2AK4)
05162 Measles
118723715 (EIF2AK4)
05168 Herpes simplex virus 1 infection
118723715 (EIF2AK4)
09180 Brite Hierarchies
09181 Protein families: metabolism
01001 Protein kinases [BR:
pkl01001
]
118723715 (EIF2AK4)
Enzymes [BR:
pkl01000
]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.11 Protein-serine/threonine kinases
2.7.11.1 non-specific serine/threonine protein kinase
118723715 (EIF2AK4)
Protein kinases [BR:
pkl01001
]
Serine/threonine kinases: Other
PEK family [OT]
118723715 (EIF2AK4)
BRITE hierarchy
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
Pkinase
PK_Tyr_Ser-Thr
RWD
HGTP_anticodon2
tRNA-synt_His
Kinase-like
Motif
Other DBs
NCBI-GeneID:
118723715
NCBI-ProteinID:
XP_036302233
LinkDB
All DBs
Position
Unknown
AA seq
1647 aa
AA seq
DB search
MAGGRGAPGRGRDEPPDSYPQRQDHELQALEAIYGADFQDLRPDACGPVKEPPEINLVLY
PQGLAGEEVYVKVDLRVKCPPTYPDVVPEIELKNAKGLSNESVNLLKSCLDEVAKKHCGE
VMIFELAYHVQSFLNEHNKPPPKSFHEEMLERRAQEEQQRLLEAKRKEEQEQREILHEIQ
RRKEEIKEEKKRKEMAKQERLEIASFSNQDHTSRKDPGGHRTAVPHGGSPDFVGNGRHRT
NSSGRSRRERQYSVCNSEDSPGSCEILYFSTGNTDQLMVHKGKCIACDVQLGKLVYNALE
TATGSFVLLYEWVLQWQKNIGPFLTNQEKEKIDKCKKQIQGAETEFNSLVKLSHPNIVRY
FAMNLREQDNSIVVHILVEHFNGVSLAAHLSHTGPIPVHLLRKYAAQLLLGLDYLHSNSV
VHKVLGTSSVLVDAEGTIKITDYSISKRLADICKEDVFEQTRVRFSDSALPYKTGKKGDV
WHLGLLLLSLSQGQECGEYPVTIPSDLPADFQDFLKKCVCLDDKERWSPQQLLKHSFINP
QPKTPLLEQSPEDFGGQDYIETVIPSNRLPSAAFFSETQRQYSRYFNEFEELQLLGKGAF
GAVIKVQNKLDGCCYAVKRIPVNPASKHFRRIKGEVTLLSRLHHENIVRYYNAWIEKHER
PAAPSTSPEDSGPEARDGPAAAARPGLGGSDADGPDGVEAAAPPPILTSSVEWSTSAERS
AAGQGSSSDEDEEDELDGVFSQSFLPASDSESDIIFDNEDENSKSQNQDEGCNGKNSCHE
SELSVTTEAVHYLYIQMEYCEKSTLRDTIDQGLYQDTNRLWRLFREILDGLAYIHEKGMI
HRDLKPVNIFLDSDDHVKIGDFGLATDHLPFAADGKQDDAAGDHVIKSDPSGHLTGMVGT
ALYVSPEVQGSTKSAYNQKVDLFSLGIIFFEMSYYPMVTASERIFVLNQLRDPTSPKFPE
DFDDGEHTKQKSVISWLLNHDPAQRPTATELLKSELLPPPQMEESELHEVLHHTLANVDG
KAYRTMMAQIFAQRVPPAIDYTYDSDILKGNFSIRIAKMQQHVCETIIRIFKRHGAVQLC
TPLLLPRNRQIYEHNEAALFMDHSGMLVMLPFDLRVPFARYVARNNILNLKRFCIERVFR
PRKLDRFHPKELLECAFDIVTSTTNSSLPTAEVIYTIYEIIQEFPALQERNYSIYLNHTM
LLKAILLHCGIPEDKLSQVYIILYDAVTEKLTRREVEAKFCNLSLSPNSLCRLYKFIEQK
GDLQDLTPTINSLTKQKTGVAQLVKYGLKDLEEVVGLLKKLGIKLQVLINLGLVYKVQQH
SGIIFQFVAFIRRRQRAVSEILAAGGRYDLLIPQFRGPQALGPVPTAIGVSIAIDKISAA
VLNMEEPVSISSCDLLVVSVGQMSMSRAINITQKLWTAGITTEIMYDWSQSQEELQEYCR
HHEITYVALVSDKEGSHVKVKSFEKERQTEKRVLESDLVDHMVQRLRTKVSDERTIREAS
DNIAVQNLKGSFSNASGLFEMHGTAVVPTVTVMAPEKLSASTKRRYETQIQTRLQTSLAN
LHQKSSEVEILAVDLPKETILQCLSLEWDADEQAFDTSVKQLLSRLPKQRQRYLKVVCDE
ICNIKVGKKVSVLFLYGYRDDYYRILF
NT seq
4944 nt
NT seq
+upstream
nt +downstream
nt
atggcggggggtcgtggggctcccggccgcggccgggacgagcctccggacagctacccc
cagcgacaggaccacgagctgcaggccctggaggccatctatggcgccgacttccaggac
ctgcggccggacgcgtgcggaccggttaaagagccccctgaaatcaatttagttctgtac
ccccagggtctggctggtgaagaagtatatgtaaaagtggatttgagggttaaatgccca
ccgacctacccagatgtagtccctgaaatagagttaaaaaatgccaaaggtctgtccaat
gaaagtgttaatttattaaaatcctgcctggatgaagtggccaaaaagcattgtggagag
gtgatgatatttgaactggcttaccacgtgcagtcatttctcaacgaacataacaagccc
cctcccaagtcttttcatgaggaaatgctggaaaggcgggctcaggaggagcagcagagg
ctgttagaggccaagcggaaagaggagcaggagcaacgtgaaatccttcatgagattcag
agaaggaaagaagagatcaaagaagagaaaaaaaggaaagaaatggccaagcaggaacgt
ttggaaattgctagtttttcaaaccaagatcatacctctaggaaggacccaggaggacac
agaactgctgttccacatggaggttctcccgatttcgtaggaaatggtagacatcggacc
aactcctctggaagatctaggcgagagcggcagtattctgtatgtaatagtgaggattct
cctggctcttgtgaaatcctgtatttctctacgggtaatactgatcagctcatggtgcac
aaaggaaaatgtattgcctgcgatgtacagctcggaaaactagtctacaatgctttggaa
acagccactggcagcttcgtcttattgtatgaatgggtccttcagtggcagaaaaatatt
ggtcctttccttaccaatcaagaaaaagaaaagattgataagtgcaaaaaacagattcaa
ggggcagaaacagaattcaactcactggtaaaactgagccatcccaacatagtacgctac
tttgcaatgaatctcagagagcaagacaactccatcgttgtgcacattctggtggagcac
ttcaatggggtctcccttgctgcacacctgagccacacaggccccatccctgtgcacctg
cttcgcaagtacgcagctcagctcttgttgggcctcgattatctgcacagcaactctgtg
gtgcacaaggttctgggtacatcaagcgtcttggtggacgcagagggcaccatcaagatt
acagactacagcatttctaagcgcctcgcagacatttgcaaggaagatgtgtttgagcaa
actcgggttcgttttagtgacagtgctctgccttataagacagggaagaaaggagatgtt
tggcatcttggccttttgctgctctctctcagccaaggacaagaatgtggagagtaccct
gtgaccatccctagtgacttacctgctgactttcaggattttctaaagaaatgtgtttgc
ctggatgacaaggagaggtggagtcctcagcagctgttgaaacacagctttataaaccct
cagccaaaaacacctttactggaacagagtcccgaagattttggaggacaagattacatt
gagactgttattcctagcaaccggctacccagtgctgcattcttcagtgagacacagaga
cagtattcccgctatttcaatgagtttgaagaattacagcttctcggcaaaggagctttt
ggagctgtcatcaaggtgcagaacaagctggacggctgctgctacgccgtgaagcgcatc
cccgtcaacccggccagcaagcacttccgcaggatcaagggcgaggtgacgctgctgtcg
cgcctgcaccatgagaacatcgtgcgctactacaacgcctggatcgagaaacacgagcgg
ccagcggccccgagcacttcgcccgaggactcggggcccgaggcccgggacggccccgcg
gcggcggcccggccggggctgggcggcagcgacgcggacggcccggacggcgtggaggcg
gccgcgccgccgcccatcctcaccagctcggtggagtggagcacgtcggccgagcgctcc
gccgcgggccagggctccagcagcgacgaggacgaggaggatgagctggacggtgtcttc
tcacagtccttcctacctgcttcagactctgaaagtgatatcatctttgacaatgaagat
gagaacagtaaaagccagaatcaggatgaaggctgcaatgggaagaatagttgccatgaa
agtgagttatcggtgaccactgaagctgtgcattacctctacatccagatggagtactgt
gaaaagagcactttacgtgacaccatcgaccagggactgtatcaggacaccaacaggctc
tggaggctttttcgagagattctggatggactggcttacatccatgagaaaggaatgatc
caccgggatttgaagcctgtcaacatttttttggattccgacgatcacgtaaaaataggt
gattttggtttggcgacagaccatctaccctttgctgctgatggcaaacaagatgatgca
gcaggagatcacgtaattaaatcagacccttcaggtcatttgactgggatggttggcact
gctctgtatgtaagcccagaagtccaaggaagcaccaaatctgcgtacaaccagaaagtg
gatctcttcagcctgggaatcatcttcttcgagatgtcctattaccccatggtcacggcc
tcagaaagaatctttgttctcaaccaactcagagatcccacttcgcctaagtttccagaa
gacttcgatgatggagagcatacaaagcagaaatctgtcatctcctggctgctgaaccac
gaccccgcacagcggcccaccgccacagaactgctcaagagcgagctgctgccgccgccg
cagatggaggagtcggagctgcacgaagtactgcaccacacgctggccaacgtggacggg
aaggcctatcgcaccatgatggcccagatcttcgcccagcgtgtcccgcctgccatcgac
tacacctacgacagcgacatactgaagggcaacttttcgatccgtatagccaagatgcag
cagcatgtgtgtgagactatcatccgcatctttaaaagacacggagctgtccagttgtgt
accccactactgcttccccgaaataggcaaatatacgagcacaacgaagccgccttgttc
atggaccacagcgggatgctggtgatgcttcctttcgacctgagggttccttttgcaaga
tacgtggcaagaaataacatactgaatttaaaacggttctgcatagaacgtgtgttcaga
cctcgcaaattagaccgatttcatcccaaagaactcctggaatgtgcgtttgatatcgtc
acctccaccaccaacagctctctgcccactgctgaagtcatctacaccatctacgaaatc
atccaagagttcccagccctgcaggaaagaaattacagtatttacttgaaccataccatg
ttattgaaagcaatactcttacactgtgggatcccagaagataaactcagtcaagtctac
attattctgtatgacgccgtgacagaaaagctgacgaggagagaagtggaagctaaattt
tgcaatctgtctttgtctcctaatagtctgtgtcgactctacaaatttattgagcagaag
ggagatttgcaagatctgacaccaacaataaattcattaacaaaacagaaaacaggcgtt
gcccagctggtgaagtatggcttaaaagatctagaggaggttgttgggctgttgaagaaa
cttggcataaagttacaggttttaatcaatctgggcctggtttacaaggtgcagcagcac
agcggcatcatcttccagtttgtggcgttcatcagacggaggcagagggctgtctctgag
atcctcgcagctggtggcagatatgacctgctgattccccagtttagaggaccacaggct
ctggggccagttcccactgccattggggtgagcatagcgatagacaagatatctgctgct
gtcctcaacatggaagaacctgtttcaataagctcttgtgacctcctggtcgtaagtgtt
ggccagatgtccatgtccagggccatcaacataacccagaaactctggacggcgggaatc
acaacggaaatcatgtatgactggtcacagtcccaagaggaactacaggagtactgccga
catcatgaaatcacctatgtggcccttgtgtcagataaagaaggaagccatgtcaaggtt
aagtcttttgagaaggaaaggcaaacagagaaacgtgtgctggagtctgaccttgtggat
cacatggtgcagagactgaggactaaagtcagtgatgaaaggactatcagagaagcttct
gataatatcgcagtacaaaatctgaaggggtcattttctaatgcttcaggtctgtttgaa
atgcatggaacagccgtcgtccccactgtgactgtgatggccccggagaagctgtccgcc
agcaccaagcggcggtatgaaactcagatacaaacccgacttcagacctcccttgccaac
ttacatcagaaaagcagtgaagttgaaattttggctgtggatctacccaaagaaaccatc
ttacagtgtttatcattagagtgggatgctgatgaacaggcctttgacacaagtgtgaag
cagctgctgtcacgcctgccaaagcaaagacaaagatacctgaaagtagtctgtgatgaa
atctgtaacatcaaagtaggaaaaaaggtgtccgtgctattcctatatggctacagagat
gactactaccgaatcttattttaa
DBGET
integrated database retrieval system