Entry |
|
Symbol |
anpeplb
|
Name |
(RefSeq) alanyl (membrane) aminopeptidase-like b
|
KO |
|
Organism |
astr Antennarius striatus (striated frogfish)
|
Pathway |
|
Brite |
KEGG Orthology (KO) [BR:astr00001]
09100 Metabolism
09106 Metabolism of other amino acids
00480 Glutathione metabolism
137594426 (anpeplb)
09180 Brite Hierarchies
09181 Protein families: metabolism
01002 Peptidases and inhibitors [BR:astr01002]
137594426 (anpeplb)
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:astr04131]
137594426 (anpeplb)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:astr04147]
137594426 (anpeplb)
04090 CD molecules [BR:astr04090]
137594426 (anpeplb)
Enzymes [BR:astr01000]
3. Hydrolases
3.4 Acting on peptide bonds (peptidases)
3.4.11 Aminopeptidases
3.4.11.2 membrane alanyl aminopeptidase
137594426 (anpeplb)
Peptidases and inhibitors [BR:astr01002]
Metallo peptidases
Family M1
137594426 (anpeplb)
Membrane trafficking [BR:astr04131]
Endoplasmic reticulum (ER) - Golgi transport
Forward pathways
ER-Golgi intermediate compartment (ERGIC) proteins
137594426 (anpeplb)
Exosome [BR:astr04147]
Exosomal proteins
Exosomal proteins of microglial cells
137594426 (anpeplb)
CD molecules [BR:astr04090]
Proteins
137594426 (anpeplb)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
4:complement(5317878..5336560)
|
AA seq |
945 aa
MAKDSLISKTLATAFIILTLSAIGGIITMIILYEEEISTQNPTPRPTIGTTTTGPPPVMR
LPKTLIPHSYKVFLQPHLYTRIIEVENVTSPNQTMSFSGNSTVYFDCVESTQTIYLHSLD
LTLTGEAAVRNTLTDDRINVLKVIHQKDQSNFLEIQLEKALEAGETHSLFLAFTGQIYMV
DALYASTYQEGDRASEGDTNTLRYLAATNMEPTHARKLFPCFDEPEMKAVFNVTIIHRRN
TVALGNEKMLVTNIIDDEWQYTTFNPTPKMSTYLFAFTVSEFTTSASSPHERVEIKTYAR
PEAMEAGHADFAASITGKILTFLEDYLGSDYQLRSLDQIALPDLPPAAMENWGMVTYQER
ALLYEEGVSSPLQKRMIATIIAHELSHQWFGNLVTMKWWNQIWLNEGFATYMSYITVDHV
APSLQVTVLGLVNELHRAFEEDSLVSSHPLSVPEEEIQTYDDIIQLFDDITYLKGALVVR
MLHDFVGDRIFRNGIKTYLSDFKYKNVEQNDLWKSIQKAVDEDAGHIDVAKVMSTWTEQT
GFPIITINTTNGEICQKQFLFNDSVESSNWWYVPIRVMSNISEPSIILLTSKDPVKKNEL
ISKKGEWILANVNCTGYFKVNYNLENWERLLTQMETDLNRIPLFNRGQLIDDAFNLARAK
SVDVTLALNSTRFLRSETEYLPWESAMKNLKYFVQMFDRTEVYGPMQAYLRQQVTVLYNS
LRNYTDKSEIPEDHALQSLQVLAVEVACRAGLPECIEMASKWFSIWMNNGTNFIHPNLRY
SVYCHAVAAGGRVEWEFMWNKFLNSSNFSEKHQLLYGLSCTNKIWLLNRYLEYTLDPEKI
RPLETDTTINYIAKNVAGQALAWNFLRAHWDYFRHFGGPSMIQGVTGRFSKQFELEELER
FASDYGLGGSASAVTRAIEQTKVNIEWVNEYKDTILEWFERETSS |
NT seq |
2838 nt +upstreamnt +downstreamnt
atggccaaagattccctcatatccaagactctcgccacggcctttatcatcctcaccctc
tctgccatcggcggtattatcaccatgattattttgtatgaagaagagatctctacacag
aacccaacgccccgtccgaccatcgggaccaccaccactggaccgccaccggtcatgagg
ctgccgaagactctcatccctcacagctacaaggtcttcctgcagcctcacctgtacacc
cgaatcatcgaggtggaaaatgtcaccagtcccaaccagacgatgtctttctccgggaac
tccaccgtctacttcgactgcgtcgagtcaacacaaacaatctatctccacagcttggat
ctgacacttaccggagaagcagccgtgaggaacactttaactgatgacaggattaatgtt
ctcaaagtgatccaccaaaaggaccaaagtaacttcctggagattcagttggaaaaggct
ttggaggcaggtgaaacgcacagtttatttctggctttcacaggacaaatttacatggtc
gatgctctatatgcaagcacctaccaagaaggtgatcgagcgagtgaaggtgataccaac
acactgagatacctagctgcaaccaatatggaaccaacacatgccaggaaattgtttcca
tgttttgatgagccagaaatgaaggctgtgtttaatgtcaccatcatccacagacgaaac
acagtagctctaggaaatgagaagatgttagttaccaacataatcgatgatgagtggcag
tacactaccttcaatcccacgccgaagatgtccacctacttattcgctttcaccgtgtca
gagttcacaacatcagcatcttcccctcatgagcgtgtggaaattaaaacgtatgctcgt
cctgaggcgatggaagcaggacatgctgactttgcagccagcatcacagggaagattctt
acattcttggaggattacttgggaagtgattaccaactgagatcactggatcaaattgcg
ctgccagacttacctcctgcagccatggagaactgggggatggtcacctaccaggaacga
gctctactttatgaggaaggagtttcctcaccactgcagaagcgaatgatcgccaccatc
attgcacatgaactgtcacaccagtggtttggaaatttggtgacaatgaaatggtggaac
cagatctggctgaacgagggcttcgccacatacatgtcatacatcacagtggaccacgtt
gctccatcacttcaagtgacagtgttaggattagttaatgaactgcaccgagcatttgaa
gaagattctctggtttcatcccatcctctgagtgttccagaggaagaaatccagacgtac
gatgacatcattcagttgtttgatgatataacctacctaaagggggcgctggtggtgaga
atgctgcatgactttgtgggtgacaggattttccggaacgggatcaaaacgtacctttca
gattttaaatataaaaatgttgagcaaaacgacctctggaaatcaatacaaaaggctgtt
gatgaggatgctggtcacatcgacgttgccaaggtgatgagcacctggacggaacaaact
ggctttcctatcatcaccatcaacacgaccaatggcgaaatatgtcagaaacaattccta
ttcaatgactctgttgaatctagtaattggtggtacgttccaatcagagtcatgtcgaat
atatctgagccgtctataatcttgttgacatccaaggacccagtaaagaaaaatgaatta
atttccaagaaaggagaatggatcctagcaaatgtcaactgcactggatacttcaaagta
aattataacctggagaactgggagcgcctcctgacacaaatggagaccgatctaaaccgg
atcccactgtttaacagagggcagcttattgatgatgcatttaacttggcaagggccaaa
agtgttgatgtgactctggctctgaattcaacccgtttcctccgaagtgagacagaatac
cttccatgggaatcagcaatgaagaacttgaagtactttgtccagatgtttgaccgcact
gaggtgtatggacccatgcaggcatacctcaggcagcaggttacggtcctgtacaactcc
ttgaggaactacacagacaagtcagaaatcccagaagaccacgctctacagagtctccag
gtccttgcagtggaggtagcatgtcgcgctggacttccagaatgcattgagatggcctca
aagtggttttccatctggatgaacaacggcactaacttcattcaccccaacctgcggtat
tccgtctactgccacgctgtggctgctggcgggagagtggagtgggagtttatgtggaac
aagtttttgaacagcagtaacttttcagagaagcaccagctcctatatggtctgtcgtgc
accaacaagatctggctgctcaacagatacctggagtacactttggaccctgagaagata
cgtccgttggaaaccgacaccaccattaactacatagccaagaatgtggcggggcaagca
ctggcttggaactttctccgagcacactgggactacttcagacattttggtggaccaagt
atgatccaaggagtgaccggcaggttctccaaacagtttgaactggaggagctggaacga
ttcgcatcggactacgggctaggtggttctgccagtgcggtgactcgggccattgagcaa
accaaggtcaacatcgagtgggtcaacgagtacaaagacactatcctggagtggtttgag
agggaaacatcttcgtag |