Entry
Symbol
glsb
Name
(RefSeq) glutaminase kidney isoform, mitochondrial isoform X1
KO
Organism
cery Chanodichthys erythropterus (predatory carp)
Pathway
cery00250 Alanine, aspartate and glutamate metabolism
Brite
Enzymes [BR:cery01000 ]
3. Hydrolases
3.5 Acting on carbon-nitrogen bonds, other than peptide bonds
3.5.1 In linear amides
3.5.1.2 glutaminase
137036355 (glsb)
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Other DBs
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Position
14:21608182..21663153
Genome browser
AA seq
634 aa AA seq DB search
MLQFRASIVLKELIQTSPKRSFSDIIRHKKTLSNAYCFSAAYRDGRISKLKIHGRPFIQP
LAGRRFLCTKTDGAIEPTEQEKKDETVQEATADKRRKAGILPSLEDLLFYSIAEGQERIP
AHKFITALKATGLRTGDPRLKECMDMLKVTLKSTTDGVMLDRHLFKKCVQSNIVLLTQAF
RKKFVIPDFQTFASNIDTLYEKGRKLSGGLVADYIPQLAKFSPDLWAVSLCTVDGQRHTV
GDTKVPFCLQSCVKPLKYAIAVHDHGTEYVHQFIGKEPSGLRFNKLFLDEDDKPHNPMVN
AGAIVCTSLIKHGAGNAEKFDYVMNFLKKMAGNEYVGFSNATFQSERESGDRNFAIGYYL
KEKKCFPDGTDMTAVLDLYFQLCSIEVTCESASVMAATLANGGFCPITGERVLSPESVRN
TLSLMHSCGMYDFSGQFAFHVGLPAKSGVAGGILLVVPNVMGIMCWSPPLDKLGNSVRGI
QFCTDLVSLFNFHNYDNLRHFAKKLDPRREGGDQRVKSVINLLFAAYTGDVSALRRFALS
SMDMEQRDYDSRTALHVAAAEGHVEVVRFLLEACKVNPGPKDRWGNTPIDEATHFGHHEV
LGLLQEYSSKYNPAVNPDADKETTEKNLDGMLET
NT seq
1905 nt NT seq +upstream nt +downstream nt
atgttacagtttagggcttcaattgtgctgaaggagttgattcaaaccagccctaagcgt
tcgttctctgacattataaggcacaaaaagactttatcaaacgcgtactgcttcagcgct
gcttatcgggatggcagaatatctaaattaaagattcatggaagacctttcattcagcct
ttagctgggagaagatttctatgtacaaagaccgatggtgcgattgaacccactgagcaa
gagaagaaagatgagaccgtccaggaagcgacggcagataagagaaggaaggctggcatt
ctgcccagcttggaggacctgctgttttacagtattgccgaaggccaggagaggatccca
gctcacaaattcattaccgcactgaaggccactggacttcgaacgggagatccacggctg
aaagaatgtatggacatgttgaaagtaactctcaaatccacgacagatggcgtaatgctg
gaccgacatttgttcaaaaagtgtgtccagagcaacattgttctcctaacccaggccttc
cggaagaagtttgtcatccctgatttccagactttcgcctcaaacatcgatacactttat
gagaaagggcgcaaactttccgggggtttggttgctgactacattccccaacttgccaaa
ttcagccctgatctgtgggccgtttccctttgcacagtggatggtcaaagacacacagtg
ggtgacactaaagtgccattttgcctgcagtcgtgcgtgaagccgctcaagtacgctatt
gcggtgcacgaccacggcactgaatatgtgcaccagttcattgggaaagagccaagtgga
ttacgcttcaacaagctcttcctggatgaggacgataaaccccataacccaatggtgaat
gctggtgcaatcgtgtgtacctctcttattaagcatggagcaggcaatgctgagaagttt
gattatgtaatgaacttcttgaagaagatggcaggaaatgaatatgttggtttcagcaat
gccacattccagtcggagcgtgagtcaggagacaggaatttcgctattggctactacctg
aaagaaaagaagtgctttccagatggtacagacatgactgctgttctagacttatacttt
cagctgtgctccatcgaggtaacgtgtgagagtgctagcgtcatggctgccacgctagcc
aacggcggcttctgtccaatcacaggcgagcgtgtgctgagccctgagtccgtgcgaaac
accctcagcctcatgcactcctgtggcatgtatgacttctccggacagttcgccttccat
gtgggtcttcctgccaagtcaggtgtggctggaggtattctgctggttgtgcccaatgtg
atgggcattatgtgctggtctccaccgttggacaaacttggaaacagtgtccggggcatc
cagttctgcacggatctggtgtcattgttcaattttcacaactatgacaacctgaggcac
ttcgccaagaagcttgatcctcgccgagagggaggggaccagcgggtgaaatctgtcatc
aacctcctctttgctgcctatacaggagatgtgtctgctctgagaaggtttgcactgtcc
tccatggacatggagcagcgggactatgactccaggacggcgctgcatgtagcagccgct
gagggacatgttgaagttgtgcgttttctgctagaggcctgcaaggtgaatcctggtccc
aaggacaggtggggcaacacaccaattgatgaggcgacgcattttggtcatcatgaggtg
ctcgggcttctacaggagtacagcagcaagtacaacccagcggtgaatcctgacgcagat
aaagagaccactgaaaaaaacctggatgggatgctggagacgtaa