| Entry |
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| Name |
(RefSeq) hexokinase type 2 isoform X1
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| KO |
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| Organism |
atra Amyelois transitella (navel orangeworm)
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| Pathway |
| atra00520 | Amino sugar and nucleotide sugar metabolism |
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| Module |
| atra_M00001 | Glycolysis (Embden-Meyerhof pathway), glucose => pyruvate |
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| Brite |
KEGG Orthology (KO) [BR:atra00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
106136177
00051 Fructose and mannose metabolism
106136177
00052 Galactose metabolism
106136177
00500 Starch and sucrose metabolism
106136177
09107 Glycan biosynthesis and metabolism
00520 Amino sugar and nucleotide sugar metabolism
106136177
09110 Biosynthesis of other secondary metabolites
00524 Neomycin, kanamycin and gentamicin biosynthesis
106136177
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:atra04131]
106136177
Enzymes [BR:atra01000]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.1 hexokinase
106136177
Membrane trafficking [BR:atra04131]
Autophagy
Mitophagy
Other mitophagy associated proteins
106136177
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
8:complement(join(6541647..6541736,6543721..6543947,6546420..6546625,6547964..6548153,6548884..6548983,6550028..6550201,6550285..6550466,6550562..6550724,6551142..6551171))
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| AA seq |
453 aa
MGMAINNLPLIREECEILHMTDKQLREIMTRLHNDLVKGLSKDTHPTATVKCWLTYIQDL
PNGKERGKFLALDLGGTNFRVLIINLGENHFDMQSKIYAIPNHIMTGTGIALFDHIAECL
ANFMKEHNVYEERLALGFTFSFPLKQMGLTKGILQRWTKGFSCSGAIGEDVVQGLKDAIA
RRGDVQIDICAILNDTTGTLMSCAWKNHNCKIGLIVGTGSNACYVEKTGQCELFEGDMSK
SDMLINTEWGAFGDDGALDFVRTEFDREVDSNSINPGKQIQEKMISGMYMGELVRLALVK
FTRMGLLFGGRGSDLLFQRNSFYTKYVSEIESDKPGDFTSCMDVLEELGLSHATEADMAA
VRHVCECVSRRAAHLVSAGIATLLNKMNEPRVTVGIDGSVYRFHPHFHTLMCEKIAQLVQ
PGISFDLMLSEDGSGRGAALVAAVACRESLGCA |
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| NT seq |
1362 nt +upstreamnt +downstreamnt
atgggtatggctatcaataatttgcctttgattcgcgaagaatgcgaaatactacatatg
acagacaagcagctcagagaaattatgactagactacataacgatctagtaaaaggactt
agtaaagatactcatcctacggcgactgtaaaatgttggttaacttacatacaagacttg
ccaaatggaaaagaacgtggaaaattcctcgcattagatctagggggcacaaacttcaga
gttcttataataaacttgggagaaaatcatttcgatatgcagtcgaaaatttatgccata
cctaatcacatcatgaccggaacaggcatcgctttatttgatcatatagcagagtgctta
gctaatttcatgaaggaacataatgtatatgaagaaaggttggctcttggattcactttt
agttttcctctaaaacaaatgggtctcacgaaaggaatcctgcaacgttggaccaaaggc
ttctcatgcagcggcgctattggagaagacgttgttcaaggattaaaagatgctattgca
aggagaggagatgtacagattgacatttgcgctattctcaatgacacgacgggaactcta
atgtcctgcgcgtggaaaaaccacaactgcaaaataggactcatcgttggtactggaagc
aacgcctgctacgtggagaagacaggccagtgcgaattgtttgaaggcgacatgtccaag
tcggatatgctgatcaacacggaatggggcgcttttggagacgacggtgctctagacttc
gtaagaaccgagttcgatagggaggtcgactccaactccatcaaccctggaaaacagatc
caagaaaaaatgatatcaggaatgtacatgggggagttggtacgactggcgctggtcaaa
ttcaccaggatgggtttgctcttcgggggacgagggtccgaccttctgttccagaggaac
agcttctacaccaaatatgtatctgagatcgagtccgacaaacccggagactttaccagc
tgtatggatgtactggaggaactcgggttatcacacgcgacggaggcggacatggccgcg
gtgcgacacgtgtgcgagtgcgtgtcgcgtcgcgccgctcacttggtgtcggccggaatc
gccaccctgctcaacaagatgaacgaacctagagtcaccgtaggcattgatggctctgtc
taccgcttccacccacatttccacacgctcatgtgcgaaaagatagcgcagttggtccaa
cctggtatttcatttgatctgatgctgtcagaagacggcagcgggcgtggcgccgcgctg
gtagcggcggtggcttgtcgcgagagcctaggatgcgcgtag |
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