| Entry |
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| Name |
(RefSeq) hexokinase-1 isoform X1
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| KO |
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| Organism |
mthb Macaca thibetana thibetana (Pere David's macaque)
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| Pathway |
| mthb00520 | Amino sugar and nucleotide sugar metabolism |
| mthb00524 | Neomycin, kanamycin and gentamicin biosynthesis |
| mthb04973 | Carbohydrate digestion and absorption |
| mthb05230 | Central carbon metabolism in cancer |
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| Module |
| mthb_M00001 | Glycolysis (Embden-Meyerhof pathway), glucose => pyruvate |
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| Brite |
KEGG Orthology (KO) [BR:mthb00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
126963159
00051 Fructose and mannose metabolism
126963159
00052 Galactose metabolism
126963159
00500 Starch and sucrose metabolism
126963159
09107 Glycan biosynthesis and metabolism
00520 Amino sugar and nucleotide sugar metabolism
126963159
09110 Biosynthesis of other secondary metabolites
00524 Neomycin, kanamycin and gentamicin biosynthesis
126963159
09130 Environmental Information Processing
09132 Signal transduction
04066 HIF-1 signaling pathway
126963159
09150 Organismal Systems
09152 Endocrine system
04910 Insulin signaling pathway
126963159
09154 Digestive system
04973 Carbohydrate digestion and absorption
126963159
09160 Human Diseases
09161 Cancer: overview
05230 Central carbon metabolism in cancer
126963159
09167 Endocrine and metabolic disease
04930 Type II diabetes mellitus
126963159
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:mthb04131]
126963159
Enzymes [BR:mthb01000]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.1 hexokinase
126963159
Membrane trafficking [BR:mthb04131]
Autophagy
Mitophagy
Other mitophagy associated proteins
126963159
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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 |
9:complement(64077192..64208300)
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| AA seq |
921 aa
MGQICQRESATAAKKLKSHPLDESEIDKYLYAMRLSDETLIDIMTRFKKEMKNGLSRDFN
PTATVKMLPTFVRSIPDGSEKGDFIALDLGGSSFRILRVQVNHEKNQNVRMESEVYDTPE
NIVHGSGSQLFDHVAECLGDFMEKRKIKDKKLPVGFTFSFPCQQSKIDEAILITWTKRFK
ASGVEGADVVKLLNKAIKKRGDYDANIVAVVNDTVGTMMTCGYDDQQCEVGLIIGTGTNA
CYMEELRHIDLVEGDEGRMCINTEWGAFGDDGSLEDIRTEFDREIDRGSLNPGKQLFEKM
VSGMYLGELVRLILVKMAKEGLLFEGRITPELLTRGKFNTSDVSAIEKNKEGLHNAKEIL
TRLGVEPSDDDCVSVQHVCTIVSFRSANLVAATLGAILNRLRDNKGTPRLRTTVGVDGSL
YKTHPQYSRRFHKTLRRLVPDSDVRFLLSESGSGKGAAMVTAVAYRLAEQHRQIEETLAH
FHLTKDMLLEVKKRMRAEMELGLKKQTHNNAVVKMLPSFVRSTPDGTENGDFLALDLGGT
NFRVLLVKIRSGKKRTVEMHNKIYAIPIEIMQGTGEELFDHIVSCISDFLDYMGIKGPRM
PLGFTFSFPCQQTSLDAGILITWTKGFKATDCVGHDVATLLRDAIKRREEFDLDVVAVVN
DTVGTMMTCAYEEPTCEVGLIVGTGSNACYMEEMKNVEMVEGDRGLMCINMEWGAFGDNG
RLDDIRTQYDRLVDEYSLNAGKQRYEKMISGMYLGEIVRNILIDFTKKGFLFRGQISEPL
KTRGIFETKFLSQIESDRLALLQVRAILQQLGLNSTCDDSILVKTVCGVVSRRAAQLCGA
GMAAVVDKIRENRGLDRLNVTVGVDGTLYKLHPHFSRIMHQTVKELSPKCNVSFLLSEDG
SGKGAALITAVGVRLRTEASS |
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| NT seq |
2766 nt +upstreamnt +downstreamnt
atggggcagatctgccagcgagaatcggctacagcagctaaaaaactaaaatctcatcca
cttgatgaaagtgagattgacaagtatctctatgccatgcggctgtccgatgaaactctc
atagatatcatgactcgcttcaagaaggaaatgaagaatggcctctcccgggattttaat
ccaacagccacagtcaagatgttgccaacattcgtaagatccattcccgatggctctgaa
aagggagatttcattgccctggatcttggtgggtcttcctttcgaattctgcgggtgcaa
gtgaatcatgagaaaaaccagaatgttcgcatggagtccgaggtttatgacaccccagag
aacatcgtgcacggcagtggaagccagctttttgatcatgttgctgagtgcctgggagat
ttcatggagaaaaggaagatcaaggacaaaaagttacctgtgggattcacattttctttt
ccttgccaacaatccaaaatagatgaggccatcctgatcacctggacaaagcgatttaaa
gcaagtggagtggaaggagcggatgtggtcaagctgcttaacaaagccatcaaaaagcga
ggggactatgatgccaacatcgtagctgtggtgaatgacacagtgggcaccatgatgacc
tgtggctatgacgaccagcagtgtgaagttggcctgatcatcggtactggcaccaatgct
tgctacatggaggaactgaggcacattgatctggtggaaggagacgaggggaggatgtgt
atcaacacagaatggggagcctttggagatgatggatcattagaagacatccggacagag
tttgaccgggagattgaccggggatccctcaaccctggaaaacagctgtttgagaagatg
gtcagtggcatgtacttgggagagctggttcgactgatcctggtcaagatggccaaggag
ggcctcttgtttgaagggcggatcaccccggagctgctcaccagagggaagtttaacacc
agtgatgtgtcagccattgaaaagaataaggaaggcctccacaatgccaaagaaatcctg
acccgcctgggagtggagccgtccgatgatgactgtgtctcggtccagcacgtttgcaca
attgtctcgtttcgctcagccaacctggtagctgctacactgggcgccatcttgaaccgc
ctgcgtgataacaagggcacacccaggctgcggaccacggttggtgtcgacggatctctt
tacaagacgcacccacagtattcccggcgtttccacaagactctgaggcgcttggtgccg
gactccgatgtgcgtttcctcctctcggagagtggcagcggcaagggggctgccatggtg
acagcggtggcctaccgcttggccgagcagcaccggcaaatagaggagaccctggctcat
ttccacctcaccaaggacatgctgctggaggtgaagaagaggatgcgggccgagatggag
ctggggctgaagaagcagacgcacaacaatgccgtggttaagatgctgccctccttcgtc
cggagtacccctgacgggaccgagaatggtgacttcttggccctggatcttggaggaacc
aatttccgtgtgctgctggtgaaaatccgtagtgggaaaaagagaacggtggaaatgcac
aacaagatctacgccattcctattgaaatcatgcagggcactggggaagagctgtttgat
cacattgtctcctgcatctctgacttcctggactacatggggatcaaaggccctaggatg
cctctgggcttcacgttctcatttccctgccagcagacgagtctggacgcgggaatcttg
atcacgtggacaaagggttttaaggcaacagactgcgtgggccatgatgtagccacctta
ctaagggatgcgataaaaaggagagaggaatttgacctggacgtggtggctgtggtcaac
gacacagtgggcaccatgatgacctgtgcttatgaggagcccacctgtgaggtcggactc
attgttgggactggcagcaatgcctgctacatggaggagatgaagaatgtggagatggtg
gagggagaccgggggctgatgtgcatcaacatggagtggggggcctttggggacaatggg
cgtctggatgatatcaggacacagtacgacagactggtggatgaatattccctaaatgcc
gggaaacaaaggtatgagaagatgatcagtggtatgtacctgggtgaaatcgtccgcaac
atcttaattgacttcaccaagaagggattcctcttccgagggcagatctcagagccgctg
aagacccggggcatctttgagaccaagtttctctctcagatcgaaagtgaccgattagca
ctgctccaggtccgggccatcctccagcagctgggtctgaatagcacctgtgatgacagt
atcctcgtcaagaccgtgtgtggggtggtgtccaggagggccgcgcagctgtgtggcgca
ggcatggctgcggtggtggataagatccgagagaacagaggactggaccgtctgaacgtg
actgtgggagtggacgggacgctctacaagcttcatccgcacttctccagaatcatgcac
cagacggtgaaggaactatcaccaaaatgtaacgtgtccttcctcctgtctgaggatggc
agcggcaagggagccgccctcatcacggccgtgggcgtgcggttacgcacagaggcaagc
agctaa |
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