| Entry |
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| Symbol |
V865_003890
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| Name |
(RefSeq) glycine dehydrogenase
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| KO |
| K00281 | glycine cleavage system P protein (glycine dehydrogenase) [EC:1.4.4.2] |
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| Organism |
ker Kwoniella europaea
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| Pathway |
| ker00260 | Glycine, serine and threonine metabolism |
| ker00630 | Glyoxylate and dicarboxylate metabolism |
| ker01110 | Biosynthesis of secondary metabolites |
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| Module |
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| Brite |
KEGG Orthology (KO) [BR:ker00001]
09100 Metabolism
09101 Carbohydrate metabolism
00630 Glyoxylate and dicarboxylate metabolism
91102692 (V865_003890)
09105 Amino acid metabolism
00260 Glycine, serine and threonine metabolism
91102692 (V865_003890)
09108 Metabolism of cofactors and vitamins
00785 Lipoic acid metabolism
91102692 (V865_003890)
00670 One carbon pool by folate
91102692 (V865_003890)
Enzymes [BR:ker01000]
1. Oxidoreductases
1.4 Acting on the CH-NH2 group of donors
1.4.4 With a disulfide as acceptor
1.4.4.2 glycine dehydrogenase (aminomethyl-transferring)
91102692 (V865_003890)
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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 |
1:complement(join(10225942..10225997,10226069..10226286,10226349..10226830,10226890..10226969,10227032..10228101,10228156..10228207,10228262..10228399,10228463..10229012,10229086..10229125,10229184..10229644))
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| AA seq |
1048 aa
MSIHVVRRAAVGRQLLARPVSLSSRSISSSSYLLRPHPTTPAHSSTTAVQPHPHPPSTSF
HPSKSSIFTPLDTFLPRHLGPRQSDVESMLSTLGYKSMDAFIDDTIPKGIRVDALTDKEG
DKTGIRPFSELELARRVEEVASLNKPMKSYIGMGYHNAIVPPVIQRNVLENPAWYTAYTP
YSPEQSQGRLESLINFQTVTISLTGLPIANASLLDEATAAGEAMAMCLASVPKNKLSKGK
KVFLVSPSVAPQTIAVLQTRASGFGIDLRVAKSNESFISEVEELGEEKLMGALVQYPDVN
GNIGDWQEVASKVKSTGAKMVVASDLLALTMLKPPGEWGADIVCGNSQRFGVPVGYGGPH
AAFFACTDDLKRKMPGRLVGLSKDSRGGPAYRLALQTREQHIRREKATSNVCTAQALLAN
MTAMYAVYHGPEGLRKIAGKVHSLTRILSESLASLGFTTVNKTYFDTLTIDVSSAGVTAA
QVHEESVKASINFRPIDDKTIGITLDESVGPLDLTDIVNVFYRVKGQKGIEPEHLEQLAS
KLELSSESVTSPIAQHARTSEFLTQPVFNKHHSETHMLRYMMHLQEKDYSLVHGMIPLGS
CTMKLNSTSSMAPLSWKEFGGIHPFAPVDQVKGYEVLIKELEDDLSLVTGYDATSVQPNS
GASGEYAGLKVIQAYHKSKGEGHRDVCLIPLSAHGTNPASAAMVGYKVVPIKALSDGSLD
LADLKEKAEKHKDNLASFMVTYPSTFGVFEEGIEEACQIVHDNGGQVYVDGANCNSLVGL
TSLGRVGGDVSHTNLHKTFSIPHGGGGPGVGPISCKSHLSPFLPTHPLVATGGSQAIPAV
SAAPYGSASINTISWAYIKMLGGEGLTEVSKIALLNANYIAERLRPYYNVRFSNKNGRVA
HECLVDLGEFEKSAGLKVSDFSKRLQDYSFHPPTAQWPISTCWLIEPTESESKAELDRFI
DALISIRKEVDEIVSGEQSKENNVFKNAPHPLSILIDDKWDKPYFREKAVFPVPSLKKNK
FWPSVGRVDDAAGDLNLICECGSVEEYA |
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| NT seq |
3147 nt +upstreamnt +downstreamnt
atgtctattcacgttgtaagacgagcagccgtagggcgccaattactggctagacccgtg
tccttgtcatcacgttcaatctcctcatcctcttatctccttagacctcatcccaccact
ccagcacactcctctacaacggctgtccagccccatcctcatcctccatcgacttcattc
cacccatccaaatcatcaatcttcactcccctcgataccttccttccgcgtcatctcggt
cctcgtcaatccgatgtcgaatcaatgctctctaccctcgggtataagtccatggacgca
ttcatagatgacaccatccccaaggggatcagagtcgacgccctaaccgataaggaaggc
gataagactggtatcagacctttcagcgaactggaattggcaagaagagtagaggaagta
gctagtctcaataagcccatgaagagttatatcggcatgggatatcacaatgctatcgtt
cctcctgtcatccaacgaaatgtccttgaaaacccagcatggtacactgcctacacaccc
tattctcctgaacaatcccaaggccgtctcgaatcactcatcaattttcaaaccgtcact
atctcccttaccggtctccccatcgccaacgcatccttgttggacgaagctaccgccgca
ggagaagcgatggccatgtgtttagcatcagtacctaaaaacaaattatcaaagggcaaa
aaagtgttccttgtatctccatcggtcgcgcctcagactatcgccgtcttgcagactaga
gcaagtggatttggtatcgatctgagagttgccaagtccaacgagtccttcatctcagaa
gttgaggagttgggcgaagagaaacttatgggagctttggtacaatacccagacgttaat
ggaaatatcggagattggcaggaagtagcttcaaaagtgaaaagtacaggtgcaaagatg
gtagtcgcttctgatttgttggctttgactatgcttaaaccccctggagaatggggtgcg
gatatcgtctgtggtaactctcaaagatttggtgtacccgtcggttacggtggacctcac
gccgctttctttgcttgtaccgatgacttgaagaggaagatgccaggaagattagttggt
ctgagtaaagattccagaggtggacctgcgtaccgattggctttacagactcgagaacag
catatccgaagggagaaagctacctccaatgtctgcactgcccaagctcttctcgccaac
atgactgccatgtatgccgtctaccacggtccagaaggtctcaggaagatcgctggaaag
gtccactccctcactcgaatcctttctgagtccctcgcttctctcggtttcaccactgtc
aacaagacttatttcgataccctcactattgatgtttcttctgccggtgtcaccgctgct
caagtacatgaagagtcagtcaaagcttcgatcaacttccgacctatcgacgacaagact
atcggtatcactctagatgaaagtgttggtcccctcgatctcactgacatcgtcaacgtc
ttctaccgagttaagggacaaaagggtatcgaacctgaacacctcgaacaattagcttcc
aaattagagttgtcgtctgaatctgtcacctctccaatcgctcagcatgcccgaacttca
gaattcctcactcaaccagtcttcaacaaacaccactctgaaactcacatgctcagatat
atgatgcatttgcaggagaaagattactccttggtacatggtatgatcccattgggatct
tgtacaatgaagttgaactctacttcttcgatggcgcctttatcatggaaagagttcggt
ggtatccacccattcgctcccgtagaccaagtcaagggatacgaggtgttgatcaaagag
ttagaagatgatttatcgttggtcacaggatacgacgctacctccgtgcaacccaactca
ggtgcatcaggtgaatatgccggtcttaaagtgattcaggcataccacaaatccaaaggt
gaaggtcacagggatgtctgtcttattcccctctcagctcacggtacaaatcccgcctcg
gccgcgatggtaggatacaaagtcgtacctatcaaagctttgagcgacggttcgctcgac
ttggcggatttgaaagagaaggcggagaagcataaagataacctcgcttcattcatggtc
acttacccatctactttcggtgtgttcgaagaaggcatcgaagaagcttgtcagatcgtt
catgacaatggtggtcaagtctatgtggatggtgccaactgtaactcccttgtcgggttg
acttccctcggtcgagtaggtggtgatgtcagtcataccaacttgcacaagactttctca
atccctcatggtggaggtggaccaggtgtcggcccaatctcatgtaaatcgcatctctcc
cctttcctccctacccaccctctcgtagctactggtggttcacaagccattccagccgta
tcagccgcaccatacggttcagcatccattaataccatctcttgggcatacatcaagatg
ctgggtggagaaggtttgacggaagtttccaagatcgctttattgaatgcaaactacatc
gccgaacgtctcagaccatactacaacgttaggttctccaacaaaaacggtagagtcgca
catgaatgtctggtcgatttgggtgaatttgaaaaatcggctggattaaaagtatccgat
ttctccaagagattacaagattattctttccatcctcctactgctcaatggccaatttca
acttgttggttgatcgaacctaccgaaagtgaatctaaagctgaacttgatcgatttatc
gacgcgttgatttcaattcgaaaagaagtagacgaaattgtttcaggcgaacaatcaaag
gagaacaacgtgttcaagaacgctcctcacccattgagtatactgattgatgataaatgg
gacaaaccatatttcagagaaaaggctgttttccccgtaccttccttgaagaagaacaag
ttctggccatcggtaggaagagttgatgatgccgctggtgacctcaacttgatctgtgaa
tgtggttcagtcgaagaatacgcataa |
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