Entry |
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Name |
(RefSeq) bifunctional riboflavin biosynthesis protein RIBA 1, chloroplastic isoform X1
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KO |
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Organism |
cit Citrus sinensis (Valencia orange)
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Pathway |
cit01110 | Biosynthesis of secondary metabolites |
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Module |
cit_M00125 | Riboflavin biosynthesis, plants and bacteria, GTP => riboflavin/FMN/FAD |
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Brite |
KEGG Orthology (KO) [BR:cit00001]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00740 Riboflavin metabolism
102626341
00790 Folate biosynthesis
102626341
Enzymes [BR:cit01000]
3. Hydrolases
3.5 Acting on carbon-nitrogen bonds, other than peptide bonds
3.5.4 In cyclic amidines
3.5.4.25 GTP cyclohydrolase II
102626341
4. Lyases
4.1 Carbon-carbon lyases
4.1.99 Other carbon-carbon lyases
4.1.99.12 3,4-dihydroxy-2-butanone-4-phosphate synthase
102626341
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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 |
7:complement(join(5727117..5727386,5727970..5728266,5729193..5729322,5730365..5730687,5731424..5731645,5731721..5732030,5732213..5732268))
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AA seq |
535 aa
MSTSNLYCSSMALLVREPQGGSCLHFVKPFSADGCLSIRNVGRIKTAALVSGEGDVISYP
NNNKKSTAIETQSDTIGFGTLGAEITPKTSDFFPNDDEFDLDRPTEGFASISEAIEDIRQ
GKLVIVVDDEDRENEGDLIMAASLVTPEAMAFIVRHGTGIVCVSMKGEDLERLELPLMVN
HKDNEEKLCTAFTVSVDAKYGTTTGVSANDRAKTVLALACRDSKPEDFNRPGHIFPLKYR
EGGVLKRAGHTEASVDLAVLAGLEPVAVLCEIVDDDGSMARLPKLRHFAQTENLKIISIA
DLIRYRRKRDRLVELAAAAPIPTMWGPFKAHCYRSLLDGIEHIAMVKGEIGDGQDILVRV
HSECLTGDIFGSARCDCGNQLALAMKQIEAAGRGVLVYLRGHEGRGIGLGHKLRAYNLQD
DGRDTVEANEELGLPVDSREYGIGAQLLRDLGVRTMKLMTNNPSKYVGLKGYGLAIAGRI
PLLTPITMENKRYLETKRAKMGHVYGLNSGSHGNGIISDDGNSSIDGSSGGVSET |
NT seq |
1608 nt +upstreamnt +downstreamnt
atgtctacaagcaacctctattgctcttcaatggctctgttagtaagagagccacaaggg
ggcagttgtttgcattttgtgaagccattttcagcagatggatgcttgagtattagaaat
gttggtagaattaaaactgctgcgttggtttctggagaaggggacgttatctcctatcca
aataacaataaaaaatctactgctattgagactcagtctgatacaataggttttggaact
ctcggtgccgaaataacaccgaaaactagtgatttctttcctaatgatgatgaatttgac
cttgatcgtcctaccgaaggatttgcttccatctcagaggccattgaagatattcgtcaa
ggcaaattagttattgttgtggatgatgaggatagggaaaatgagggagatctgataatg
gcagcgtccttggtcacacctgaagctatggcatttatagtcaggcatggtactgggatt
gtgtgtgttagcatgaaaggtgaagacttagagaggttagaacttcccttgatggtgaat
cacaaggataatgaggaaaagctttgtaccgcattcactgtgtcggtggatgcaaaatac
ggtacaacaactggagtctcagctaatgatagggcaaagactgtattggctcttgcatgt
agagattcaaaacctgaagatttcaatcgcccaggtcatatttttcccctgaagtacaga
gagggaggagttttgaagagagccggacacacagaagcttctgttgatcttgctgtcttg
gctgggctagaacctgttgcagttttgtgtgagattgttgatgatgatggttccatggct
agattacctaagcttcgccattttgcacagacagaaaacttgaaaattatatccattgct
gatttaatcagatataggaggaaaagagatagattagtagagctggcagctgctgcaccg
atacctacaatgtggggtccatttaaagctcactgttataggtccttactagatggaatc
gagcatattgcaatggttaaaggtgagattggtgatggacaggatattctcgtgagggtg
cattctgagtgcctcactggtgacatatttgggtcagcaagatgtgactgtggaaaccaa
ctagcattggcaatgaaacaaattgaagcagccggtcggggagtattggtctatctccgt
ggacatgaaggtagaggaattggtttgggccacaagctccgcgcttacaacctacaggat
gatggacgtgatacagttgaagcaaatgaagaattaggattgcctgttgattctcgggag
tatggtattggtgcacagctactacgagatctgggtgttcggacgatgaagttaatgaca
aacaatccttcaaaatatgttggactcaaaggttatggtctagcaattgcgggcaggatc
ccattattgacaccaataaccatggagaataagcgatatttggagactaaacgtgcgaaa
atggggcatgtatatggtttgaattccggtagtcatggtaatggcattatcagtgacgat
ggtaattcaagcatcgatggatcatctggtggtgtatcagagacataa |