| Entry |
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| Name |
(RefSeq) probable monofunctional riboflavin biosynthesis protein RIBA 3, chloroplastic
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| KO |
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| Organism |
tang Typha angustifolia (narrow-leaf cattail)
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| Pathway |
| tang01110 | Biosynthesis of secondary metabolites |
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| Module |
| tang_M00125 | Riboflavin biosynthesis, plants and bacteria, GTP => riboflavin/FMN/FAD |
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| Brite |
KEGG Orthology (KO) [BR:tang00001]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00740 Riboflavin metabolism
140761776
00790 Folate biosynthesis
140761776
Enzymes [BR:tang01000]
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
140761776
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
140761776
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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 |
6:join(7538881..7538936,7539022..7539340,7540054..7540275,7540372..7540697,7540805..7540934,7541477..7541773,7541935..7542195)
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| AA seq |
536 aa
MDCLLLLSPLSPRPIISSSCQQRLGGSYSCGFGVIRRGCLKLKCYARGDALGGPDYLQED
PPKGKDNGSHFGHFGGSGISFETVSAEITQEISDFFVSDAEGDPDCPSEGFSSIDEAITA
LREGKFVIAVDDENGDHEGDLVMAATLANTQAIAFMIRHGSGIVSVGMKEEDLGRLMIPM
MSPITEIEDLSAPASTVTVDAKVGISTGVSAADRAKTILTLASPDSKPGDLRRPGHVFPL
RYRNGGVLKRAGHTEASVDLVALAGLHPVSVLSTVVDPQDGSMARLPAIKKMAVENNLPI
ISIADLIRYKRKREKLVEKIAVSRLPTKWGLFQAYCYQSKLDGTEHIAVVKGDVGDGQDV
LVRVHSECLTGDILGSARCDCGNQLDLALQLIEKAGRGVLVYLRGHEGRGIGLGQKLRAY
NLQDQGHDTVEANLELGLSVDAREYGIGAQILRDIGVRTMRLMTNNPAKFIGLKGYGLAV
VGRVPVISPITEENKKYLETKRTKMGHVYGSDLRGSFPGFITQDVNAATTSSEEEH |
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| NT seq |
1611 nt +upstreamnt +downstreamnt
atggattgcctgctgcttctttcccccctgtcgcctcgtcctatcatcagttcaagctgt
cagcaacgccttggtggatcctacagctgcggatttggagtaattagaaggggatgccta
aaactaaaatgttatgcaaggggagatgcacttggtggtccagattatttgcaagaagat
ccaccgaagggaaaggataatggctctcattttggacatttcggtgggtcaggcatttcc
tttgagacagtaagcgctgaaattacgcaggaaatatcagatttttttgtcagtgacgca
gagggtgacccagactgcccttcagaaggattttcctcaattgacgaggccatcactgct
ttacgcgagggaaagtttgtaattgctgtagatgatgaaaatggtgaccatgaaggggat
cttgttatggcagcaactctagcaaatactcaagctattgccttcatgattagacatggt
tcagggattgtctctgtaggcatgaaagaggaagacctggggaggttgatgattcccatg
atgtctccaatcactgaaattgaagacctttcagctccagcgtcgacagtaacagtggat
gccaaagtgggaatatcaactggagtgtcagctgcggatagggcaaaaactatccttact
ctagcttccccagactctaagcctggagaccttagaagaccaggccatgtatttcctctt
aggtatcgaaatggaggtgttcttaagagagctggtcatactgaggcatcagtggatctg
gttgcacttgctggactgcatcctgtgtcagttctatcaacagttgttgacccgcaagat
ggttcaatggcacggttgcctgcaataaagaagatggctgtcgaaaataatttaccaata
atctcaattgctgatttgatccggtataaaaggaagcgggagaaattggtggaaaaaatt
gccgtctcccgtttgccgactaaatggggccttttccaagcttactgttatcaatccaag
ttagatggaacggagcacattgctgttgtcaagggtgatgttggagatggacaagatgtc
cttgtaagagtacattctgaatgcctaactggtgatatccttggctctgctcggtgcgat
tgcggcaatcaactagatcttgcattgcaactgatcgagaaggctggtagaggagttcta
gtctaccttcgaggtcatgaaggaagaggcattggattaggccaaaagcttcgtgcatac
aatttgcaggaccaagggcacgacactgtcgaagcaaatctggaacttggattgtctgtt
gatgctcgcgagtatggaattggagctcagatactaagagacatcggtgtgcggacaatg
cgcctgatgacgaacaaccctgccaagtttattggactcaagggatatggtcttgctgtg
gtaggaagagttcctgttatatcccctataacagaagaaaataagaagtaccttgagacg
aaaagaaccaagatgggacacgtttacggttcagatcttcggggaagcttccctggattt
atcactcaagatgtaaatgctgcaactacttcatcagaagaggaacattaa |
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