| Entry |
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| Name |
(RefSeq) probable bifunctional riboflavin biosynthesis protein RIBA 1, 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
140773780
00790 Folate biosynthesis
140773780
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
140773780
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
140773780
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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 |
13:complement(join(2092669..2092920,2093303..2093599,2093860..2093989,2094392..2094714,2095367..2095588,2095673..2096069,2097060..2097109))
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| AA seq |
556 aa
MASIANPSCIVGLPRNQKLYFSRGYGFVKDFQRLPQVSFSVSRNIANTKPVDLRMVGSVA
SGRDGGSGTVKRSTYANALLSQNNSVSDQDYPSANTLLQADAITHGTISSDMSLLADEFF
VDNDELDLDYPTKGFSSISEAIEDIRQGKYVIVVDDEARENEGDLIMAASLVTPEDMAFI
VRHGTGIVCVSMQGEDLERLQLPLMVSTKENEEKLHTAFTVSVDAKEGTTTGVSAKDRAR
TILSLSSPNSKPEDFNRPGHIFPLKYREGGVLKRAGHTEASVDLAVLAGLPPVAVLCEIV
DDDGSMARLPKLQEFAKRENLKIVSIADLIRYRRKRDKLVECSSVAPLPLKWGSARAYCY
RSLLDGMEHIAMVKGDIGDGQDVLVRVHSECLTGDIFGSARCDCGNQLALAMEMIEKAGR
GVLVYLRGHEGRGIGLGHKLRAYNLQDDGRDTVEANEELGLPVDSREYGIGAQILRDLGV
RTMKLMTNNPAKYVGLKGYGLSVVGRVPLLTPITNENRRYLETKRAKMGHIYGSEFNGHL
SSLIQSNATEGQHQEL |
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| NT seq |
1671 nt +upstreamnt +downstreamnt
atggcttcaattgctaatccgtcttgtatagtcggtcttcctcgcaatcaaaaattatat
ttttcaagaggatacggctttgtgaaggacttccaaaggttacctcaggtttcattctca
gtgagtaggaacattgcaaatactaaaccagttgatctaaggatggttggtagtgttgct
tccggaagagatggtggatctgggactgtcaagagatctacttacgccaacgcccttttg
tcacagaacaattctgttagtgatcaggactacccatctgctaatactttactccaagcg
gatgcaataacacatggaacaatttcttctgatatgagtcttcttgctgatgaatttttt
gttgataatgatgaacttgatttagattaccctacgaaagggttttcatctatctcagag
gctatcgaggacatccggcaaggcaaatatgtgattgttgtagatgatgaagccagagaa
aatgagggagatcttataatggccgcgtctttggtaactccagaggacatggcttttata
gtaagacacgggactggaattgtgtgcgtcagcatgcaaggtgaggatcttgaaagatta
caacttcctctgatggtatcaacaaaagaaaatgaggagaagctgcatacagcattcact
gtttcagtggatgctaaagagggcacaacaactggggtgtctgcaaaagatagggcaaga
accattctctctctttcatctccaaattcaaagcctgaagactttaaccgccctgggcat
attttcccgctgaagtacagagagggcggtgttctgaaacgagctggacatacagaagct
tctgttgatcttgctgtgctagctggtttaccccctgttgccgttctatgtgagattgtg
gatgacgacggttccatggctcgattgccaaaacttcaggaattcgcaaagagggagaat
ctaaagatagtctcaattgcggacctgattagatatcggaggaaaagagacaagttggtg
gaatgttcttcagttgcgcccttaccccttaagtggggttctgctcgggcttactgctat
cgttctcttcttgatggaatggagcatattgctatggttaaaggtgatattggagatggt
caagatgtcttagttagggtgcattctgagtgcctgactggagacatatttggatcagca
agatgtgattgtggcaatcagctggccttggcgatggagatgattgagaaagctggcagg
ggtgttctagtttatcttagaggacatgagggaaggggcattggtctgggtcataagctt
cgtgcttacaacttacaagatgatgggcgtgatactgtggaagctaatgaggaactggga
ttgcctgtggactcacgagagtatggcattggcgcacagatattacgagatctgggtgtt
cgtactatgaagttgatgacaaacaacccagcgaaatacgtcggacttaaaggttatggt
ttgagtgtggttggcagggttccattgctaacaccaataactaacgaaaaccgaagatac
ttggaaacaaaaagagcaaagatggggcacatttatggatctgaattcaatggtcacttg
agcagtttgatccaaagtaatgctacagaaggacaacatcaggaattataa |
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