| Entry |
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| Name |
(RefSeq) probable 1-deoxy-D-xylulose-5-phosphate synthase, chloroplastic isoform X1
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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_M00096 | C5 isoprenoid biosynthesis, non-mevalonate pathway |
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| Brite |
KEGG Orthology (KO) [BR:tang00001]
09100 Metabolism
09108 Metabolism of cofactors and vitamins
00730 Thiamine metabolism
140768295
09109 Metabolism of terpenoids and polyketides
00900 Terpenoid backbone biosynthesis
140768295
Enzymes [BR:tang01000]
2. Transferases
2.2 Transferring aldehyde or ketonic groups
2.2.1 Transketolases and transaldolases
2.2.1.7 1-deoxy-D-xylulose-5-phosphate synthase
140768295
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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 |
10:join(12935077..12935244,12935954..12936073,12936171..12936335,12936437..12936587,12937298..12937566,12938336..12938615,12938727..12939007,12939278..12939556,12939662..12939946,12940300..12940449)
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| AA seq |
715 aa
MAAASAHCPLGSRGLFPEESRFHCFRFGFSGVPHYLKKDSLKLVLYPCSTPTSLSKGLFK
KVRALPVVGDFFWEKAPTPILDMIDTPDHLKDLSHKELKQLANEVRAEISFIMSKTRRQF
KASLSVVELTIAIHHVFNAPVDKILWDVGDQTYAHKILTGRRPLFHTLKQKDGLSGFTSR
IESEYDAFGAGHGCNSVSAGLGMAVARDINGQKSRVVTVISNWTTMAGQVYEAMGNAGYL
DSNMVVILNDSRHSLLPKPDEGQKMTINALSSTLSKLQSSKSFRKFREAAKGVTKRIGKG
MHEIAAKVDEYARGMVGPLGSTLFEELGLYYIGPVDGHNIDDLICVLHEVATMDSTGPVL
IHVITKDEKESEDNSKAETSPENCDPKIMGRSLSRTYNDCLVEALVAEAERDKKIVVVHA
GMGVDPSLRLFQSRFPDRFFDVGMAEQHAVTFSAGLSCGDLKPFCIIPSSYLQRAYDQII
QDVDLQRLPVRFAISSAGLVGSDGPTQCGAFDITFMSCLPNMIVMAPSDEDELIDMVATA
ACIDDRPVCFRYPRGTIVGINGSLNCGTPLQIGKGEILVEGKDVALLGYGVMVQNCLKAQ
SLLASLGIQATVANARFCKPLDIELVRELCREHEFLITVEEGTIGGFGSHVSQFISLDGL
LDGTVKWRPIVLPDRYIEHASPRQQLDIAGLTGHHIAATALSLLGRTRDALLLMK |
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| NT seq |
2148 nt +upstreamnt +downstreamnt
atggcagctgcgtctgctcactgtccacttggtagcaggggtctttttcctgaggaatcg
aggttccattgcttcagatttggcttctctggggttcctcattacttgaaaaaggattcc
ttgaaactggttttatacccatgttccacacctacttcgctttcaaaggggttgtttaag
aaagtgagagcattaccagttgttggtgattttttctgggagaaagcaccaacacccata
ctggacatgattgatactccagatcatttgaaagatctctctcataaggaactaaagcag
ttagctaatgaagttcgagcagagatttctttcatcatgtcaaagacacgtagacagttc
aaagccagtctttcagttgtggagctaacaattgctatacatcatgtttttaatgcccca
gtggataagatattgtgggatgttggtgatcagacatatgcacataagattctcacagga
agacgtcctctctttcatacacttaagcagaaagatggcctttcaggttttacatctcga
attgagagcgagtatgatgcatttggtgctgggcatggatgcaatagcgtttctgcgggg
cttggcatggcagttgcaagggatataaatggacagaagagccgcgttgtgacagttata
agtaattggacaacaatggctggtcaggtttatgaggcaatgggaaatgctggctatcta
gattcgaatatggtagtaattttaaatgacagccggcactcattacttcctaaacctgat
gaaggacaaaaaatgactatcaatgccctctctagtactttaagcaagcttcagtcgagt
aaatcattccggaaattccgagaagctgcaaagggtgttaccaagaggattggtaaggga
atgcatgaaattgcagccaaagttgacgaatatgcccgtggtatggtaggtcctcttgga
tcaaccctctttgaagaacttggattgtattacattgggccggttgatggacacaacatc
gatgatctaatttgtgtacttcatgaagttgcaacaatggattctaccgggccagtattg
attcatgtgataacaaaggatgaaaaggaatcagaagataattctaaagctgagacaagt
cccgaaaactgtgatcccaaaatcatgggcagaagcctctctaggacatacaatgactgc
ctagttgaagctttagtagcagaagcagagagagacaagaaaattgtggtggtccatgca
ggcatgggagtggatccatcacttcggctgtttcagtccagatttccagacagatttttt
gatgtgggtatggcagaacaacatgctgttactttttccgctggtttgtcctgtggggat
ttaaagccattctgcataattccatcttcatatcttcagagagcatatgatcagatcatc
caagatgttgatttgcaaaggctacctgtgcgatttgcaatctcaagcgcagggctggtg
ggatctgatggcccaacccagtgtggggcttttgatataacgttcatgtcatgtttacca
aacatgattgtgatggcaccatcagatgaggatgaactcattgatatggtggccactgct
gcatgtattgatgacagacctgtttgcttccgttatccaaggggtaccattgtggggata
aatggttctttaaattgtgggactccccttcagatcgggaagggggaaattcttgttgag
ggaaaagatgtagctttactggggtatggagtgatggttcaaaattgcttgaaggctcaa
tctcttcttgcctcccttggtattcaagcaactgttgctaatgcaaggttctgcaagccg
cttgacattgagcttgtccgagaactatgccgagaacatgagtttcttattactgttgag
gaaggaaccattggaggctttggttcccatgtctcacagttcatctcactggacggttta
cttgatggaacagtcaagtggcggcccatcgtattacctgacagatacatcgagcacgcg
tccccaagacagcagcttgacatagccggcctgactggtcatcatattgcagccacagcg
ttgagcctgcttggacgaactcgtgatgcacttctgttgatgaagtaa |
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