Amborella trichopoda: 18442390
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Entry
18442390 CDS
T02990
Name
(RefSeq) glutamate synthase 1 [NADH], chloroplastic
KO
K00264
glutamate synthase (NADH) [EC:
1.4.1.14
]
Organism
atr
Amborella trichopoda
Pathway
atr00250
Alanine, aspartate and glutamate metabolism
atr00910
Nitrogen metabolism
atr01100
Metabolic pathways
atr01110
Biosynthesis of secondary metabolites
atr01230
Biosynthesis of amino acids
Brite
KEGG Orthology (KO) [BR:
atr00001
]
09100 Metabolism
09102 Energy metabolism
00910 Nitrogen metabolism
18442390
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
18442390
Enzymes [BR:
atr01000
]
1. Oxidoreductases
1.4 Acting on the CH-NH2 group of donors
1.4.1 With NAD+ or NADP+ as acceptor
1.4.1.14 glutamate synthase (NADH)
18442390
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
GATase_2
Glu_synthase
Glu_syn_central
GXGXG
Pyr_redox_2
Fer4_20
NAD_binding_8
Pyr_redox_3
Pyr_redox
FAD_oxidored
Amino_oxidase
DAO
HI0933_like
FAD_binding_3
FAD_binding_2
AlaDh_PNT_C
FMO-like
2-Hacid_dh_C
Thi4
GIDA
Motif
Other DBs
NCBI-GeneID:
18442390
NCBI-ProteinID:
XP_006852671
UniProt:
W1Q092
LinkDB
All DBs
Position
Unknown
AA seq
2201 aa
AA seq
DB search
MATVPGFVLPVNNSVILPSLKAQKGLVAPSSRRNSVFCRSVLKQNAREVRSIEKKFLGTR
VRSGSERLHLWRSEGPGRTPKLRTVVKSMLSGVPTERLGLYDPSFDKDSCGVGFVAELSG
EYSRKTVLDALEMLVRMSHRGACGCETNTGDGAGLLVGLPHQFFSEVAKESGFELPPPGE
YAVGMFFLPTSEVRCEESKIVFAKVAESLGHVVLGWRRVPTDNTGLGKSALQTEPVIEQV
FLTPSSRSNADFEQQMYILRRVSMVAIRAALNLQHGGVRDFYICSLSSRTVVYKGQLKPV
QLKDYYYVDLGHEKFTSYMALIHSRFSTNTFPSWDRAQPMRVLGHNGEINTLRGNVNWMK
AREGLLKCKKLGLSKNEMQKLLPIVDASSSDSGAFDGVLELLVRAGRSLPEAIMMMIPEA
WQNDNNMDPERKALYEYFSALMEPWDGPALISFTDGRYLGATLDRNGLRPGRFYITHSGR
VIMASEVGVVDIPPEDVRQKGRLNPGMMLLVDFENHTVVDDEALKKQYSLARPYAEWLSR
QKIELKDIVESVSENDRVPPPINGVALADSHDDNMENMGIHGLLAPLKSFGYTVEALEML
LLPMAKDGTEALGSMGNDAALAVMSNREKLTFEYFKQMFAQVTNPPIDPIREKIVTSMEC
MIGPEGDLTETTEEQCHRLSLKGPLLSIDEMEAIKKMEYRGWCSKVLDITFSKDRGRKGL
EETLDRICSEARAAIREGYTTLVLSDRAFSSKRVAVSSLLAVGAVHHHLVSKLERTQVGL
IVESAEPREVHHFCTLVGFGADAICPYLAIEAICRLQIDGKIPPKSNGEFHSKEDLIKKY
FKASNYGMMKVLAKMGISTLASYKGAQIFEALGLSSEVIQRCFAGTPSRVEGATFEILAR
DTLRLHEMAFPSRSLPQGSAEAVALPNPGSYHWRKGGEVHLNDPLAIAKLQEAARMNSVA
AYKEYSRVVNELNKSCNLRGMLKFKKADSKIPLNEVEPASEIVKRFCTGAMSYGSISLEA
HTALAIAMNKIGGKSNTGEGGEKPSRMEPLPDGSMNPMRSAIKQVASGRFGVSSYYLTNA
DELQIKMAQGAKPGEGGELPGHKVVGDIAVTRHSTAGVGLISPPPHHDIYSIEDLAQLIH
DLKNSNPGARISVKLVSEAGVGVIASGVVKGHADHVLISGHDGGTGAARWTGIKNAGLPW
ELGLAETHQTLVANDLRGRTVLQTDGQLKTGRDVAIAALLGAEEFGFSTAPLITLGCIMM
RKCHKNTCPVGIATQDPVLREKFAGEPEHVINFFFMLAEEVREIMSELGFRTVNEMVGQS
DMLEVDQEVVKNNEKLENIDLSLLLRPAADIRPEAAQYCVQKQDHGLDMSLDQELIALAK
PALEKAMPVYMEMPIRNVNRALGTMLSHEVTKRYQMDGLPSDTIHVKLTGSAGQSLGAFL
CPGITLELEGDSNDYVGKGLSGGKIIVYPPKGSLFDPKDNIVIGNVALYGATKGEAYFNG
MAAERFCVRNSGARAVVEGVGDHGCEYMTGGIVLVLGKTGRNFAAGMSGGIAYVLDLDGK
FNSKCNPELVDLDKVEEEEDIMTLRMMIQQHQRHTNSEVAKEVLANFEALIPKFVKVFPR
DYKRVLENMKAEQAAKEAEREAEEREEMELMEKDAFEDLKKMAAAAASNDKKVEEAVASN
RPTRVDNAVKHRGFMAYERESISYRDPKARVNDWEEVAEEGKPGPKLKTQSARCMDCGTP
FCHQENSGCPLGNKIPEFNELVYQNRWREALDRLLETNNFPEFTGRVCPAPCEGSCVLGI
IENPVSIKSIECAIIDKAFEEGWMVPRPPHKRTGKRVAIVGSGPAGLAAADQLNKMGHLV
TVYERADRIGGLMMYGVPNMKADKTHIVQRRVNLMGQEGVNFVVNANVGTDPTYSLERLR
SENNALILACGATKPRDLPVPGRELSGVHFAMEFLHANTKSLLDSNLQDGQYISAKGKKV
VVIGGGDTGTDCIGTSIRHGCTEMVNLELLPEPPQTRAPSNPWPQWPRIFRVDYGHQEAI
TKFGKDPRSYEVLTKRFIGDDNGNVKGLEVVRVKWAKDASGKFNFQEVEGSEEVIAADLV
FLAMGFLGPESTVAEGLGVERDGRSNFKAEYGHFSTSVEGVFAAGDCRRGQSLVVWAINE
GRQAAAQVDKFLVKKEEAQATSTRSSAKKLQQQQDKHTVMT
NT seq
6606 nt
NT seq
+upstream
nt +downstream
nt
atggccacagttccgggttttgttttgcctgtgaataattcagtaatattgccttctctg
aaagctcagaaaggtctcgttgctccaagttctcgaaggaattcagtgttctgtagatca
gtattgaagcagaatgcacgagaggtgagatcaattgagaagaagtttttggggacaagg
gttcggtctggttctgaaaggctgcatttatggaggtcggaggggcctggtcgtactcca
aagcttaggacagtggtgaaatccatgctatcaggggtgcctactgagcgacttgggctt
tatgatccatcttttgacaaggattcatgtggggtcggctttgttgctgagctctctggt
gaatatagccgaaaaactgttttggatgcactggagatgttagttcgtatgtcacataga
ggggcctgtggttgcgaaactaataccggtgacggggctgggctcctcgtgggtctgcct
catcagtttttctctgaggttgctaaggaatctggatttgaattacctcctcctggtgag
tatgcagtgggcatgttctttttgccgacatctgaggttcgctgtgaagaaagcaagatc
gtatttgctaaggttgccgaatcattagggcatgttgtacttgggtggcgtcgtgttcca
accgacaacactggcttgggcaagtctgctcttcaaacagaacctgtaatagagcaggtg
tttcttacccccagttcaaggtcaaatgctgattttgagcagcagatgtatatattgagg
cgggtttcaatggttgcaatccgtgctgcattgaacttgcagcatggtggagtgagggac
ttctacatatgttctctttcttctaggactgttgtttacaaaggtcagctgaagcctgtc
caactgaaggactattactatgtagacttaggccatgaaaagtttacgagctatatggct
ctgatccattctcgcttttcaaccaacacttttcccagttgggatagagctcaaccaatg
cgtgtattagggcacaatggggaaatcaacacactccgaggaaacgtgaattggatgaag
gcacgcgagggtctgttaaagtgcaagaaactggggctttcaaaaaatgagatgcaaaag
cttcttcccattgtggatgctagttcgtctgattcaggagcttttgatggtgtcctagag
ctgcttgttcgagctggaagaagtttgcctgaagctataatgatgatgataccagaggca
tggcaaaacgataacaacatggatcctgaaagaaaggcattatacgagtacttctctgct
ctgatggagccatgggatggaccagcactcatatcatttactgatggacgctacctcgga
gcaacactggaccggaatgggttgcgcccaggtcgtttctacattacacacagtggaagg
gttatcatggctagtgaagttggggttgtggatatcccccctgaagatgtgcgccagaaa
gggagacttaaccctggaatgatgctcttggttgatttcgaaaaccatacagtagttgat
gatgaggcactgaagaagcagtactccctcgcgaggccttatgcagaatggcttagtcga
cagaaaatagagctcaaggatattgtggaatctgtttcagagaatgatagagttccccca
cccataaatggagttgcactggctgatagtcatgatgataatatggaaaatatgggcatc
catgggctgttggctccactaaagtcattcggttatactgttgaagccctggagatgttg
cttctacccatggcaaaagatggtactgaagctcttggttctatgggtaatgatgcagca
ttggccgttatgtccaacagagagaaattgacatttgagtatttcaagcaaatgttcgcg
caagttacaaatccccctattgatcctattcgtgagaagatagtcacttccatggaatgc
atgataggaccagaaggtgatctcacagaaacaactgaggaacagtgccaccgcctctca
ctgaaaggcccacttctttccattgatgagatggaggccattaaaaagatggaatacaga
ggttggtgtagcaaggttcttgacatcaccttctcaaaagatcgtgggcgcaaaggtctt
gaggaaactcttgataggatttgctccgaggctcgtgctgcaattcgtgaaggttacact
acattggtgctgtctgacagagctttctcatcaaagcgtgtagctgtaagctcgcttttg
gcagttggtgctgtacaccatcatctagtttcaaagctcgagcgcacacaggttggcttg
atagtggagtctgctgagccacgagaagtgcaccatttctgcacccttgttggatttggt
gctgatgctatatgcccatatttggccatcgaagccatatgtaggctccaaatagatggc
aagatccctcctaaatcaaatggggagttccactcgaaagaagatctcatcaagaaatat
ttcaaagcaagcaactatggaatgatgaaagttcttgcaaagatggggatatccacattg
gcctcttacaagggtgcccaaatatttgaagctttgggtctctcttctgaggttatccaa
aggtgttttgcaggaactcctagtagagttgaaggggctacatttgaaattcttgctcga
gacacacttcgcttgcatgagatggcttttccaagtaggagtttgcctcagggaagtgca
gaggctgtggctttgcccaatcctgggtcttaccactggaggaagggaggggaagtgcat
ctcaatgatcctcttgctattgcaaagttgcaagaagctgcaaggatgaacagtgtcgcc
gcgtataaagagtactctagggttgtgaatgaactgaacaagtcctgcaacttgaggggt
atgttgaaatttaaaaaggctgatagcaagattcctctgaatgaggtggaaccagctagt
gagattgtgaagcgcttctgtaccggagccatgagctatgggtcgatatccctcgaagca
cacactgccctggccattgcgatgaacaagattgggggcaaatccaatacaggtgaggga
ggtgagaagccatcccgcatggagcctcttcctgatggttccatgaaccccatgaggagt
gccatcaagcaagttgctagtgggagatttggtgtttctagctactatctcacgaatgct
gatgagctccagattaaaatggctcagggtgccaaaccaggtgaaggaggtgagcttcct
gggcacaaggttgtcggtgacattgcagtcacaaggcattccactgctggtgttggtctc
attagcccacctcctcatcatgacatctactccattgaagatcttgctcaattgatccat
gatctcaagaattcaaaccctggggctcggatcagcgtcaaactggtctctgaagccggt
gtaggtgtaatcgcaagtggcgtcgtgaagggtcatgcagaccatgtcctgatctcaggc
catgacggtggcaccggggctgctcgatggaccggtataaagaatgcagggctgccatgg
gagcttggccttgctgaaacccaccaaaccctcgttgccaatgaccttcgaggccgaact
gttctccagactgatggccagctcaagactggacgagatgtggccatagctgcccttctt
ggtgctgaagaatttgggtttagcactgcccccctaataacactaggatgcatcatgatg
aggaaatgccataaaaacacatgcccagttggcattgcaacccaggacccagttcttagg
gagaagtttgcaggcgagcctgagcatgtgattaacttctttttcatgctcgctgaggag
gttagagagataatgtcagaactggggttcagaaccgtaaatgaaatggtggggcaatct
gatatgctcgaggttgatcaggaagtggttaaaaacaatgagaagcttgagaacattgac
ctctcattgcttcttcgaccagctgctgatatccgacctgaggctgctcaatactgtgtg
caaaagcaggaccatggcttggacatgtcattggaccaggagctaatagctttggccaaa
cctgctctggagaaggccatgcccgtgtatatggagatgcccattcgtaatgtgaaccga
gctctggggaccatgcttagccatgaggttacaaaacgatatcaaatggatggacttcct
tctgatacaatccatgtgaagctgaccggaagtgcaggccagagtctcggtgccttcctc
tgccctggaataaccctagagcttgaaggtgatagtaatgattatgttggaaaaggccta
tcaggggggaagattattgtttaccctcctaaagggagcctgtttgatcctaaagataac
attgttattggaaatgttgctctttatggggctacaaaaggggaggcttatttcaatggg
atggctgctgagagattttgtgttcgtaactctggtgctagagcagtggtggaaggagtt
ggggatcatgggtgtgagtatatgactggtggcatagttctggttcttgggaagacgggg
agaaattttgcagctgggatgagtggaggtattgcatatgtgctggacctggatgggaag
ttcaattctaagtgtaaccctgagttggttgatcttgacaaggttgaggaagaagaagat
attatgactttgagaatgatgatacaacagcaccagaggcacaccaatagtgaagtggca
aaggaggtgcttgctaattttgaggcccttatacccaagttcgtgaaggtgtttccaagg
gactataagagggttctcgagaacatgaaggcagagcaagcagcaaaagaagcagagaga
gaggccgaggagcgtgaggaaatggagttgatggagaaggatgccttcgaagatcttaag
aagatggctgcagcagcagcatcaaatgataagaaagttgaagaggcagtggcttcaaac
aggcctacacgagttgacaatgcagtcaagcaccgtggttttatggcttatgagcgtgaa
agcatctcatacagagatcccaaggctcgggtaaatgactgggaagaggttgctgaagag
ggaaagccaggacctaaattgaagacgcaatctgctcgatgcatggactgtgggactccc
ttctgccatcaggaaaacagtggctgccctcttgggaacaaaattcctgagttcaatgaa
ctggtataccaaaatcgatggagggaagcattggatagacttttggagacgaataacttc
ccagagttcaccgggcgagtatgccctgctccttgcgagggctcatgcgtgcttggcata
attgagaacccggtgtctattaaaagcatcgagtgtgccattattgacaaagcctttgaa
gaaggttggatggtgcctcggcctccccacaagagaactgggaaaagagttgctattgtg
ggtagtggtccagccggcttggctgcagccgatcagctgaataagatgggccatctggtg
acagtgtacgaacgtgctgaccgtattggtgggctaatgatgtatggagtcccaaacatg
aaggctgacaagacccacattgtgcagcgccgtgttaacctcatgggtcaggaaggtgtt
aactttgtggtgaatgcaaatgttggaactgacccaacttactccctcgagaggcttcgc
agtgaaaacaatgcccttatcctcgcctgtggtgctacaaagccaagggatcttccagtt
cctgggagggagctctcaggcgttcattttgccatggagttccttcatgcaaacaccaag
agcttgcttgatagcaatttgcaggatggtcaatacatttctgcaaagggaaagaaggtt
gtggtcataggaggcggtgatactggtactgattgtatagggacctcaatccgccatggc
tgcacagagatggtgaatctggaacttcttccagaaccaccacaaaccagagctccatcc
aatccatggcctcagtggccccgcatatttagggtagattatgggcaccaagaagcaatc
accaagtttgggaaagaccccagatcatatgaggtgcttactaagcgattcataggtgac
gataatggtaatgtgaagggcctcgaagtggtgagagtgaaatgggcaaaggatgcctcg
ggcaaattcaatttccaagaagttgagggctctgaagaggttatcgcagcagacctcgtc
ttcttggccatgggattccttggacctgaatcgacggtggctgagggtctaggggtggag
agagatggtcggtccaacttcaaggcagagtatggtcacttctcgaccagtgtggagggg
gtgtttgcagctggggactgcaggcggggccagtcactggttgtgtgggctatcaatgag
ggtcgccaagctgcagcccaagtggacaaattccttgtgaagaaggaagaggctcaagct
acctccacacgctcttctgcaaagaagctgcaacaacagcaagacaagcatactgttatg
acctaa
DBGET
integrated database retrieval system
