Setaria italica (foxtail millet): 101785947
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Entry
101785947 CDS
T02818
Name
(RefSeq) glutamate synthase 1 [NADH], chloroplastic isoform X1
KO
K00264
glutamate synthase (NADH) [EC:
1.4.1.14
]
Organism
sita
Setaria italica (foxtail millet)
Pathway
sita00250
Alanine, aspartate and glutamate metabolism
sita00910
Nitrogen metabolism
sita01100
Metabolic pathways
sita01110
Biosynthesis of secondary metabolites
sita01230
Biosynthesis of amino acids
Brite
KEGG Orthology (KO) [BR:
sita00001
]
09100 Metabolism
09102 Energy metabolism
00910 Nitrogen metabolism
101785947
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
101785947
Enzymes [BR:
sita01000
]
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)
101785947
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Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
GATase_2
Glu_synthase
Glu_syn_central
GXGXG
Pyr_redox_2
Fer4_20
NAD_binding_8
Pyr_redox
Pyr_redox_3
DAO
Amino_oxidase
FAD_oxidored
FMO-like
HI0933_like
Thi4
FAD_binding_3
GIDA
FAD_binding_2
NAD_binding_9
Motif
Other DBs
NCBI-GeneID:
101785947
NCBI-ProteinID:
XP_004969556
UniProt:
K3XDN9
LinkDB
All DBs
Position
V:complement(33367059..33378641)
Genome browser
AA seq
2163 aa
AA seq
DB search
MSTTQGTALKSAPMGAGRRARRGRPVAAPYRSGWQAYGGVSLEGSGFLGGGQRTEERVVP
RAPRAVTRDAEVVRPLSKLPDSSIGLYDPSFERDACGVGFVAELSGDYKRETVNDAIEML
ERMAHRGACGCEKNTGDGAGILVALPHDFFKEVTKDVGFELPPPGEYAVGMFFMPTDEKR
REKGKAEFKKVAESLGHVILGWRPVPTDNSDLGESALETEPAIEQVFITKSSRSEAEFEQ
QLYILRRFSIRSIRAALDIRRGGERDFYMCSLSSRTIVYKGQLKPCQLKGYYYADLGHEN
FTSYMALVHSRFSTNTFPSWDRAQPMRVLGHNGEINTLRGNKNWMTAREGLLEAEKLGLS
KEQLSIILPIVDATSSDSGAFDNVLELLVRGGRSLPEAVMMMIPEAWQNDANMDPEKKAL
YEFLSALMEPWDGPALISFTDGRYLGATLDRNGLRPGRFYVTHSGRVIMGSEVGVVDVPP
EDVLRKGRLNPGMMLLVDFENHTVVDDEALKSQYSKAHPYGEWLKKQKLCLKDIVESVPE
VDRVAPSISSSFSQKNVAKESVGVNGIMTPLKAFGYTVEALEMLLLPMAKDGTEALGSMG
NDTPLAVMSNREKLTFEYFKQMFAQVTNPPIDPIREKIVTSMECMIGPEGDLLETTEKQC
NRLALKGPLVSIDEMEAIKKMNYRGWRSKVLDITYPKKSGRKGLEETLDRICAEAREALR
QGYTILVLSDRGFSSDRVAASSLLAVGAVHQHLVANLERTRIGLLVESAEPREVHHFCTL
VGFGADAICPYLAIEAIWCLQKDGKIPPNSDEQPYSKEELVKKYFYASNYGMMKVLAKMG
ISTLASYKGAQIFEALGLSSEVIGKCFEGTPSRIEGATFEMLARDALRLHELAFPSRTPP
PGSADAKALPNPGDYHWRKNGEVHLNDPLAIGKLQEAARVNSRAAYKEYSKRIQELNKTC
NLRGMLKFKDITGKISLDEVEPASEIVKRFCTGAMSYGSISLEAHTALAMAMNKLGGKSN
TGEGGEQPSRMEPLPDGSMNPRRSAIKQVASGRFGVSSYYLTNADELQIKMAQGAKPGEG
GELPGHKVIGDIAVTRHSTAGVGLISPPPHHDIYSIEDLAQLIHDLKNSNPGARISVKLV
SEAGVGVVASGVVKGHADHVLISGHDGGTGASRWTGIKNAGLPWELGLAETHQTLVANGL
RGRAVLQTDGQLKTGRDVAVACLLGAEEFGFSTAPLITLGCIMMRKCHMNTCPVGIATQD
PVLREKFAGEPEHVINFFFMLAEELREIMANLGFRTITEMVGRSDMLEVDPEVVKSNEKL
ENIDLSLILKPAAEIRPGAAQYCVEKQDHGLDMALDNKLIDLSRTAIEKQVRVFIETPIQ
NTNRAVGTMLSHEVTKRYHMNGLPAGTIHVKFTGSAGQSFGAFLCPGITLELEGDSNDYV
GKGLSGGKIVVYPPRNSSFSPEDNIVIGNVALYGATKGEAYFNGMAAERFCVRNSGAQAV
VEGIGDHGCEYMTGGTVVILGKTGRNFAAGMSGGIAYVYDVDGKFSARCNNELVDLYHVE
EEDDIITLKMMIEQHRRNTESVLARDILSDFDNLLPKFVKVYPRDYKRVLENMKVEKAAA
KHTKDPKMTNGISVTTKKVQPDQSASRPTRVANAKKYRGFITYERESISYRDPKERVKDW
KEVAIESTPGPLLNTQSARCMDCGTPFCHQESSGAGCPLGNKIPEFNELVHQNRWREALD
RLLETNNFPEFTGRVCPAPCEGSCVLGIIENPVSIKSIECAIIDKGFEEGWMVPRPPLQR
TGKKVAIVGSGPSGLAAADQLNKMGHFVTVFERADRIGGLMMYGVPNMKTDKIGIVQRRV
NLMAEEGVTFVVNANVGSDPLYSIDRLRSENDAVILACGATKPRDLTIPGRELSGVHFAM
EFLHANTKSLLDSNLEDGKYISAKGKKVVVIGGGDTGTDCIGTSIRHGCSSLVNLELLTK
PPSKRAADNPWPQWPRIFRVDYGHQEAATKFGKDPRTYEVMTKRFLGDENGKVKALEVVR
VKWEKVDGRFQLKEIQGSEEIIEADLVLLAMGFLGPEATIAEKLGLEKDNRSNFKAQFGD
FATSVDGVFAAGDCRRGQSLVVWAITEGRQAAAAVDKYLTRTDQNAAGDITPSGAGLVQP
VAA
NT seq
6492 nt
NT seq
+upstream
nt +downstream
nt
atgtcgacgacgcaagggacagcgttgaagtcggcgccgatgggcgcaggccgtcgggcc
cggcgaggccggcccgtggcggcgccgtaccgttccgggtggcaagcctacggtggcgtc
tccctcgagggcagcgggttcctcggcggcgggcagcgcaccgaggaacgcgtagtgccg
cgggcgccccgcgcggtgacacgcgacgctgaggtcgtcaggccgctgtcgaagctccct
gacagcagcattgggctctacgacccctcgttcgagcgtgacgcgtgcggcgttgggttt
gtcgctgagctttctggagattacaaacgcgagactgtcaatgatgctattgagatgctt
gagagaatggcgcaccgtggtgcttgtggctgcgagaagaacactggagatggtgcaggc
atccttgttgctctgccacatgacttcttcaaagaggtcacaaaggatgttggatttgag
ttaccgccaccaggtgagtatgctgttggaatgttcttcatgccaactgatgaaaagcgt
cgcgagaaaggcaaagctgagtttaagaaggtcgcagaatcactgggacatgttatactc
gggtggcggccagttccgactgacaactcagacttgggtgaatctgcgcttgagaccgag
ccagccattgagcaggttttcatcaccaagagttcaagatcagaggctgagtttgagcaa
cagctatatattcttaggagattctccatcaggtctatccgagctgctctggatattcgg
cgtggaggagagagggatttctacatgtgctctctatcttcaaggactattgtttacaag
ggccagcttaagccgtgccaacttaaggggtactactatgcagacctaggtcatgaaaac
ttcacgagttatatggctctggttcactcaaggttctccacgaacacctttcccagctgg
gaccgtgcgcagccaatgcgtgttttaggccataatggagagatcaatacccttagagga
aacaagaactggatgacagcacgtgagggtctcttagaggctgagaagcttggcttatca
aaggagcagttgtcgataattctaccaattgtggatgctacctcttcagactcaggtgca
tttgataatgttcttgagcttcttgtccgaggtgggcgaagcctgccagaagctgtgatg
atgatgatccctgaggcatggcagaatgatgcaaatatggatcctgaaaagaaagctctc
tatgaatttctgtcagcacttatggagccttgggatggacctgctctaatatcttttact
gatggccgctaccttggagctaccctggaccgcaatggtttgaggcctggtcgattttat
gtgacccacagtggacgcgtgatcatgggtagtgaagttggcgttgttgatgttcctcct
gaagatgtactgagaaagggcaggctaaaccctggaatgatgctattggttgattttgag
aatcacacagtagtggatgatgaagctctgaaatcacagtattctaaagctcacccatat
ggtgaatggctcaagaaacaaaaactatgccttaaagacattgtagaatctgtgcctgaa
gtggatagagttgctccaagcatttctagctctttttcacaaaagaatgtggccaaggag
agtgttggtgtcaatggaattatgaccccactgaaggcctttgggtacacggtagaagcc
ctggaaatgttgttgctgccaatggcaaaggatggaacggaagctcttggctccatggga
aacgatacgccccttgcagtgatgtcaaacagggagaagctgacttttgagtacttcaag
cagatgtttgcacaagttacaaacccaccaattgatcccattagagagaaaatcgtaaca
tctatggagtgtatgattggcccagaaggtgacttgctggaaacaactgaaaaacaatgc
aaccgccttgcccttaaaggtcctttggtttctattgatgaaatggaagctataaaaaag
atgaattaccgtggttggcgaagcaaggtgcttgacataacttatccgaagaagtctgga
aggaagggcctggaagagactttggacagaatttgcgctgaagctcgtgaagccttacgc
caaggctacactattttggttctctcagatagaggattttcctcagaccgtgttgctgcc
agttctctcttagcagttggagcagtacatcagcaccttgttgcgaatcttgagaggaca
cgcataggattgttggttgagtccgctgaacctcgtgaagtgcaccatttctgcaccctg
gttggatttggtgctgatgcaatatgcccgtatctggctattgaagcaatttggtgcttg
cagaaggatgggaagattcctcctaacagtgatgagcaaccctactcaaaggaagagctg
gtgaagaagtatttctatgcttcaaactatggaatgatgaaagttcttgcaaagatggga
atatccacccttgcgtcctacaaaggtgctcagatttttgaagctcttggtctttcttct
gaagtaattggcaagtgttttgaaggtacacctagcagaattgagggtgcaacatttgaa
atgcttgcacgagatgctctccgtcttcatgagttagctttcccatcaagaacccctcca
cctggcagtgcagatgcaaaggcacttcccaacccaggggattaccactggaggaaaaat
ggtgaagtccacctcaacgacccacttgcaattggaaaattacaagaagcagctcgggtt
aacagccgggcagcatacaaagaatattcaaagcgaattcaggagctcaacaagacctgc
aatctccgtggcatgctgaaatttaaagatatcactggcaagatatctttggacgaggtt
gaacctgcaagtgaaatagtgaaacgtttttgtactggtgcaatgagttatgggtcaatt
tcattggaagcacatactgcccttgctatggccatgaacaaacttggaggaaaatctaat
acaggtgagggaggggaacagccctctcgtatggaaccgcttcctgatggttcaatgaac
ccaagacgaagtgccatcaagcaagttgctagtggacggtttggagtttccagctattac
ctgactaatgcagatgagctgcagattaaaatggctcagggtgccaagcctggtgaaggt
ggtgagcttccaggtcacaaggttattggtgacattgctgtcacaagacattctacagct
ggtgtaggactcattagccctcctcctcatcacgatatatattcaattgaggatcttgca
cagcttatacatgatcttaagaattcaaaccctggagcccgtatcagtgtcaaactagtc
tctgaggctggagtgggagttgttgcaagtggtgttgtaaaaggacacgcagatcatgtt
cttatttctggacatgatggaggcacaggagcttcaagatggacaggtatcaagaatgct
ggacttccatgggaacttggattggctgagacgcatcaaactctagtagcaaatgggctt
cgtggtcgagctgttctgcaaacagatggacagttaaagactggtagagatgttgctgtt
gcttgcttgcttggtgcagaggaatttggttttagcactgccccactgatcacacttggc
tgtattatgatgcgaaaatgccacatgaacacttgtcctgttggtatagctactcaagac
ccagtgcttcgagaaaagtttgctggagaaccagaacatgtaattaactttttctttatg
ctcgccgaggagctaagagaaatcatggcaaaccttgggttccgcaccattactgaaatg
gttggacgatctgatatgcttgaggttgatccagaagtagtgaagagcaacgagaaactt
gagaacattgacctctcactgatcttgaagccagctgcagagattcgtccaggtgctgct
cagtactgtgttgagaagcaagatcatggccttgacatggcattagataacaaactaata
gatttgtcaagaactgctattgaaaagcaagttcgtgtgttcattgagactccaattcag
aacacgaatcgagcagttggaaccatgctcagtcatgaagtcactaaacgttatcacatg
aatggattgcctgctggtacaattcatgtgaagttcactggaagtgctggccaaagtttt
ggcgcttttctctgtcctggaatcactcttgaattagaaggagacagcaatgattatgtt
ggtaaaggattgtctggtggaaaaattgttgtgtacccaccaaggaacagttcatttagt
ccagaggacaatattgtcattggtaatgtagctctatatggtgctaccaagggagaggca
tacttcaatggtatggcagcagaaaggttttgtgttcgcaactcaggtgctcaagcagta
gttgaaggaattggagatcatggatgcgagtacatgactggaggtactgtggttatcctt
ggaaaaactggacgtaactttgctgctggaatgagtggaggcattgcttatgtttacgat
gttgatgggaaattcagtgcccgctgcaacaatgagttagttgatctatatcatgtggag
gaagaggatgacatcatcacattgaaaatgatgattgaacaacatagacgtaacaccgag
agtgttttagctagagacatactctctgattttgataaccttcttccaaaatttgtaaaa
gtatacccaagggattataagagggttttggaaaacatgaaagtggaaaaagctgcggct
aagcacacaaaggatcctaagatgacaaatggtatttctgtgacaactaagaaagtacaa
cctgatcagtctgctagccgaccaacacgtgttgccaatgccaaaaagtaccgaggtttc
attacatatgagcgagagagtatttcttaccgagatccaaaagagcgtgttaaagattgg
aaggaagttgcaattgagtcaacacctggcccactattaaacacacaatctgctcgctgt
atggattgtggcactcctttctgtcatcaggaaagctcaggtgctggctgtcctcttgga
aataagatcccagagttcaatgaattagttcaccagaatagatggcgcgaagcattggat
cgattacttgagacaaacaatttcccagaatttactggacgagtttgccctgctccttgt
gagggatcatgtgttcttgggatcatcgaaaatccagtgtctatcaaaagcatagaatgt
gcaatcatagacaaaggttttgaagagggatggatggtaccacggcctccacttcaaaga
actggaaagaaggtggccattgttggcagtggaccatctggtttggctgctgcggatcaa
ctaaacaaaatgggccattttgtaactgtgtttgaacgagccgaccgcattggaggttta
atgatgtatggtgtgccaaacatgaagacagacaagatcggcattgttcaacgccgtgtt
aatttaatggctgaagagggtgtcacttttgtggtgaatgccaatgttggtagtgatcct
ttatactcaattgaccgtctacgttctgagaatgacgcagttattttggcttgtggagca
acaaaaccaagagatctcacaattcctggacgtgagctatcaggagttcattttgcaatg
gaatttctgcacgcaaataccaaaagtttactggacagcaaccttgaggatggtaagtac
atatctgccaaggggaaaaaggtggtggttattggtggaggtgatacaggcacagattgc
attggtacatctattaggcatggttgcagcagccttgtaaatctcgaacttctgactaaa
ccaccgagcaagagagctgctgacaacccatggccgcagtggccaagaattttccgtgtt
gactatgggcatcaagaagctgctaccaagttcgggaaggatccaagaacttatgaagtc
atgacaaagcgttttcttggtgatgaaaatggcaaggtgaaggcccttgaggtagtgcgt
gtgaagtgggagaaagtagatggaagatttcaactcaaggagatccaaggatcagaagaa
atcatcgaggcagatctcgtcctcctagctatgggattcctgggccctgaagcgactatc
gctgaaaaactgggtctggagaaggacaaccgatcaaacttcaaagcccagtttggagac
tttgccaccagtgttgatggcgtctttgcagccggggactgcagacgcggacaatcattg
gtggtttgggccatcacggaggggcggcaggctgctgcagcggtagacaagtacttgaca
aggaccgatcagaatgctgcaggcgacatcaccccttccggcgcaggtctcgttcagcca
gttgctgcataa
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integrated database retrieval system
