KEGG   Sclerotinia sclerotiorum: SS1G_07849
Entry
SS1G_07849        CDS       T01071                                 
Name
(RefSeq) hypothetical protein
  KO
K00264  glutamate synthase (NADH) [EC:1.4.1.14]
Organism
ssl  Sclerotinia sclerotiorum
Pathway
ssl00250  Alanine, aspartate and glutamate metabolism
ssl00910  Nitrogen metabolism
ssl01100  Metabolic pathways
ssl01110  Biosynthesis of secondary metabolites
ssl01230  Biosynthesis of amino acids
Brite
KEGG Orthology (KO) [BR:ssl00001]
 09100 Metabolism
  09102 Energy metabolism
   00910 Nitrogen metabolism
    SS1G_07849
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    SS1G_07849
Enzymes [BR:ssl01000]
 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)
     SS1G_07849
SSDB
Motif
Pfam: GATase_2 Glu_synthase Glu_syn_central GXGXG Pyr_redox_2 Fer4_20 Pyr_redox NAD_binding_8 DAO Pyr_redox_3 Amino_oxidase HI0933_like FAD_binding_2 FAD_oxidored Thi4 FAD_binding_3 NAD_Gly3P_dh_N NAD_binding_7 2-Hacid_dh_C Lycopene_cycl F420_oxidored KARI_N 3HCDH_N GIDA
Other DBs
NCBI-GeneID: 5487617
NCBI-ProteinID: XP_001591223
UniProt: A0A1D9QF52 A7ER95
LinkDB
Position
Unknown
AA seq 2130 aa
MGMGRAEDFNDRQIEIDAKNEPYNQYQYEAEGNDSWAGALPVKQGLYDPSLEKDACGVGF
ACNIKGKPSHKIVSDGAVGSDARDGDGAGVMTSIPHKFFIKNFERETDIKLPPLGQYAVG
NLFFKPDEETLQESKKQLEEISESLGLRVLGWREPPKDSTLLGPAAASREPIILQPFVVL
ASAYGPGNSPETTDPELFDEKHFERQLFVLRKRATHTIGLHNWFYLCSLSNKNIVYKGQL
APVQVYQYFYDLVNADYEAHFALVHSRFSTNTFPSWDRAQPLRWAAHNGEINTLRGNKNW
MRAREGVMQSDVFGDDLESLYPIVEGGGSDSAAFDNVLELLTINGVLSLPEAVMLMVPEA
WQDNAAMDPAKAAFYEWAACQMEPWDGPALFTFADGRYCGANLDRNGLRPCRYYVMDDDR
IICASEVGTIQVDPERVILKGRLQPGKMLLVDTVAGRIIDDAELKNTVAKRHDFRSWLHK
ELVSLPKVHEKLIAQGVVDLDPKPSDSTIQEDALLKAFGYTFEQVSLLLAPMASDEKEAL
GSMGNDAPLACLANAPRLLYEYFRQLFAQVTNPPIDPIREAIVMSLDCYVGPQGNLLGME
SSQCGRLLLPTPILSIPEFNALKNINKFYPKWTSRVIDLTFPRSEGVDGYIRHLDYICEQ
ATAAIENNDSIIILSDRATCADRVSVSTLLASGMVHHHLVNNKWRSHAALVVETAEAREV
HHMCVLVGYGVDAVNPYLAMECIIKLNREGLIRKKLSDDQLIRNYKYSADGGILKVMSKM
GISTLASYKGAQIFEALGVDDTVVDRCFKGTATRIKGITFEQIAEDAFRFHENGFPSRYT
VRIPGLVESGEYHWRDGGEPHINDPTSIANIQDAVRTKNDKSYEAYSLSEYEQIKSCTLR
GLLDFNFEESNPVPIDQVEPWTEIVRRFCTGAMSYGSISMEAHSTLAVAMNRLGGKSNTG
EGGEDPERSEVMSNGDTMRSAIKQVASGRFGVTSNYLADSDELQIKMAQGAKPGEGGELP
GHKVSQSIARTRHSTPGVGLISPPPHHDIYSIEDLKQLIYDLKCANPRSRVSVKLVSETG
VGIVASGVAKAKADHILISGHDGGTGASRWTGIKYAGLPWELGLAETHQTLVLNDLRGRV
VVQTDGQLRTGRDVAIACLLGAEEWGFATTPLIAMGCIMMRKCHLNTCPVGLATQDPELR
KKFKGTPEHVINFFYYIANELRAIMAKLGFRTINEMVGHAECLRVRDDLRTKKTSNIDLS
LILTPAHKLRPGVATFNVRKQDHRLYVRLDNKLISEAELTLDKGLPSRIECDIVNTDRAM
GTSLSYQISKRYGEDGLPMDTVHVNIKGSAGQSFGAFLAPGVTLELEGDANDYVGKGLSG
GRLIVYPPRSAVFKAEENVIVGNVCLYGATSGTVFFRGVAAERFAVRNSGATAVVEGVGD
HGCEYMTGGRVLILGSTGRNFAAGMSGGIAYILDIQQDFMSKLNTEMVEASGIDDPAEIA
FVRSLIEDHHHYTGSELAARILLDFNRALRRFVKVLPVDYKRVLQEEAAKAAEAKKARFA
LPFLPGNPSRELHEKNHKENKKPSDLQDIEETIGDAAVEKKRSLVLDKTKGFMKYQRRSE
KYRSAKTRTRDWAELSKRLDEDELKYQAARCMDCGVPFCQSDSGCPISNIIPKWNELLFA
GQWRDALNRLLLTNNFPEFTGRVCPAPCEGACVLGINEDPVGIKSIECAIIDRGFDMGWM
VPQEPKVRTGKTVAIIGSGPAGLACADQLNKAGHKVTVYERADRAGGLLMYGIPNMKLDK
KIVKRRTDFMAAEGITFKTNVAVGQDVQLMDLKAENDAVVIATGATVARDLPIKNRSLEG
IHFAMQFLHRNTKSLLDSELADNEYISAKDKHVVVIGGGDTGNDCIGTSVRHGAKSVTNF
ELLPQPPNERARDNPWPQWPRVYRVDYGHTEVKQHMGKDPREYCVMSEEFVDDGTGKVKG
INTIRVEWTRSSTGGWDMKKIEGSQQFFPADLVLLSMGFLGPEDRVLGDEIEKDGRKNVK
TAPGKYSTNVEGIFAAGDCRRGQSLIVWGINEGRQCARECDRYLEGSSSLPVTGGIVKST
ASEIFGRDPKREILGRADRAPIQLIAAAAT
NT seq 6393 nt   +upstreamnt  +downstreamnt
atgggcatgggaagggcggaagattttaacgacagacaaatcgagattgatgccaaaaac
gagccttacaatcaatatcaatatgaggccgagggaaatgattcatgggcaggagcactt
ccggtaaagcagggtttatatgatcctagcttggagaaggatgcctgtggtgtgggtttt
gcttgtaacatcaaaggcaaacccagccacaaaatcgtcagcgatggtgctgtgggttcc
gatgcgagagatggagatggagctggtgtgatgacatctattcctcataaattctttatc
aaaaacttcgagcgcgagacggatatcaagcttccaccgttgggtcaatatgctgtggga
aatctcttcttcaagccagatgaggaaactttacaagaatcaaagaaacaattggaagag
atctcagagtcactgggattaagagtactggggtggcgagagcctcctaaagattctact
cttcttggtcctgctgctgcatctcgtgagccgatcatattgcagcccttcgtagtgcta
gcatctgcatatggcccaggaaattcgccagaaactaccgatcctgagctatttgatgag
aaacatttcgagagacaactttttgtactccgaaagcgtgcaacccataccattggttta
cacaattggttctacttgtgctccctatctaacaaaaacattgtttataaaggacaactc
gcccctgtacaggtttatcagtatttctatgatctggtgaacgccgattacgaagcccat
tttgctcttgtacattcacgtttttctacaaatactttcccttcatgggatcgtgctcaa
ccattacgatgggcagctcacaatggtgaaatcaacacccttcgaggaaataagaactgg
atgcgtgctcgagaaggtgtgatgcaatcagatgttttcggcgacgaccttgaatcattg
tacccgattgtcgaaggtggtggctccgactctgctgcatttgataatgttctcgagtta
ctcactatcaacggtgtcctttctctacctgaagctgttatgctgatggtgcctgaagcg
tggcaggacaatgccgccatggatccagccaaggctgctttctatgagtgggccgcttgt
caaatggaaccttgggatggacctgcattgttcaccttcgccgatggtagatactgtggt
gcaaatcttgataggaacggtcttcgaccatgtagatactatgtcatggatgatgacaga
atcatttgcgcttctgaggtcggtactatccaagtggatccagaacgtgttatcctcaag
ggccgtctgcaaccaggaaagatgcttctcgtcgacaccgtcgcggggcgcatcatcgat
gatgcagagttgaagaacactgtcgctaagcgacacgatttccgatcttggcttcacaag
gaactcgtcagcctacccaaggttcatgaaaaactgattgcccaaggtgtcgttgacttg
gaccccaagccatctgatagtactattcaggaggatgctcttctgaaggcttttggctat
acgtttgagcaggtttcgttgcttcttgcaccgatggcgtctgacgaaaaggaagcactt
ggttccatgggtaacgacgcacctcttgcatgtcttgccaatgctcctcgtctgttgtac
gagtactttcgccagctgtttgcccaggtcaccaaccctccgattgaccccattagagaa
gctattgtcatgtccctcgactgttatgtcggtcctcaaggaaacttgttaggaatggag
tcatcacagtgcggtagattgttactgccaacacctatcctctctattcccgagtttaac
gctctcaaaaacatcaacaagttctatccaaaatggacatccagggtcattgatctgaca
tttccaagatccgaaggggttgatggatacattagacatttggattacatctgcgagcaa
gccaccgctgctatcgaaaacaacgattcaataatcattctttccgatcgtgcaacatgt
gccgaccgagtctcagtgtcaactctccttgcttccggaatggtccatcaccatcttgtg
aacaacaagtggcgatcacacgctgctttggtagtcgaaactgctgaagcccgtgaggtt
caccacatgtgcgtgcttgttggatatggtgtagatgccgtcaatccataccttgcaatg
gaatgcatcatcaagcttaaccgtgaaggtctaatcagaaagaagcttagtgacgaccag
ctcattcgcaactacaagtactctgccgatggtggtattctcaaggtcatgagtaaaatg
ggtatctctacacttgccagttacaaaggtgctcaaattttcgaagccctaggcgttgac
gatacggttgtggaccgatgtttcaagggtactgcaacgagaatcaagggtataactttt
gaacaaattgccgaagatgctttcagattccatgagaacggtttcccatcacgatacact
gttagaattccaggcctcgttgaatctggcgagtatcattggcgtgatggtggcgaacct
cacattaacgatcctacatctattgccaacattcaagatgccgttagaacgaagaacgat
aagtcgtacgaggcttactctctttccgaatacgagcagatcaaatcatgcacattaaga
ggtcttcttgatttcaattttgaggagagcaatccagttccaattgaccaagtcgagcca
tggacagagattgtcagaagattctgtactggtgccatgtcatatggttctatctccatg
gaggcacattccactctcgctgttgcaatgaatcgcctcggtggtaaatctaacacgggt
gaaggtggtgaggatccagaacgttccgaggttatgtcaaatggtgatactatgagatca
gctatcaagcaagtcgcatctggaagatttggtgttacctccaactacctcgctgattca
gatgagcttcaaatcaagatggctcaaggtgctaaacctggagaaggtggtgagcttcct
ggccacaaagtatctcagtccattgccagaacccgtcattctactcctggtgttggtctc
atttccccacctcctcatcatgacatttactccattgaggatttgaaacaattgatctac
gatctcaagtgtgccaatcctcgttctagagtatctgttaagctagtatccgaaaccggt
gtgggtatcgttgcttctggtgttgccaaagcaaaggccgatcacatcttgatttctgga
catgacggtggaactggcgcttctcgatggactggtatcaaatatgccggtttgccatgg
gagcttggtcttgccgagactcatcagactttagttttgaatgatctccgtggtcgtgtc
gtcgttcaaactgatggtcaacttcgaactggtcgtgatgttgccattgcatgtttactt
ggtgccgaagaatggggttttgctactacccctttgattgccatgggttgtatcatgatg
aggaaatgtcacttgaacacctgcccggttggtttagccactcaggatcctgagctacga
aagaagttcaagggtactccagagcacgttatcaactttttctactacattgccaatgag
ctcagagccatcatggcaaagcttggttttagaacgatcaacgaaatggttggacacgcc
gaatgtctaagagtacgggatgatcttcgaacaaagaagacaagcaatatagatctctct
cttattttgactcctgctcataaactcagacctggagttgctactttcaacgttcgcaaa
caagatcaccgactttacgtccgccttgacaacaagttgatttccgaggcagaattaact
cttgataagggtctaccatcacgaattgagtgtgacattgtcaatactgatcgtgctatg
ggcacttctttgtcatatcagatttcgaagagatatggtgaggatggattgcctatggac
accgtacacgtcaatatcaagggatcagctggtcaatccttcggtgctttccttgctccc
ggtgttaccttggagcttgaaggtgacgcaaacgactacgtaggaaagggtctttcaggt
ggtcgtttgattgtctacccgccccgttccgccgttttcaaggctgaagagaacgttatt
gttggtaacgtctgcctttatggtgcgactagcggaactgtcttcttccgtggtgttgct
gccgagagatttgccgtccgaaactctggagccactgcagtagttgagggtgttggtgac
catggttgcgagtacatgactggtggtcgtgttctcatcttgggctcaactggacgtaac
ttcgctgccggtatgtctggtggtatcgcgtacattctcgatatccagcaagatttcatg
tccaagctgaacacagagatggttgaggcttcgggtattgatgacccagctgagattgca
ttcgttcgaagcttgatcgaagatcaccaccactacactggctctgagcttgctgcacgc
attcttctcgacttcaacagagcactgcgccggttcgtcaaggttctacctgttgattac
aagcgtgtccttcaagaagaagctgccaaggctgctgaagccaagaaggcaagatttgct
ttgccattccttccaggaaatccatcccgtgaacttcatgagaagaaccataaggagaac
aagaagccatctgatctccaggatatcgaggagactattggagatgctgccgttgaaaaa
aagcgatctttggttttggacaaaactaagggttttatgaagtatcaacgtcgatccgag
aaatatcgctcagccaagactagaactcgcgattgggctgaactttccaagcgcctcgat
gaagatgagctcaaatatcaagctgctcgttgcatggactgtggtgttccattctgtcaa
tctgactcgggttgcccaatttccaacattattcctaaatggaacgaattactttttgcg
ggccaatggagggatgctcttaaccgtcttttgcttaccaacaatttccctgaatttact
ggtcgtgtctgccccgccccctgcgaaggtgcatgtgtccttggtatcaacgaagatcct
gttggaatcaagtccattgaatgtgctatcattgaccgtggtttcgacatgggttggatg
gttccacaggaaccaaaagtccgcactggcaagactgttgccattatcggctctggacca
gctggtcttgcttgcgccgatcagctcaataaagctggccacaaagtcactgtctacgag
cgagctgaccgagctggaggtttgctaatgtacggtattccaaacatgaagcttgacaag
aagatcgtcaagcgtcgtaccgattttatggctgctgagggaatcacattcaagactaac
gtcgcagttggtcaagatgtccagcttatggatctcaaggctgaaaatgacgcagtggtg
atcgctactggagccactgttgctcgtgatctaccaattaagaaccgaagcctcgaaggt
attcacttcgccatgcaattcttgcaccgcaacaccaagtccctgcttgactcggagctt
gctgataacgaatacatctccgccaaggataagcatgtcgttgttattggtggtggtgac
actggaaatgactgcattggtacttccgttcgtcacggtgccaaatcggtcacaaacttt
gagcttttacctcagccaccaaatgagcgcgcccgtgacaacccatggcctcaatggcca
cgagtctaccgtgtagactatggacatactgaggttaagcaacacatgggcaaagatcct
cgtgaatactgtgtcatgtctgaagagtttgttgatgatggaactggaaaggtcaagggt
atcaacactatccgtgtcgaatggaccagatcttccactggtggttgggacatgaagaaa
atcgaaggatcccagcaattcttcccagctgatcttgtgctcttgtctatgggcttcctt
ggtcccgaggatcgtgttcttggtgatgaaattgagaaggatggacgcaagaatgtcaag
acagctcctggaaaatactccaccaatgtcgagggtatatttgccgccggagattgtcgc
cgtggacaatctctcatcgtttggggtatcaacgaaggtagacaatgtgctagagagtgc
gatcgctacttggaaggatcctcttctttgcctgtcactggtggtatcgttaagagcacc
gcatccgaaatctttggtcgagatcctaaacgtgagatcttaggacgtgctgatcgtgct
cctatccaactcatcgcagctgctgcgacataa

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