Fusarium musae: J7337_000450 Help Entry J7337_000450      CDS       T09538                                  Symbol GLT1 Name (RefSeq) glutamate synthase [NADH]   KO K00264   glutamate synthase (NADH) [EC:1.4.1.14] Organism fmu  Fusarium musae Pathway fmu00250   Alanine, aspartate and glutamate metabolism fmu00910   Nitrogen metabolism fmu01100   Metabolic pathways fmu01110   Biosynthesis of secondary metabolites fmu01230   Biosynthesis of amino acids Brite KEGG Orthology (KO) [BR:fmu00001]  09100 Metabolism   09102 Energy metabolism    00910 Nitrogen metabolism     J7337_000450 (GLT1)   09105 Amino acid metabolism    00250 Alanine, aspartate and glutamate metabolism     J7337_000450 (GLT1) Enzymes [BR:fmu01000]  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)      J7337_000450 (GLT1) BRITE hierarchy SSDB OrthologParalogGene clusterGFIT Motif Pfam:  GATase_2 Glu_synthase Glu_syn_central GXGXG Fer4_20 Pyr_redox_2 NAD_binding_8 Pyr_redox Pyr_redox_3 Amino_oxidase DAO FAD_oxidored HI0933_like FAD_binding_3 FAD_binding_2 AlaDh_PNT_C Thi4 GIDA Motif Other DBs NCBI-GeneID:  68308307 NCBI-ProteinID:  XP_044685905 UniProt:  A0A9P8DRW0 LinkDB All DBs Position 1:1429853..1436297 Genome browser AA seq 2113 aa AA seqDB search MGLNEEFDDRHIQTEAEQQPYIPYEYQTENNDSWAGALPVKQGLYDPSYEKDACGVGFAC HIKGKPSHKIVSDARNLLCNMTHRGAVGSDARDGDGAGVMTSIPHRFFIKNFEKEEDIKL PPLGQYAVGNLFFKPDEETLQESKRQLEDVAESLGLRVLGWRRPPVDSTLLGPAAKSREP IIAQPFVVLASAYGTGNAPEMTDPEKFDERLFERQLYILRKRATQSIGLHNWFYLCSLSN KNIVYKGQLAPVQVYSYYHDLVNADYEAHFALVHSRFSTNTFPSWDRAQPLRWAAHNGEI NTLRGNKNWMRAREGVMQSDIFKEELEQMYPVVEDGGSDSAAFDNVLELLTINGVLSLPE AVMLMVPEAWQGNQHMDPKKAAFYEWAACQMEPWDGPALFTFADGRYCGANLDRNGLRPC RFYVMDDDRIICASEVGTIPVEPETVIQKGRLQPGRMLLVDTQAGRIIDDKELKEAVSSR YDFRAWLDSELITLPKVVEIMEQALDLAPKLDDKAIQADPLLLSYGYTHEQVSLLLAPMA ADEKEALGSMGNDAPLACLTQAPRLLYDYFRQLFAQVTNPPIDPIRESIVMSLECYVGPQ GNLLEMDASQCGRLLLPSPILSIEEFNAVKNMSNKYSEWTVKTIDLTFPKNQGIQGYIKH LDEICNEASAAIESRDRVIVLSDRNTSADRVPVSAVLASAMVHHHLVSNKWRSMVALVVE TAEAREVHHMCVLLGYGADAINPYLAMECILKLNREGLIKKKTTNETLIRNYKHSCDGGI LKVMSKMGISTLASYKGAQIFEILGLDETVVERCFRGTASRIQGMTFELIAEEAFRFHER GFPTRETILPSGLPESGEYHWRDGGEPHVNDPTSIANIQDAVRTKNDKSYEAYSRSEYEQ IKNCTLRGLLDFKFEDCTPVPIDQVEPWTDIVRRFCTGAMSYGSISMESHSTLAVAMNRL GGKSNTGEGGEDPERSQRMPNGDTMRSAIKQVASGRFGVTSAYLADSDELQIKMAQGAKP GEGGELPGHKVSKSIARTRHSTPGVGLISPPPHHDIYSIEDLKQLIYDLKCSSPRSRVSV KLVSEVGVGIVASGVAKAKADHILISGHDGGTGASRWTGIKYAGLPWELGLAETHQTLVL NDLRGRVVVQTDGQLKTGRDVALACLLGAEEWGFATAPLIAMGCVFMRKCHLNTCPVGIA TQDPELRKKFTGTPEHVINFFYYVANELRAIMAQLGFRTINEMVGHVEVLKMRDDLRTNK TANIDLSLLLTPAHKLRPGVATFNVRKQDHKLHVRLDNKLISESELTLDKGLPSRIECDI VNTDRAMGTSLSYHISKRYGEAGLPMDTVHVNIKGSAGQSFGAFLAPGVTLELEGDANDY VGKGLSGGRLIIYPPRSAVFKSEENILIGNTCLYGATTGTCFFRGVAAERFAVRNSGATA VVEGVGDHGCEYMTGGRVVVLGSTGRNFAAGMSGGIAYILDVHGDFHSKLNGEMVEASGL EDPAEIAFVRGLIEDHHHYTGSERAARILVDFNRALPRFIKILPVDYKRVLEEEAAKAAE AKRAEYNLPAVSGVQHKKSEKVAKLQDLEEAVGDNAAEKKRALVLDKTRGFKMYKRRQEK YRPVNSRLKDWAELSSRLDEDELKYQSARCMDCGVPFCQSETGCPISNIIPKWNELVFQN QWKDALNRLLMTNNFPEFTGRVCPAPCEGACVLGINEDPVGIKSIECAIIDRGFEMGWMV PQPPKVRTGKTVAIIGSGPAGLAAADQLNRAGHLVTVYERADRLGGLLMYGIPNMKLDKR IVKRRTDFMASEGIIFKTGVAVGEEGHPSLNDLRASNSAVVIATGATVARDLPIKGRQLD GIHYAMEFLHKNTKSLLDSELADNTYISAKGKDVVVIGGGDTGNDCIGTSLRHGAKSVTN FELLPQPPPERANDNPWPQWPRIYRVDYGHTEVRQHTGKDPREYCIMSEEFMDDGSGKVK GINTIRVEWTKSPSGGWDMKKVEGSQQFFPADLVLLAMGFLGPEARVLGDEIEKDARKNV KTAPGKYSTNLEGVFAAGDARRGQSLIVWGINEGRQAAREIDLYLEKYTNLPVTGGITKR TAQEIFSQIKVEA NT seq 6342 nt NT seq  +upstreamnt  +downstreamnt atgggcctaaacgaggaattcgacgaccgacatattcaaaccgaagccgagcaacaacca tacataccttatgagtatcagactgaaaacaatgactcgtgggctggtgccttgccggtg aagcagggtctctatgacccttcttatgagaaggatgcttgcggtgtcggctttgcttgc cacatcaagggcaagcctagccacaagattgttagtgatgcccgtaaccttctctgcaac atgacccaccgtggtgccgtgggatctgatgcacgagatggtgatggtgctggtgttatg acatccatcccccaccggttcttcatcaagaactttgagaaggaggaggacattaagctg cctcccctgggccagtacgccgtgggaaacctgttttttaagcccgacgaggagactctc caagagtccaagaggcagctggaagatgttgccgagtcgctgggcctccgagtcctagga tggcgaaggcctcctgtcgactcgactcttctaggacctgctgccaaatcgcgtgagccc atcatcgctcagccttttgttgttctggcctctgcctacggtactggaaatgctcctgag atgaccgaccctgagaagtttgacgaacgcttgtttgagagacagctgtacatccttcga aagcgcgccactcagagcattggtcttcacaactggttctatctctgctccctttcaaac aagaacattgtttacaagggtcagctcgctcctgtccaggtttactcttactaccatgat cttgtcaacgctgattacgaggctcattttgctctggtgcactctcgtttctctacaaac acattcccctcatgggaccgtgctcagcctctccgatgggctgcccacaacggtgaaatc aacactctacgaggaaacaagaactggatgcgcgcccgtgagggtgtcatgcagtctgat atcttcaaggaggagctcgagcagatgtaccctgttgtcgaggatggcggttccgattct gctgctttcgataacgttctcgagcttcttaccatcaacggtgttctctctcttcccgaa gctgttatgctcatggttcctgaggcctggcaaggcaaccagcacatggaccccaagaag gctgcattctacgagtgggctgcttgccagatggagccttgggatggccctgctctgttc acattcgctgatggccgatactgcggtgccaaccttgaccgaaatggtctccgaccttgc cgtttctacgtgatggacgatgatcgtatcatctgtgcttccgaggtcggaaccattccc gtcgagcccgagactgtcattcagaagggtcgccttcagcccggtcgtatgttgttggtc gatacacaggctggtcgcatcatcgatgacaaggaattgaaggaggctgtttcgagtcga tatgatttccgagcctggctcgatagtgaattgattactctgcccaaggtcgttgagatc atggagcaggccctggaccttgcccccaaacttgatgacaaggctatccaggctgaccct cttctcctctcttacggttatactcacgagcaggtttccctgttgctcgcccctatggcc gctgatgagaaggaagctctgggatccatgggtaacgatgctccccttgcctgcctgacc caggctcctcgtctcctctatgactacttccgacagctcttcgcccaggtcactaaccct cccattgatcctatccgagagtccattgtcatgtctcttgagtgttatgttggtccccag ggtaacctgctagagatggacgcttcccagtgtggtcgtcttttgctccccagccctatc ctctccatcgaagagttcaatgccgtcaagaacatgtccaacaagtactctgagtggact gtcaagactattgatctgaccttccccaagaaccaaggtattcagggctatatcaagcac ctcgatgagatctgtaacgaggcctctgccgccatcgagtctcgcgaccgtgtcattgtg ctttccgaccgcaatacctcagctgaccgcgtgcctgtttccgctgtcctcgcttccgct atggttcaccatcacctcgtcagcaacaagtggcgatccatggttgctctcgttgtcgag actgctgaggctcgtgaggttcaccacatgtgtgtactcctcggttacggtgctgatgcc atcaacccttaccttgccatggagtgcattctcaagttgaaccgcgagggtctcatcaag aagaagactaccaacgagactcttatccgtaactacaaacactcctgcgatggtggtatt ctcaaggttatgagtaagatgggtatctctactcttgcctcttacaagggtgcacagatc ttcgaaatcctgggtcttgatgagacagttgttgagcgatgcttcaggggtacggcttct cgtattcagggtatgactttcgagcttattgctgaggaggctttccgattccatgagcgt ggtttccccacccgcgagactatcctcccctccggtcttcctgagtctggcgagtaccac tggcgagatggtggcgagccccacgtcaacgaccctacctcgattgccaacatccaggac gccgtccgcaccaagaacgacaagtcctatgaggcttactcccgctccgagtatgagcag atcaagaactgtaccctccgtggtcttcttgacttcaagtttgaggactgcactcctgtt cccatcgaccaggtcgagccttggactgacatcgtccgacgcttctgcactggcgccatg tcttatggttccatctccatggagtctcactctactctcgccgttgccatgaaccgtctt ggcggcaagtctaacactggtgagggtggtgaggatcctgagcgatctcagcgtatgcct aacggtgacaccatgcgttccgctatcaagcaggtcgcttctggccgtttcggtgtcact tctgcctacctggctgactctgacgagcttcagatcaagatggctcagggtgccaagcct ggtgagggtggtgagcttcctggacacaaggtgtccaagtctattgctcgcacccgtcac tccacccctggtgtcggtcttatctcgcctcctccccaccacgacatttactccatcgag gatctcaagcagctgatctacgatcttaagtgctctagccctcgatcccgagtctctgtc aagcttgtgtctgaggtcggtgtcggtatcgtcgcctctggtgtcgccaaggccaaggcc gaccacatcctgatctctggtcacgatggtggtactggtgcctctcgatggactggtatc aagtacgccggtcttccttgggagttgggtctggctgagactcatcagactctggttctc aacgaccttcgtggtcgtgtcgttgtccagactgatggtcagctcaagactggtcgtgat gttgccctggcttgtctgcttggtgctgaggaatggggctttgccaccgctcctctcatc gctatgggctgtgtctttatgagaaagtgccatttaaacacttgccctgttggtatcgct acccaggatcctgagcttcgcaagaagttcactggaactcccgagcatgtcatcaacttc ttctactatgtggccaacgagctccgagctatcatggctcagcttggtttccgaaccatc aacgagatggttggccacgtcgaggtcctgaagatgcgtgatgaccttcgaaccaacaag acagccaacattgacctgtctcttctcttgacacctgcacacaagctccgacctggtgtt gccaccttcaacgtccgaaagcaggaccacaagctccacgtccgactggataacaagctt atctccgagtctgagttgactctcgacaagggtctcccctccagaatcgagtgtgacatc gtcaacactgaccgagcaatgggtacttcactttcttaccacatctccaagcgatacggc gaggctggactgcccatggacactgtccatgttaatatcaagggctccgctggtcagtcc ttcggtgctttccttgctcctggtgtcacccttgagctcgagggtgatgccaacgattat gttggcaagggcttgtctggcggtcgactgatcatctaccctccccgctcagctgtcttc aagtcggaggagaacattctcattggtaacacttgcttgtacggtgctactactggcact tgcttcttccgtggtgttgctgccgagcgtttcgctgtccgaaactccggtgctaccgcc gttgttgaaggtgtcggtgaccacggttgtgagtacatgactggtggccgcgttgttgtt cttggatctactggccgcaactttgctgctggtatgtctggtggtattgcctacatcttg gatgttcacggtgatttccactccaagctcaacggcgagatggttgaggccagtggtctc gaggatcctgctgagattgctttcgttcgtggtctcattgaggatcatcatcactacact ggctccgagcgcgcagctcgcatcctggttgactttaaccgagcccttcctcgattcatc aagattcttcccgtcgactacaagcgtgtcctcgaggaggaggctgccaaggctgctgaa gccaagcgtgctgagtacaaccttcctgctgtctctggtgtccagcacaagaagtccgag aaggttgccaagctccaggatctcgaggaggctgtcggtgacaacgctgccgagaagaag cgtgcccttgtgctcgacaagactcgaggcttcaagatgtacaaacgccgtcaggagaag taccgccctgtcaactctcgtctcaaggactgggctgagctgagctctcgtctggacgag gacgagctcaaataccagtccgctcgttgcatggactgtggtgtacctttctgtcagtcc gagactggctgccctatctccaacattatccctaaatggaatgaactggtgtttcaaaac caatggaaggatgctctcaaccgtctcctgatgaccaacaacttccccgagttcactggc cgcgtttgtccggctccttgcgagggtgcttgtgtcttgggtattaacgaggaccctgtt ggtattaagtctatcgagtgcgccatcattgatcgcggtttcgagatgggatggatggtt cctcaacctcccaaggtccgaactggcaagaccgtcgcgatcattggatccggtcctgct ggtctggccgcggctgatcagctcaaccgtgccggccacctcgttactgtttacgagaga gctgatcgtctcggaggtctcctcatgtacggtattcccaacatgaagcttgataagcgt attgtcaagcgccgtaccgacttcatggcctctgagggtatcatcttcaagactggcgtt gctgttggtgaggagggtcacccttctctaaacgaccttcgagccagcaacagcgccgtc gtcattgcaaccggtgctaccgttgcccgcgaccttcctatcaagggccgccagctcgat ggtattcactacgctatggaattcctccacaagaacaccaagtctctccttgactctgag cttgcggacaacacctacatctccgccaagggcaaggatgttgttgtcatcggtggtggc gacactggcaacgattgtattggtacttctctccgtcatggtgccaagtccgtcaccaac ttcgagcttctgccccagcctcctcccgagcgtgccaacgacaacccttggcctcagtgg cctcgtatctaccgtgttgactacggccacactgaggttcgccagcacactggcaaggat cctcgtgagtactgcatcatgtctgaggagttcatggatgatggctctggcaaggtcaag ggcatcaacaccatccgcgtggagtggaccaagtctcctagcggtggttgggacatgaag aaggttgagggctctcagcaattcttccctgccgacctcgtcctacttgccatgggtttc cttggacctgaggctcgtgttcttggtgacgagatcgagaaggatgctcgcaagaacgtc aagacagcccctggcaagtacagcaccaaccttgagggcgtcttcgctgctggtgacgcc cgccgcggtcaatctcttattgtctggggtatcaacgaaggtcgccaggctgctcgtgag attgatctctatctcgagaagtataccaacctgcctgtcactggtggtatcaccaagcgc actgcgcaggagattttcagccagatcaaggtcgaggcttga

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