KEGG   Rhizoctonia solani: RhiXN_05799
Entry
RhiXN_05799       CDS       T09256                                 
Name
(RefSeq) uncharacterized protein
  KO
K13830  pentafunctional AROM polypeptide [EC:4.2.3.4 4.2.1.10 1.1.1.25 2.7.1.71 2.5.1.19]
Organism
rsx  Rhizoctonia solani
Pathway
rsx00400  Phenylalanine, tyrosine and tryptophan biosynthesis
rsx00999  Biosynthesis of various plant secondary metabolites
rsx01100  Metabolic pathways
rsx01110  Biosynthesis of secondary metabolites
rsx01230  Biosynthesis of amino acids
Module
rsx_M00022  Shikimate pathway, phosphoenolpyruvate + erythrose-4P => chorismate
Brite
KEGG Orthology (KO) [BR:rsx00001]
 09100 Metabolism
  09105 Amino acid metabolism
   00400 Phenylalanine, tyrosine and tryptophan biosynthesis
    RhiXN_05799
  09110 Biosynthesis of other secondary metabolites
   00999 Biosynthesis of various plant secondary metabolites
    RhiXN_05799
Enzymes [BR:rsx01000]
 1. Oxidoreductases
  1.1  Acting on the CH-OH group of donors
   1.1.1  With NAD+ or NADP+ as acceptor
    1.1.1.25  shikimate dehydrogenase (NADP+)
     RhiXN_05799
 2. Transferases
  2.5  Transferring alkyl or aryl groups, other than methyl groups
   2.5.1  Transferring alkyl or aryl groups, other than methyl groups (only sub-subclass identified to date)
    2.5.1.19  3-phosphoshikimate 1-carboxyvinyltransferase
     RhiXN_05799
  2.7  Transferring phosphorus-containing groups
   2.7.1  Phosphotransferases with an alcohol group as acceptor
    2.7.1.71  shikimate kinase
     RhiXN_05799
 4. Lyases
  4.2  Carbon-oxygen lyases
   4.2.1  Hydro-lyases
    4.2.1.10  3-dehydroquinate dehydratase
     RhiXN_05799
   4.2.3  Acting on phosphates
    4.2.3.4  3-dehydroquinate synthase
     RhiXN_05799
SSDB
Motif
Pfam: EPSP_synthase DHQ_synthase DHquinase_I SKI Shikimate_dh_N SDH_C Fe-ADH_2 Shikimate_DH Fe-ADH AAA_33
Other DBs
NCBI-GeneID: 67028078
NCBI-ProteinID: XP_043181047
LinkDB
Position
6:join(1125537..1125934,1126036..1126243,1126300..1127085,1127137..1128136,1128186..1128406,1128456..1130699)
AA seq 1618 aa
MATASVEHPDLTKVSILGKDSIHCGFHLTPYIAHTVLTTLPASTYVLITDTHVAKFHLAS
FEAAFNDALAARPDNSARFLTHVIPPGETSKSREGKAEIEDFLLDKSCTRDTVILALGGG
VIGDLVGFVAATFMRGVRFVQIPTTLLAMVDSSVGGKTAIDTPHGKNLIGSFWQPSYVFI
DAAFLETLPQREFVNGMAEVIKTAAIWNEDEFSMLESSAPALFAAIGSSSSTTSAGRTIA
TRSEAQALLLHVITESIGVKAHIVTLDERETGLRNLVNFGHTIGHAIEAVLTPTILHGEC
VAIGMVLEGEVARQLGVFSQVGVGRITRALKAYGLPTSTKDPRIAAVPASRLLTIDRLLD
IMKIDKKNSGPEKKIVLLSRIGKTYEERATGVKDEVIRRVLAEAVRVIPGIPRGNPVRMS
TPGSKSISNRALVLAALGNGTCRLRNLLHSDDTQVMMSALIELKGAKFAWEDGGETLVVT
GGGGAFTIPPAGKEIYLGNAGTAARFLTSVCTLVNPDSSSATASSEFPEGYTFITGNARM
KQRPCGPLVDALRANGSKVKYIESEGCLPLHIGAGGLKGGKIQLAASVSSQYVSSILLCA
PYARDEDVVLELVGGQVISQPYIDMTLAMMKTFGVQVTRRKAEDGTLLDIYDIPRAQYTN
PEKYAIESDASSATYPLAVAAMTGTTCTIENIGTSSLQGDAGFAVNVLKRMGCKVEQSET
ETTVTGPPVGQLKAIGLVDMETMTDAFLTAVALAAVCGEGSAEGLESDAPKNTTRILGIA
NQRVKECNRIRAMIDELAKFGVKTKELDDGLEVYGQPIETLNKNVSVHCYDDHRVAMAFS
VLATVVPGTILEEKRCVEKTWPNWWDDLTNKIGIDVEGIELAHQGPAAAKYNPEATIIIV
GMRGAGKTHIGGIAAASLGWKFLDADHEFEGRTGEPVSQYVRSKGWPAFRQAESQIIKDL
ISENPTRTIISTGGGIVESAANRSLLTEYGRATGPVVYVMRDVNEILNYLGSETARPAYG
EEIADVYWRREPWFREVSTHEFISYTGGFHAANGATRCEIAKACRDETARFFRQITGIKP
NLSEALAQGERSFFLSLTYPDLLPAVPSIPLLTAGADAIELRVDLLNPNGDPVTGAPNIP
PLDFVATQLSALRHTSSLPVVFTVRTASQGGAFPDTAEKEAFALYNLALRHGVEYVDVEI
SWSDKKIHDLAARKGASQILASWHDWSGNMKWNGPVVKEKYALAERVGDIVKIVGKANSI
EDNFALRAFAASHTSKPFIGINMGAEGQLSRVLNTTFTPVSHPLLPTRAAPGQMSVQDIH
TALHLNGQLPAQKFYLFGSPIAHSMSPHLHNTGFEKLGLPHKYHIFETPTITDEVKAAIR
APDFGGASVTIPLKLDIIPLLDEVSPEAKAIGAVNTVIPRKRADGSTSLFGTNTDWRAIH
DLARNNLVVGITDETTALVLGAGGTARAALYAIHALGIKTIYLFNRTRAAAQALADTFPT
FGIIPLDSLASFPKAAPTVIVSAIPATGTTTEQGSNTAGVYLPATLFKAPSGVVVEMAYK
PAVTPVLGLAAKASGWVGVRGVDILCEQGFYQYEAWTGRKAPRAAMKAKVISLYDSQQ
NT seq 4857 nt   +upstreamnt  +downstreamnt
atggccactgccagcgtcgaacatcccgatcttaccaaggtctctattctcggaaaggat
tctattcactgcggcttccatttgacaccttacattgcccacactgtcctcactaccctc
cctgcatctacttatgttctaattaccgacactcacgtcgccaagttccatctcgcgtct
ttcgaggccgcatttaacgacgctttggcggctaggcccgacaactctgcccgattcttg
acccatgtaatccctccaggcgagaccagcaaaagccgtgaaggcaaggccgagatcgaa
gacttcttgctcgacaagtcgtgcactcgcgacactgtaatcctcgcgcttggaggtgga
gtgatcggagaccttgtcggctttgttgcggccacctttatgcgtggtgtgcgcttcgtt
cagattcctaccactctattggcaatggtcgactcctctgttgggggcaagaccgccatt
gatacacctcatggcaagaatcttatcggaagcttctggcagccatcctatgttttcatc
gacgctgcattcctcgagactctcccccagcgcgagttcgtcaatggcatggccgaagtg
atcaaaaccgccgccatttggaatgaagatgaattctcgatgctcgagtcttcggcgcct
gcgctctttgctgccattggctcatcctcatccaccacctccgcgggacgaacaatcgct
acccgatcggaagctcaagcccttctccttcacgtcatcaccgagagcatcggcgtcaag
gcccatattgttaccctcgatgagcgcgagactggccttcgcaaccttgtcaactttggg
cataccatcggccatgctattgaagcagtgcttacccctactattctccacggcgaatgt
gttgctattggaatggttctcgagggcgaagttgcccggcaactcggtgtattcagtcag
gtgggcgtgggtcgtatcacccgtgctctcaaggcgtacggtctgcccacatcaaccaag
gacccacggatcgctgcggttcctgcatcgcgcctcttgaccatcgacaggctgcttgat
atcatgaagatcgacaagaagaactcgggtccagaaaagaagattgtactcctttcgcgg
ataggtaaaacttatgaagaacgtgctacgggcgtcaaggatgaagtcattcgccgcgtg
ttggccgaagccgttcgtgttatcccgggcatcccgcgcggcaaccctgtgcgcatgagc
accccaggcagcaagagtatctccaaccgtgcactcgtgctagctgctcttggaaacgga
acctgccgtcttcgaaacctcctccacagtgacgacacccaagtgatgatgagtgccctt
atcgaactgaagggggctaaattcgcatgggaagatggtggcgaaacgcttgtcgtcact
ggtggcggaggcgcatttacaatcccccctgctggcaaggagatctatcttggaaacgct
ggaactgctgctcgtttcctcactagtgtctgtacactcgtcaatcccgattcatcctca
gcgactgcatcatccgaattccccgagggctacacatttatcaccggcaatgctcgcatg
aaacaacgcccatgtgggcctcttgtcgatgctcttcgtgccaacgggagcaaagtcaag
tacatcgagagcgagggctgcttgcctctgcacatcggtgctggtggtctcaagggtggc
aagattcagctcgctgccagcgtttctagtcaatacgtctcgagtatcctcttgtgtgct
ccttatgcccgtgacgaggacgtcgtgctcgagcttgtgggcggtcaagtaatcagccag
ccttacatcgacatgactctcgcgatgatgaagacttttggtgtccaagtcactcgccgc
aaggccgaagacggtactcttcttgatatctatgacatcccacgtgcccaatacaccaac
cccgagaaatacgccatcgagagtgatgccagcagtgccacctacccgcttgctgtcgca
gctatgaccggtactacctgcacgatcgaaaacattggtacttcttcattgcagggcgat
gctggattcgctgtcaatgtcctcaaacgtatgggctgcaaggtcgagcaaagcgagacc
gaaaccaccgttaccggtcctccagttggtcaacttaaggcaatcggactggtcgatatg
gaaaccatgaccgatgcattcttaactgctgtggccttggctgcagtctgcggagaaggg
agcgctgaaggcctcgaatcggatgcacccaagaatacgactcgtatcttgggaattgcc
aatcaacgtgtcaaagagtgcaaccgtatccgtgctatgatcgacgagcttgccaagttt
ggtgttaagaccaaggaactggacgatggtctagaagtgtacggccagccgatcgagact
ctgaacaagaacgtgtcggtgcactgctacgacgaccaccgcgtggcgatggccttctct
gttctggccacggtagtcccgggtactattttggaagagaagcgctgcgtcgaaaagacc
tggccaaattggtgggacgatctgaccaataagatcggtattgatgtcgaaggcattgag
ctcgcccaccaagggccagctgccgccaaatataatcccgaggccacgatcatcattgtg
ggcatgcgcggggctggaaagactcacattggtggcatcgccgctgcatcattgggctgg
aaattcctcgacgcagaccacgaattcgaaggccgcaccggtgaacccgtgtcccaatat
gtgcgcagcaagggttggccagcattccgccaagccgaatctcagatcatcaaagatctc
atttctgagaatcctacgcgtacgatcatctcaactggaggaggaatcgtcgagtcggcc
gccaaccgctccctcttgaccgagtatggccgtgctaccggacccgtggtatacgtgatg
cgggacgtcaacgaaatcttgaactacctgggctcagagacggctcgtcctgcttatggt
gaagaaatcgcggacgtctactggcgccgtgagccctggttccgtgaagtttccacccat
gagtttatctcctacactggcgggttccatgccgccaatggcgccactcgctgtgaaatc
gccaaggcctgccgtgacgagactgcacgtttcttccgtcagattacaggtatcaagcct
aacctttccgaggcactcgcgcaaggagaacgatcattcttcctttccctaacatatccc
gacctgcttcctgccgtaccttcgattcccctcttgactgccggcgccgatgctatcgaa
ttacgtgtagatttgctgaaccccaacggcgacccggttaccggtgcccccaacattcct
cccctggactttgttgccacacaactatctgccttgcgccacacctcatctctccccgtc
gtatttaccgtccgtacggcctcccaaggcggggccttccctgatacggccgagaaggaa
gcctttgctctatataacctcgcgctcaggcatggtgtcgagtacgttgacgttgaaatc
tcatggagcgataagaagatccacgacctcgctgcacgcaagggtgcttcccagatcctc
gcatcatggcacgactggagcggcaacatgaagtggaacgggccggtggtcaaggaaaag
tatgccctcgctgaacgagtaggtgatattgtgaagattgtcggcaaggccaactcgatc
gaggacaactttgcactccgggcgtttgccgcctcgcatacttccaagcctttcattggc
atcaacatgggtgccgaaggccaactctcgcgtgtgctcaatactacattcaccccggtt
tcacatccactattaccaacccgtgccgctccgggtcagatgtcggttcaagatatccac
accgctttgcacctgaatggccaactcccggctcagaagttttacctcttcggatcgccg
attgcccactcgatgtcccctcacctccacaacactggcttcgagaagcttggcctgcct
cacaagtatcatatcttcgaaaccccaacgatcactgacgaagtcaaggccgcgattcgg
gctccggactttggtggtgcgagcgtgacgatccctctgaaactcgatatcatccctctg
ctcgacgaggtctcgcccgaggccaaggccattggcgcagttaacaccgtcattccacgc
aagcgcgccgacgggtcgaccagcctgtttggtaccaacaccgactggcgagctatccat
gatctcgcgcgcaacaaccttgtggtcggcatcacggacgagacgaccgctcttgtccta
ggtgcaggcggaaccgctcgcgcagccctgtatgctatccatgccctcggtatcaaaacg
atctatctcttcaaccgcaccagggcagctgcgcaggctctcgccgatacgttcccaacc
tttggtatcattccccttgattcgctcgcctcgttccccaaagccgctcccacagtcatt
gtctccgctattcctgccacgggtactactaccgaacagggcagcaacacggccggtgtg
tacctgcctgctacattattcaaggcaccatctggcgttgtcgtcgaaatggcgtacaaa
ccggctgtgacgcctgtactgggattggctgccaaggcttccggatgggtgggcgtgcgt
ggggtggacattctgtgtgaacaaggattctatcagtatgaggcatggactggacgaaaa
gctcctcgggcagcgatgaaagccaaggtgatttcgttgtatgatagccaacagtga

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