KEGG   Pseudoalteromonas sp. MT33b: H3302_16950
Entry
H3302_16950       CDS       T10969                                 
Name
(GenBank) malate synthase G
  KO
K01638  malate synthase [EC:2.3.3.9]
Organism
psmb  Pseudoalteromonas sp. MT33b
Pathway
psmb00620  Pyruvate metabolism
psmb00630  Glyoxylate and dicarboxylate metabolism
psmb01100  Metabolic pathways
psmb01110  Biosynthesis of secondary metabolites
psmb01120  Microbial metabolism in diverse environments
psmb01200  Carbon metabolism
Module
psmb_M00012  Glyoxylate cycle
Brite
KEGG Orthology (KO) [BR:psmb00001]
 09100 Metabolism
  09101 Carbohydrate metabolism
   00620 Pyruvate metabolism
    H3302_16950
   00630 Glyoxylate and dicarboxylate metabolism
    H3302_16950
Enzymes [BR:psmb01000]
 2. Transferases
  2.3  Acyltransferases
   2.3.3  Acyl groups converted into alkyl groups on transfer
    2.3.3.9  malate synthase
     H3302_16950
SSDB
Motif
Pfam: MS_TIM-barrel MSG_insertion MS_C MS_N OPA1_C
Other DBs
NCBI-ProteinID: QMW16679
LinkDB
Position
2:complement(183051..185228)
AA seq 725 aa
MTTTLSLNGLSVDQQLAQFVEQQLLPGTDISPAAFWQGFADIVNELTPINRALLEKREQL
QAKIDNYHKQQPVWDAANYQRFLEEIGYLVPEPASFKIETEHVEPEIANTAGPQLVVPVS
NARFALNAANARWGSLYDALYGTDVLSEDDGAEKGTAYNPVRGFKVMAFARQFLDKALPL
ANGSHIESTSYAIVNNELLITLRDSSQVRLAHPEQLVGYQGEAQNPSAILLKNNGLHVEL
QIDHHHPIGQADKAGLKDVVLEAALTTIMDCEDSVAAVDAEDKVNVYKNWLGLMQGNLVE
AFNKDGKTIERRLAEDRQYQGINGETVTLKGRSMMFVRNVGHLMTNPAIQDSEGNDVFEG
IMDAIITSTAALHDLKGTHGLKNSSAHSINIVKPKMHGPEEVAFTNTLFTRVEQMLGLPA
NTIKMGIMDEERRTSANLKACIYEAKNRVVFINTGFLDRTGDEIHTSMQAGVVLPKGAIK
LEPWISAYEDRNVDIGLATGLSGKAQIGKGMWPMPDKMALMMEQKIGHPKSGANTAWVPS
PTAATLHAMHYHDIDVFACQKTLMDRKEASLTRLLTPPLMKDPSTLSKEDIQAELDNNAQ
GILGYVVRWIDQGIGCSKVPDINHVGLMEDRATLRISSQHMANWLYHGVCNEEQIRKTMA
RMAKVVDGQNEGDPAYTNMADSAESLAQSVAYQAALALVLEGVKQPSGYTEPLLHAFRIK
YKSQH
NT seq 2178 nt   +upstreamnt  +downstreamnt
atgaccaccactctctcactaaatgggttaagtgttgaccagcagctagcacagttcgtt
gaacaacaattgctacctggtacagacatttctccagctgcgttttggcaaggctttgcc
gatattgttaatgagttaactcctatcaatcgggcgcttttagaaaaacgcgaacaactg
caagccaagattgataactaccataaacagcagccggtatgggatgcagccaattaccaa
cgtttccttgaggagattggctacctggtgccagagcccgccagtttcaaaattgaaacc
gaacacgtagagcccgaaatagccaatacagcaggccctcagttagttgtgcctgttagt
aatgcacgctttgcactgaatgcagctaatgcacgctggggctccttgtacgatgcgttg
tacggcaccgacgtgctcagtgaagacgatggcgcagaaaaaggcactgcatacaatcct
gtgcgaggctttaaagtaatggcttttgcacgccaattccttgataaagcgctgccttta
gccaatggctcacacattgaaagtaccagttacgccattgtgaataacgagctacttatc
accttgcgtgatagcagccaagtgcgtctggcacacccagagcaattggttggttatcaa
ggtgaagcacaaaatccgagtgctattcttttgaaaaataatggcttacatgttgagcta
caaatcgatcatcatcacccaattggacaagcagacaaagcgggcctcaaagatgttgta
cttgaagcagcactaaccaccattatggactgcgaagattctgttgctgcggtcgatgct
gaagacaaagttaatgtctacaaaaactggcttggtttgatgcaaggcaaccttgttgaa
gcattcaacaaagatgggaagactattgaacgtcgcttagctgaagaccgccaatatcag
ggtattaatggcgaaacggtgaccctaaaagggcgaagcatgatgtttgtgcgtaacgta
ggccacttaatgacaaacccagcaattcaagatagcgaggggaatgatgtgtttgaaggc
ataatggatgccatcatcaccagtaccgcagccctgcatgacttaaaaggcacgcacggc
cttaaaaattcgtcagctcacagcatcaatattgttaaacccaaaatgcacggcccagaa
gaagtggccttcaccaataccctatttacacgtgttgaacagatgcttggtttacctgca
aacaccataaaaatggggattatggacgaagagcgccgcacttcagcaaatttaaaagcc
tgtatttacgaagctaaaaaccgtgttgtgtttattaacacaggtttcttagaccgtaca
ggtgatgaaattcatacctcaatgcaagcaggtgtcgtactgcctaaaggcgctataaaa
ctagaaccttggatcagtgcttacgaagaccgtaatgtcgatattggccttgcaacaggc
ctcagtggtaaagcgcaaattggtaaaggtatgtggccaatgcctgataaaatggcgttg
atgatggaacaaaaaattggccacccgaaaagcggggctaataccgcgtgggtgccctct
cctactgcggctacactgcatgcaatgcattatcatgatattgatgtatttgcctgtcaa
aagacactgatggaccgtaaagaagcaagcctcacacgcttacttacccccccactgatg
aaagacccaagtacgttatcaaaagaagatatccaagccgagcttgataacaatgcacaa
ggcattttagggtacgttgtgcgctggattgatcaaggtattggttgctcaaaagtgcca
gatatcaaccatgtaggcttaatggaagaccgtgcaacgctgcgtatttcaagccagcat
atggcgaactggctgtatcatggtgtatgcaatgaagagcaaattcgtaaaacgatggca
cgtatggctaaagtcgtcgatgggcaaaacgaaggggatccagcttacaccaatatggct
gactcagccgaaagcctagcacaaagtgttgcgtaccaagcagcattagcccttgtttta
gaaggcgttaaacagccaagtggttatactgaaccattactgcatgcgtttcgtataaag
tataagtctcaacattaa

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