KEGG   Burkholderia mallei 2002734299: BM45_2939
Entry
BM45_2939         CDS       T03872                                 
Name
(GenBank) delta-1-pyrroline-5-carboxylate dehydrogenase
  KO
K13821  RHH-type transcriptional regulator, proline utilization regulon repressor / proline dehydrogenase / delta 1-pyrroline-5-carboxylate dehydrogenase [EC:1.5.5.2 1.2.1.88]
Organism
bmab  Burkholderia mallei 2002734299
Pathway
bmab00250  Alanine, aspartate and glutamate metabolism
bmab00330  Arginine and proline metabolism
bmab01100  Metabolic pathways
bmab01110  Biosynthesis of secondary metabolites
Module
bmab_M00970  Proline degradation, proline => glutamate
Brite
KEGG Orthology (KO) [BR:bmab00001]
 09100 Metabolism
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    BM45_2939
   00330 Arginine and proline metabolism
    BM45_2939
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03000 Transcription factors [BR:bmab03000]
    BM45_2939
Enzymes [BR:bmab01000]
 1. Oxidoreductases
  1.2  Acting on the aldehyde or oxo group of donors
   1.2.1  With NAD+ or NADP+ as acceptor
    1.2.1.88  L-glutamate gamma-semialdehyde dehydrogenase
     BM45_2939
  1.5  Acting on the CH-NH group of donors
   1.5.5  With a quinone or similar compound as acceptor
    1.5.5.2  proline dehydrogenase
     BM45_2939
Transcription factors [BR:bmab03000]
 Prokaryotic type
  Ribbon-helix-helix
   Other families
    BM45_2939
SSDB
Motif
Pfam: Aldedh Pro_dh Pro_dh-DNA_bdg PRODH PutA_1st RHH_1
Other DBs
NCBI-ProteinID: AJX03626
UniProt: A0AAX1X8L0
LinkDB
Position
1:complement(3252722..3256651)
AA seq 1309 aa
MASTTLGVKVDDLLRARLKDAASRLERTPHWLIKQAIFAYLERIEHGQLPPELSGHTGVT
DLSDSHADGDDDGAPHPFLEFAQSVQPQSVLRAAITAAYRRPEPECVPFLIGEARLPASL
ASDVQAMAAGLVEALREKSSGGGVEGLIHEFSLSSQEGVALMCLAEALLRIPDRATRDAL
IRDKISKGDWRSHVGHAPSLFVNAATWGLMITGKLVTTNSEAGLSSALTRLIGKGGEPLI
RKGVDMAMRLMGEQFVTGETISEALANSRKYEARGFRYSYDMLGEAATTEEDALRYYASY
EQAIHAIGKAAGGRGIYEGPGISIKLSALHARYSRSQQERTMNELLPRVRSLALLARRYD
IGLNIDAEEADRLELSLDLLEALCFDPELAGWNGIGFVVQAYQKRCPFVIDYLVDLARRS
RHRLMIRLVKGAYWDSEIKRAQVDGLEGYPVYTRKIYTDVSYLACAKKLLAAPDAVYPQF
ATHNAYTLAAIYHLAGQNYYPGQYEFQCLHGMGEPLYEEVTGRDKLNRPCRVYAPVGTHE
TLLAYLVRRLLENGANTSFVNRIADKTVSVKELVADPVEDALKVVPLGAPHAKIALPREL
YGASRVNSMGLDLSNEHRLASLSSALLASAHHPWRAAPMLADDALAHAAPRDVRNPADLR
DVVGTVSEATPDEVSAALAHAVAAAPIWQATPVDARADCLARAADLLEAQMHTLMGLIVR
EAGKSLPNAIAEIREAVDFLRYYSAQIRDEFSNDTHRPLGPVVCISPWNFPLAIFMGQVA
AALAAGNTVLAKPAEQTPLIAAQAVRLLRDAGVPAGAVQLLPGNGETVGAALVADPRTRA
VMFTGSTEVARLINKTLSSRLDPDGRPIPLIAETGGQNAMIVDSSALAEQVVADVLQSSF
DSAGQRCSALRVLCLQDDVADRTLTMLKGAMRELALGNPDRLSVDVGPVIDADAKRTIDT
HIAAMKDKGHAVTQLEMPDACAQGTFVPPTIIEIGNVDELKREVFGPVLHVVRYRRSGLD
KLLEQIRATGYGLTLGIHTRIDETIAHVISRAHVGNIYVNRNVIGAVVGVQPFGGEGLSG
TGPKAGGALYLQRLLATRPAGLPRSLEAALVADAPQEGETRDNPSAALTALRDWLIEQRE
PALAARCDGYLSHVLAGATAVLSGPTGERNTYTLGARGTVLCIAATASGARAQFAAALAT
GNRALFAGAAGEALAAALPAQLKAHAGVRKQADAAFDAVLFEGDSDELLALVKEVAQRPG
PIVSVQGVAAGAFENGGDEDYALERLLTERSVSVNTAAAGGNANLMTIG
NT seq 3930 nt   +upstreamnt  +downstreamnt
atggcaagcaccacactgggcgtcaaagtcgacgatctgctgcgcgcgcgtctgaaggac
gcggcgtcgcggctcgagcgcactcctcactggctgatcaagcaggcgatcttcgcgtat
ctcgagcggatcgagcatggtcagcttccgccggagctctccggccacacgggcgtcacc
gatctgtccgacagccacgccgacggcgacgacgacggcgcgccgcacccgttcctcgaa
ttcgcgcagagcgtgcagccgcagtcggtgctgcgcgcggcgatcacggccgcgtaccgg
cggccggagcccgaatgcgtgccgttcctgatcggcgaggcgcggctgcccgcgagcctc
gcgtcggacgtgcaggcaatggcggcgggccttgtcgaggcgctgcgcgagaagagctcg
ggcggcggcgtcgaggggctgatccatgaattctcgctgtcgagccaggagggcgtcgcg
ctgatgtgcctcgccgaggcgctgctgcggattcccgatcgcgcgacgcgcgacgcgctg
attcgcgacaagatcagcaagggcgactggcgctcgcacgtcggccacgcgccgtcgctg
ttcgtcaacgcggccacctggggcctgatgatcaccggcaagctcgtcacgacgaacagc
gaggcgggcctgtcgtcggcgctcacgcggctgatcggcaagggcggcgagccgttgatc
cgaaagggcgtcgacatggcgatgcgcctgatgggcgagcagttcgtcacgggcgagacg
atctccgaagcgctcgcgaacagccgcaagtacgaggcgcgcggcttccgttactcgtac
gacatgctcggcgaagcggcgaccaccgaagaggacgcgctgcgctactacgcgtcgtac
gagcaggcgatccacgcgatcggcaaggcggcgggcggccgcggcatctacgagggcccg
ggcatctcgatcaagctctcggcgctgcatgcgcgctactcgcgctcccagcaggaacgc
acgatgaacgagctgctgccgcgcgtgcgctcgctcgcgctgctcgcgcgccgctatgac
atcggcctgaacatcgacgccgaggaggcggaccggctcgagctctcgctcgatctgctc
gaggcgctgtgcttcgatccggagctcgccggctggaacggcatcggcttcgtcgtgcag
gcgtaccagaagcgctgcccgttcgtgatcgactaccttgtcgacctcgcgcgccgcagc
cgccatcgcctgatgatccgcctcgtgaagggcgcgtactgggattccgagatcaagcgc
gcgcaggtggacggcctcgaaggctatccggtctatacgcgcaagatctacaccgacgtg
tcctacctcgcgtgcgcgaagaagctgctcgccgcgccggacgccgtgtatccgcagttc
gcgacgcacaacgcgtacacgctcgccgcgatctatcacctcgcgggccagaactactac
cccggccagtacgagttccagtgcctgcacgggatgggcgagccgctgtacgaggaagtc
accggccgcgacaagctgaaccgcccatgccgcgtgtacgcgcccgtcggcacgcacgag
acgctgcttgcgtatctcgtgcgccgcctgctggagaacggcgcgaacacgtcgttcgtg
aaccggatcgccgacaagaccgtgtcggtgaaggaactggtggccgatccggtcgaggat
gcgctgaaggtcgtgccgctcggcgcgccgcacgcgaagattgcgctgccgcgcgagctg
tacggcgcgtcgcgcgtcaattcgatgggcctcgatctgtcgaacgagcaccggctcgcg
tcgctgtcgtcggcgctgctcgcgagcgcgcatcatccgtggcgcgccgcgccgatgctc
gccgacgacgcgctcgcccacgccgcgccgcgcgacgtgcgcaatccggccgatctgcgc
gacgtcgtcggcacggtgagcgaagcgacgcccgacgaggtgagcgcggcgctcgcgcac
gcggtcgcggccgcgccgatctggcaggcgacgcccgtcgacgcgcgcgcggactgcctc
gcgcgcgcggcggacctgctcgaagcgcagatgcacacgctgatgggcctgatcgtgcgc
gaggcgggaaaatcgctgccgaacgcgatcgccgagatccgcgaagcggtcgacttcctg
cgctactactcggcgcagatccgcgacgaattctcgaacgacacgcaccgcccgctcggc
cccgtcgtctgcatcagcccgtggaacttcccgctcgcgatcttcatgggccaggtcgca
gccgccctggcggcgggcaacacggtgctcgcgaagccggccgagcagacgccgctgatc
gccgcgcaggcggtgcgcctgctgcgcgacgccggcgtgccggcgggcgcggtgcaactg
ctgccgggcaacggcgagacggtgggcgcggcgctcgtggcggacccccgcacgcgcgcg
gtgatgttcaccggctcgaccgaagtcgcgcgcctcatcaacaagacgctgtcgtcgcgc
ctcgatccggacggcaggccgatcccgctgatcgccgagacgggcggccagaacgcgatg
atcgtcgattcgtcggcgctcgccgagcaggtggtcgccgacgtgctgcagtcgtcgttc
gactcggccggtcaacgctgttcggcgctgcgcgttctgtgtctgcaggacgacgtcgcg
gatcgcacgctgacgatgctcaagggcgcgatgcgcgagctcgcgctcggcaatccggac
cggctgtcggtggacgtcggcccggtgatcgacgccgacgcgaagcgcacgatcgacacg
cacatcgcggcgatgaaggacaaggggcacgcggtcacgcagctcgagatgccggacgca
tgcgcgcagggcacgttcgtgccgccgacgatcatcgagatcggcaacgtcgacgagctc
aagcgtgaagtgttcggcccggtgctgcacgtcgtgcgttatcgccgcagcggcctcgac
aagctgctcgagcagatccgcgcgacgggctatgggctcacgctcggcattcacacgcgg
atcgacgagacgatcgcgcacgtgatctcgcgcgcgcacgtcggcaacatctacgtgaac
cgcaacgtgatcggcgcggtggtgggcgtgcagccgttcggcggcgaagggctgtcgggc
acggggccgaaggcgggcggcgcgctctacttgcagcgcctgctcgcgacgcgcccggcc
gggctgccgcgctcgctcgaggcggcgctcgtcgccgatgcgccgcaggaaggcgagacg
cgcgataatccatccgctgcgctcaccgcgctgcgcgactggctgatcgagcagcgcgag
ccggcgctcgccgcgcgctgcgacggctatctgtcgcacgtgctcgcgggcgcaaccgcc
gtgctttcagggccgacgggcgagcgcaatacgtatacactcggcgcgcgcggcacggtg
ctgtgcatcgcggcgacggcaagcggcgcgcgcgcgcagttcgcggcggcgctcgccacc
ggcaaccgcgcgcttttcgcgggcgcggcgggcgaggcgctcgccgcggcgctgccggcg
caactgaaggcgcacgcgggcgtgagaaagcaggcggacgcggcgttcgacgcggtgctg
ttcgaaggcgacagcgacgagttgctcgcgctcgtgaaggaagtcgcgcagcgcccgggg
ccgatcgtgtcggtgcagggcgtcgcggcgggcgcgttcgagaacggcggcgacgaagac
tacgcgctcgagcggctcctcaccgagcgctcggtgagcgtgaacaccgcggcggcaggc
ggcaatgcgaatttgatgacgattggctga

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