2012-04-30
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R-HSA-1222685
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Cathelicidin LL-37 binds to bacterial cell wall
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BibTex
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2012-04-30
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R-HSA-1222491
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Lactoferrin scavenges iron ions
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BibTex
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2012-04-30
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R-HSA-1222407
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Superoxide and nitric oxide react to peroxynitrite
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BibTex
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2012-04-30
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R-HSA-1222376
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NOX2 generates superoxide from oxygen
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BibTex
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2012-04-30
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R-HSA-1222516
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Intraphagosomal pH is lowered to 5 by V-ATPase
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BibTex
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2012-04-30
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R-HSA-1222353
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Protonation of superoxide
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BibTex
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2012-04-30
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R-HSA-1222686
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Nitric oxide diffuses into the phagosome
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BibTex
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2012-04-30
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R-HSA-1222662
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Nitric oxide enters the bacterium
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BibTex
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2012-04-30
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R-HSA-1222342
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Hydroperoxyl enters the bacterium
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BibTex
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2012-04-30
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R-HSA-1222411
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Peroxynitrite oxidizes Peptide-Methionine residues
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BibTex
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2012-04-30
|
R-HSA-1470073
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Peroxynitrite enters the bacterium
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BibTex
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2012-04-30
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R-HSA-1222512
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Nitric oxide oxidizes to nitrosyl ion
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BibTex
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2012-04-30
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R-HSA-1222384
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Glutathione scavenges nitrosyl
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BibTex
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2012-04-30
|
R-HSA-8942052
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Superoxide and nitric oxide react to peroxynitrite in the phagosome
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BibTex
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2012-04-30
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R-HSA-1222704
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KatG reduces H2O2
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BibTex
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2012-04-30
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R-HSA-1222469
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SodC reduces superoxide to H2O2
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BibTex
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2012-04-30
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R-HSA-1222462
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SodB reduces superoxide to H2O2
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BibTex
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2012-04-30
|
R-HSA-1222341
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H2O2 gets scavenged by unsaturated lipid
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BibTex
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2012-04-30
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R-HSA-1222346
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AhpC reduces H2O2
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BibTex
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2012-04-30
|
R-HSA-1222523
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SodB gets secreted
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BibTex
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2012-04-30
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R-HSA-1222526
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AhpC reduces peroxidated lipids
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BibTex
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2012-04-30
|
R-HSA-1222738
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Carboxymycobactin gets secreted
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BibTex
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2012-04-30
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R-HSA-1222722
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Mycobactin is exported
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BibTex
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2012-04-30
|
R-HSA-1222641
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Carboxymycobactin binds LTF:2xFe3+:2xCO3(2-)
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BibTex
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2012-04-30
|
R-HSA-8951549
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Carbocymycobactin binds Fe3+ from LTF:2xFe3+:2xCO3(2-)
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BibTex
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2012-04-30
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R-HSA-1222325
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Carboxymycobactin and mycobactin exchange their iron load
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BibTex
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2012-04-30
|
R-HSA-1222597
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Loaded mycobactin gets imported
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BibTex
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2012-04-30
|
R-HSA-8951552
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LTF:2xCO3(2-) dissociates from Carbocymycobactin:Fe3+
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BibTex
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2012-04-30
|
R-HSA-1562604
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BfrA stores iron
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BibTex
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2012-04-30
|
R-HSA-1562603
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BfrB stores iron
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BibTex
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2012-04-30
|
R-HSA-1222399
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Iron is reduced and separates from mycobactin
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BibTex
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2012-04-30
|
R-HSA-1222594
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Mycothiol scavenges nitrosyl
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BibTex
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2012-04-30
|
R-HSA-1222723
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Nitric oxide is oxidized to nitrate
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BibTex
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2012-04-30
|
R-HSA-1222755
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Peroxynitrite is reduced to nitrite by Tpx
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BibTex
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2012-04-30
|
R-HSA-1500804
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Peroxynitrite is reduced by AhpE
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BibTex
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2012-04-30
|
R-HSA-1222583
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MscR reduces nitrosomycothiol to ammonia
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BibTex
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2012-04-30
|
R-HSA-1500817
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Glutathione is taken up by the bacterium
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BibTex
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2012-04-30
|
R-HSA-1222363
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MsrA/B reduces peptide-methionine S/R-sulfoxides
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BibTex
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2012-04-30
|
R-HSA-1222712
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Nitrosoglutathione gets cleaved to Cys(NO)-Gly
|
BibTex
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2012-04-30
|
R-HSA-1222431
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Peroxynitrite is reduced to nitrite by AhpC
|
BibTex
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2012-04-30
|
R-HSA-1500761
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Nitrogen dioxide is reduced to NO by F420
|
BibTex
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2012-04-30
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R-HSA-1222690
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DlaT reactivates AhpD
|
BibTex
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2012-04-30
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R-HSA-1222655
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AhpD reactivates AhpC
|
BibTex
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2012-04-30
|
R-HSA-1222417
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TrxA reactivates AhpC
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BibTex
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2012-04-30
|
R-HSA-1222644
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TrxA/B1 reactivates Tpx
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BibTex
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2012-04-30
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R-HSA-1222485
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TrxB reactivates TrxA
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BibTex
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2012-04-30
|
R-HSA-1500781
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Fgd1 reactivates F420
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BibTex
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2012-04-30
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R-HSA-1222412
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lpdC dimer reactivates dlaT
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BibTex
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2010-11-25
|
R-MTU-936667
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sulfate binds to SubI outside the membrane
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BibTex
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2010-11-25
|
R-MTU-936729
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sulfate is activated to APS
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BibTex
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2010-11-25
|
R-MTU-936631
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sulfate uptake in the cytosol
|
BibTex
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2010-11-25
|
R-MTU-936583
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APS is phosphorylated to PAPS
|
BibTex
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2010-11-25
|
R-MTU-936659
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PAPS is dephosphorylated to APS
|
BibTex
|
2010-11-25
|
R-MTU-936590
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sulfur transfer to carrier protein
|
BibTex
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2010-11-25
|
R-MTU-936747
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cleavage of L-cysteine from carrier protein
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BibTex
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2010-11-25
|
R-MTU-936665
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OPS is added to the carrier sulfide
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BibTex
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2010-11-25
|
R-MTU-937192
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Cysteine from cystathionine and vice versa
|
BibTex
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2010-11-25
|
R-MTU-936655
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sulfite results from reduction of APS
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BibTex
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2010-11-25
|
R-MTU-936703
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sulfite is reduced to sulfide
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BibTex
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2010-11-25
|
R-MTU-936745
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deacetylation of O-acetylserine and sulfhydrylation using CysK2
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BibTex
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2010-11-25
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R-MTU-936615
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acetylation of serine
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BibTex
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2010-11-25
|
R-MTU-936642
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deacetylation of O-acetylserine and sulfhydrylation using CysK1
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BibTex
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2010-11-25
|
R-MTU-879281
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mycothiol is cleaved to acetylcysteine and glucosaminylinositol
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BibTex
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2010-11-25
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R-MTU-879322
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mycothione is reduced to mycothiol
|
BibTex
|
2010-11-25
|
R-MTU-879327
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acetylglucosamine-inositol is deacetylated by Mca
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BibTex
|
2010-11-25
|
R-MTU-879274
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acetylglucosamine-inositol-phosphate is dephosphorylated
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BibTex
|
2010-11-25
|
R-MTU-879298
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acetylglucosamine is transferred from UDP-GlcNAc onto inositol-1-phosphate
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BibTex
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2010-11-25
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R-MTU-879331
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glucose-6-phosphate is converted to inositol-1-phosphate
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BibTex
|
2010-11-25
|
R-MTU-879319
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glucosaminyl-inositol and cysteine are ligated to desacetylmycothiol
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BibTex
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2010-11-25
|
R-MTU-879248
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desacetylmycothiol is acetylated to mycothiol using acetyl-CoA
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BibTex
|
2010-11-25
|
R-MTU-879245
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mycothiol binds formaldehyde and is dehydrogenated
|
BibTex
|
2010-11-25
|
R-MTU-879293
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formylmycothiol hydrolyzes into mycothiol and formate
|
BibTex
|
2010-11-25
|
R-MTU-879311
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mycothiol S-conjugate is cleaved into mercapturic acid and GlcN-Ins
|
BibTex
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2010-11-25
|
R-MTU-879273
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mycothiol conjugates with electrophilic xenobiotic
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BibTex
|
2010-11-25
|
R-MTU-879266
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mycothiol is oxidized to mycothione
|
BibTex
|
2010-11-25
|
R-MTU-964842
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Shikimate results from hydration of DHS
|
BibTex
|
2010-11-25
|
R-MTU-964851
|
Dehydratation of DHQ yields DHS
|
BibTex
|
2010-11-25
|
R-MTU-964914
|
DHQ from DAHP dephosphorylation
|
BibTex
|
2010-11-25
|
R-MTU-964912
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DHAP from Ery4P and PEP
|
BibTex
|
2010-11-25
|
R-MTU-964939
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Phosphorylation of shikimate
|
BibTex
|
2010-11-25
|
R-MTU-964886
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EPSP from shikimate 3-phosphate
|
BibTex
|
2010-11-25
|
R-MTU-964884
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Dephosphorylation of EPSP yields chorismate
|
BibTex
|
2010-11-25
|
R-MTU-868622
|
Glucose is transferred from UDP-glucose onto glucose-6-phosphate
|
BibTex
|
2010-11-25
|
R-MTU-868709
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Maltose is converted to trehalose
|
BibTex
|
2010-11-25
|
R-MTU-868657
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Glucanotrehalose is hydrolyzed to 1,4-alpha-glucan and trehalose
|
BibTex
|
2010-11-25
|
R-MTU-868658
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1,4-alpha-glucan is converted to glucanotrehalose
|
BibTex
|
2010-11-25
|
R-MTU-868608
|
Trehalose-6-phosphate is hydrolyzed to trehalose
|
BibTex
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