2015
DOI: 10.4265/bio.20.105
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Presence of Extracellular NAD<sup>+</sup> and NADH in Cultures of Wood-Degrading Fungi

Abstract: Our previous studies indicated that extracellular glycoproteins produced by some white-rot and brown-rot basidiomycetous fungi reduce Fe(III) to Fe(II) and O 2 to H 2 O 2 and produce hydroxyl radicals. The continuous generation of hydroxyl radicals requires a constant supply of O 2 and an electron donor for the reduction of oxidized forms of the glycoproteins to the reduced forms. However, electron donors for this reaction, such as NADH, have not been identified. In this study, the amounts of the extracellular… Show more

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Cited by 5 publications
(4 citation statements)
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“…Most energy-producing processes require coenzymes such as NAD, a highly abundant cellular component of bacteria that participates in electron transfer during oxidation-reduction reactions, which convert the oxidized form NAD into NADH, a strong reducing agent (Chini et al., 2017, Kido et al., 2015). NAD is oxidized or reduced by the loss or gain of two electrons, in reactions involving the removal of two hydrogen atoms (a “hydride ion” and a proton).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Most energy-producing processes require coenzymes such as NAD, a highly abundant cellular component of bacteria that participates in electron transfer during oxidation-reduction reactions, which convert the oxidized form NAD into NADH, a strong reducing agent (Chini et al., 2017, Kido et al., 2015). NAD is oxidized or reduced by the loss or gain of two electrons, in reactions involving the removal of two hydrogen atoms (a “hydride ion” and a proton).…”
Section: Discussionmentioning
confidence: 99%
“…Secretion of NAD to the extracellular milieu has been reported in diverse species, such as E . coli , Rhodobacter capsulatus (Ying, 2006), and microorganisms in activated sludge (Wos and Pollard, 2009), as well as by wood-degrading fungi and animal cells (Kido et al., 2015, Xiao et al., 2018). The redox activity of this molecule suggests its participation in efficient electron transport and extracellular turnover of NADH to NAD + (Wos and Pollard, 2009).…”
Section: Discussionmentioning
confidence: 99%
“…A localization of MopA outside of the cell seems at odds with a physiological role for NAD + . Wood degrading fungi have been shown to excrete NAD + /NADH ( Kido et al, 2015 ), but we are unaware of any similar studies demonstrating bacteria secrete the dinucleotide, although extracellular bacterial enzymes requiring NAD + /NADH have been described ( Lee et al, 1995 ; Diaz et al, 2013 ). If intracellular NAD + is involved in electron transfer, quinones could transfer electrons from a loosely membrane bound or periplasmic MopA to intracellular NAD + [as suggested for extracellular NADH stimulated superoxide production ( Diaz et al, 2013 )], and PQQ may be serving a similar role in the assay, resulting in its stimulatory effect.…”
Section: Discussionmentioning
confidence: 99%
“…Although roles for GLPs, oxalate decarboxylase, and CRO5 might be envisioned for a Fenton-based system (e.g., in Fe 3ϩ reduction, metal ion speciation, and peroxide generation, respectively), the mechanistic details are very much uncertain. In the case of GLP, Amadori-modified amino acids in GLP are proposed to serve as redox centers mediating ferric ion and oxygen reduction (34), while NADH is suggested as the physiological source of reductant based on detection of the dinucleotide in cultures (41). Production of other low-molecular-weight Fe 3ϩ -reducing compounds has been characterized in W. cocos cultures, which produce both hydroxamate-type and catechol-type chelators (14), as do other brown-rot fungi (see reference 10 for a review).…”
Section: Discussionmentioning
confidence: 99%