Protein Content of Polyhedral Organelles Involved in Coenzyme B ₁₂ -Dependent Degradation of 1,2-Propanediol in Salmonella enterica Serovar Typhimurium LT2

Abstract: Salmonella enterica forms polyhedral organelles during coenzyme B 12 -dependent growth on 1,2-propanediol (1,2-PD). Previously, these organelles were shown to consist of a protein shell partly composed of the PduA protein, the majority of the cell's B 12 -dependent diol dehydratase, and additional unidentified proteins. In this report, the polyhedral organelles involved in B 12 -dependent 1,2-PD degradation by S. enterica were purified by a combination of detergent extraction and differential and density gradi… Show more

“…Although the pathway of 1,2-PD degradation appears quite straightforward, the catabolism of this small molecule is in fact a very elaborate process (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003).…”

“…Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). These polyhedra are 100-150 nm across, (Havemann et al, 2002;Havemann & Bobik, 2003;Leal et al, 2003a).…”

“…Included are the pocR and pduF genes (which encode a positive transcriptional regulator and a 1,2-PD diffusion facilitator, respectively) (Bobik et al, 1992;Chen et al, 1995) as well as the adjacent, but divergently transcribed, pdu operon, which includes 21 additional genes (Bobik et al, 1999;Jeter, 1990). Of these 21 genes, six encode enzymes of the 1,2-PD degradative pathway (pduCDEPQW) (Bobik et al, 1997(Bobik et al, , 1999Leal et al, 2003a) and seven are thought to encode structural proteins required for polyhedral body formation (pduABJKNTU) (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). Based on high sequence similarity, the pduGH genes are likely to encode a protein required for reactivation of diol dehydratase following the breakdown of AdoCbl (Bobik et al, 1999).…”

“…Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). These polyhedra are 100-150 nm across, (Havemann et al, 2002;Havemann & Bobik, 2003;Leal et al, 2003a).Adding to the complexity of 1,2-PD degradation is the fact that this process requires systems for the acquisition and maintenance of AdoCbl. S. enterica can obtain AdoCbl by de novo synthesis and by uptake from the environment (Roth et al, 1996).…”

“…Subsequently, propionaldehyde is converted to propanol and propionate by alcohol dehydrogenase, CoA-dependent propionaldehyde dehydrogenase, phosphotransacylase and propionate kinase (Obradors et al, 1988;Toraya et al, 1979). This pathway generates one ATP, an electron sink for the regeneration of NAD and an intermediate (propionyl-CoA) that can serve as a carbon and energy source via the methylcitrate pathway (Horswill & Escalante-Semerena, 1997).Although the pathway of 1,2-PD degradation appears quite straightforward, the catabolism of this small molecule is in fact a very elaborate process (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003).…”

Biochemical evidence that the pduS gene encodes a bifunctional cobalamin reductase

“…Although the pathway of 1,2-PD degradation appears quite straightforward, the catabolism of this small molecule is in fact a very elaborate process (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003).…”

“…Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). These polyhedra are 100-150 nm across, (Havemann et al, 2002;Havemann & Bobik, 2003;Leal et al, 2003a).…”

“…Included are the pocR and pduF genes (which encode a positive transcriptional regulator and a 1,2-PD diffusion facilitator, respectively) (Bobik et al, 1992;Chen et al, 1995) as well as the adjacent, but divergently transcribed, pdu operon, which includes 21 additional genes (Bobik et al, 1999;Jeter, 1990). Of these 21 genes, six encode enzymes of the 1,2-PD degradative pathway (pduCDEPQW) (Bobik et al, 1997(Bobik et al, , 1999Leal et al, 2003a) and seven are thought to encode structural proteins required for polyhedral body formation (pduABJKNTU) (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). Based on high sequence similarity, the pduGH genes are likely to encode a protein required for reactivation of diol dehydratase following the breakdown of AdoCbl (Bobik et al, 1999).…”

“…Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). These polyhedra are 100-150 nm across, (Havemann et al, 2002;Havemann & Bobik, 2003;Leal et al, 2003a).Adding to the complexity of 1,2-PD degradation is the fact that this process requires systems for the acquisition and maintenance of AdoCbl. S. enterica can obtain AdoCbl by de novo synthesis and by uptake from the environment (Roth et al, 1996).…”

“…Subsequently, propionaldehyde is converted to propanol and propionate by alcohol dehydrogenase, CoA-dependent propionaldehyde dehydrogenase, phosphotransacylase and propionate kinase (Obradors et al, 1988;Toraya et al, 1979). This pathway generates one ATP, an electron sink for the regeneration of NAD and an intermediate (propionyl-CoA) that can serve as a carbon and energy source via the methylcitrate pathway (Horswill & Escalante-Semerena, 1997).Although the pathway of 1,2-PD degradation appears quite straightforward, the catabolism of this small molecule is in fact a very elaborate process (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003). Recent studies have shown that a polyhedral body is involved in AdoCbl-dependent 1,2-PD degradation by S. enterica (Bobik et al, 1999;Havemann et al, 2002;Havemann & Bobik, 2003).…”

Biochemical evidence that the pduS gene encodes a bifunctional cobalamin reductase

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