2003
DOI: 10.1128/jb.185.13.3935-3947.2003
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Whole-Genome DNA Microarray Analysis of a Hyperthermophile and an Archaeon: Pyrococcus furiosus Grown on Carbohydrates or Peptides

Abstract: The first complete-genome DNA microarray was constructed for a hyperthermophile or a nonhalophilic archaeon by using the 2,065 open reading frames (ORFs) that have been annotated in the genome of Pyrococcus furiosus (optimal growth temperature, 100°C). This was used to determine relative transcript levels in cells grown at 95°C with either peptides or a carbohydrate (maltose) used as the primary carbon source. Approximately 20% (398 of 2065) of the ORFs did not appear to be significantly expressed under either… Show more

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Cited by 128 publications
(136 citation statements)
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References 65 publications
(68 reference statements)
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“…At the level of GAP oxidation, three alternative enzymes have been characterized: the ubiquitous GAPDH/PGK couple, and the non-phosphorylating archaeal counterparts GAPOR and GAPN (Table 2). Detailed enzymatic characterization as well as transcription analysis in P. furiosus and T. tenax (Brunner et al 1998Lorentzen et al 2004;Schäfer and Schönheit 1993;Schut et al 2003;Van der Oost et al 1998) whose genomes encode all three GAP converting enzymes (Table 2) revealed a catabolic role for GAPN and GAPOR and an anabolic role for the GAPDH/ PGK couple. These findings have been confirmed by a recent, excellent mutational approach in the hyperthermophilic anaerobe Thermococcus kodakarensis, which harbors all three GAP converting enzymes (Matsubara et al 2006).…”
Section: -----------------------Mdtkly--idgqwvnsssgktvdkyspvtgqvigrfementioning
confidence: 99%
See 1 more Smart Citation
“…At the level of GAP oxidation, three alternative enzymes have been characterized: the ubiquitous GAPDH/PGK couple, and the non-phosphorylating archaeal counterparts GAPOR and GAPN (Table 2). Detailed enzymatic characterization as well as transcription analysis in P. furiosus and T. tenax (Brunner et al 1998Lorentzen et al 2004;Schäfer and Schönheit 1993;Schut et al 2003;Van der Oost et al 1998) whose genomes encode all three GAP converting enzymes (Table 2) revealed a catabolic role for GAPN and GAPOR and an anabolic role for the GAPDH/ PGK couple. These findings have been confirmed by a recent, excellent mutational approach in the hyperthermophilic anaerobe Thermococcus kodakarensis, which harbors all three GAP converting enzymes (Matsubara et al 2006).…”
Section: -----------------------Mdtkly--idgqwvnsssgktvdkyspvtgqvigrfementioning
confidence: 99%
“…The latter two enzymes catalyze the unidirectional direct oxidation of GAP forming 3-phosphoglycerate but differ in their co-substrate specificity [pyridine nucleotides (GAPN), ferredoxin (GAPOR)] (Brunner et al 1998;Mukund and Adams 1995;Siebers and Schönheit 2005;Van der Oost et al 1998). Biochemical studies and transcriptional data in T. tenax and Pyrococcus furiosus, which harbor all three GAP converting enzymes, revealed that GAPN and GAPOR substitute for the anabolic enzyme couple NADP + -dependent GAPDH and phosphoglycerate kinase (PGK) in these hyperthermophiles at the expense of substrate-level phosphorylation (Brunner et al 1998Lorentzen et al 2004;Schäfer and Schönheit 1993;Schut et al 2003;Van der Oost et al 1998). In S. solfataricus only two GAP converting enzymes, classical GAPDH and GAPN, were identified (Verhees et al 2003).…”
Section: Introductionmentioning
confidence: 99%
“…This would argue against a bacterial-like regulation system of the maltose system and would make the C-terminal extension of MalK obsolete. However, DNA microarray studies in P. furiosus, which contains the identical genomic region as T. litoralis (DiRuggiero et al, 2000), showed that all the genes are upregulated upon growth on maltose while trmB and malK stay upregulated even upon growth on peptide sources (Schut et al, 2003). This suggests that MalK also in the archaeal system is involved in the regulation of the expression of the mal operon, although this hypothesis awaits further experimental proof.…”
Section: The Atp-binding Proteinmentioning
confidence: 99%
“…Although the P. furiosus FNOR, like SfrAB, also catalyses NADPH-dependent benzyl viologen reduction (Ma & Adams, 1994, 2001Schut et al, 2003), the amount of NADPH-dependent benzyl viologen reductase activity in the soluble fraction of the acetate-adapted SfrAB-null strain was less than 1 % of the activity present in the wild-type strain. The apparent lack of FNOR activity in the adapted mutant despite a three-to sixfold increase in the level of its putative transcripts could have several possible explanations, including insufficient expression despite elevated mRNA levels, post-transcriptional regulation, or differences in the activity, stability or substrate specificity of the putative G. sulfurreducens FNOR relative to that of P. furiosus.…”
Section: Microarray Analysis Of the Acetate-adapted Sfrabnull Strainmentioning
confidence: 99%
“…GSU3057 and GSU3058 were previously annotated as a homotetrameric NADPHdependent glutamate synthase and a putative dihydroorotate electron transfer subunit, respectively . However, no NADPH-dependent glutamate synthase activity could be detected in either wild-type or acetateadapted SfrAB-null extracts, and GSU3057 and GSU3058 were found to be 65.6 % and 65.2 % similar, respectively, to the a and b subunits of the NADPH-dependent ferredoxin oxidoreductase (FNOR) of Pyrococcus furiosus (Ma & Adams, 1994, 2001Schut et al, 2003). Phylogenetic analysis of GSU3057 and related proteins, including SfrB, which is 36 % similar, clearly indicated that GSU3057 was more closely related to the a subunit of P. furiosus FNOR than to the small subunits of the characterized glutamate synthases (Fig.…”
Section: Microarray Analysis Of the Acetate-adapted Sfrabnull Strainmentioning
confidence: 99%