Dynamic Metabolic Adjustments and Genome Plasticity Are Implicated in the Heat Shock Response of the Extremely Thermoacidophilic Archaeon<i>Sulfolobus solfataricus</i>

Tachdjian, Sabrina; Kelly, Robert M.

doi:10.1128/jb.00080-06

Cited by 67 publications

(118 citation statements)

References 55 publications

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“…5), whereas cells arrested by acetate showed elevated levels of Orc1-2 and low levels of Orc1-1 and Orc1-3 (1); resumption of growth after arrest resulted in elevated Orc1-1 and -3 and greatly reduced Orc1-2. Several laboratories have reported microarray analyses of the response of the Sulfolobus transcriptome to a range of physiological stresses such as UV treatment, viral infection, and heat shock (21)(22)(23)(24). Interestingly, these studies have revealed modulation of Orc1 gene transcript and/or protein levels; similar to that seen with microarray analysis of acetate-treated cells (25).…”

Section: Discussionsupporting

confidence: 48%

Chromosome replication dynamics in the archaeon Sulfolobus acidocaldarius

Duggin

McCallum

Bell

2008

Proc. Natl. Acad. Sci. U.S.A.

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The ''baby machine'' provides a means of generating synchronized cultures of minimally perturbed cells. We describe the use of this technique to establish the key cell-cycle parameters of hyperthermophilic archaea of the genus Sulfolobus. The 3 DNA replication origins of Sulfolobus acidocaldarius were mapped by 2D gel analysis to near 0 (oriC2), 579 (oriC1), and 1,197 kb (oriC3) on the 2,226-kb circular genome, and we present a direct demonstration of their activity within the first few minutes of a synchronous cell cycle. We also detected X-shaped DNA molecules at the origins in log-phase cells, but these were not directly associated with replication initiation or ongoing chromosome replication in synchronized cells. Whole-genome marker frequency analyses of both synchronous and log-phase cultures showed that origin utilization was close to 100% for all 3 origins per round of replication. However, oriC2 was activated slightly later on average compared with oriC1 and oriC3. The DNA replication forks moved bidirectionally away from each origin at Ϸ88 bp per second in synchronous culture. Analysis of the 3 Orc1/Cdc6 initiator proteins showed a uniformity of cellular abundance and origin binding throughout the cell cycle. In contrast, although levels of the MCM helicase were constant across the cell cycle, its origin localization was regulated, because it was strongly enriched at all 3 origins in early S phase.Archaea ͉ cell cycle ͉ DNA replication

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Section: Discussionsupporting

confidence: 48%

Chromosome replication dynamics in the archaeon Sulfolobus acidocaldarius

Duggin

McCallum

Bell

2008

Proc. Natl. Acad. Sci. U.S.A.

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“…In yeast, a heat shock transcription factor was found to coordinate expression of proteasome proteins to control proteasome synthesis under thermal stress, although the impact on this on CP constitution was not determined (18). Recent results from our lab showed that when S. solfataricus was shifted from optimal (80°C) to supraoptimal (90°C) temperatures, the transcription of ORFs encoding CP proteins (␣, ␤1, and ␤2) was unaffected throughout the 60-min period following the temperature shift (40). It was also noted that the transcriptional levels of CP proteins in S. solfataricus were much higher than in P. furiosus under normal or stressed conditions, although the ORF encoding S. solfataricus PAN decreased significantly following the temperature shift.…”

Section: Discussionmentioning

confidence: 97%

Role of the β1 Subunit in the Function and Stability of the 20S Proteasome in the Hyperthermophilic ArchaeonPyrococcus furiosus

et al. 2007

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The hyperthermophilic archaeon Pyrococcus furiosus genome encodes three proteasome component proteins: one ␣ protein (PF1571) and two ␤ proteins (␤1-PF1404 and ␤2-PF0159), as well as an ATPase (PF0115), referred to as proteasome-activating nucleotidase. Transcriptional analysis of the P. furiosus dynamic heat shock response (shift from 90 to 105°C) showed that the ␤1 gene was up-regulated over twofold within 5 minutes, suggesting a specific role during thermal stress. Consistent with transcriptional data, two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that incorporation of the ␤1 protein relative to ␤2 into the 20S proteasome (core particle [CP]) increased with increasing temperature for both native and recombinant versions. For the recombinant enzyme, the ␤2/␤1 ratio varied linearly with temperature from 3.8, when assembled at 80°C, to 0.9 at 105°C. The recombinant ␣؉␤1؉␤2 CP assembled at 105°C was more thermostable than either the ␣؉␤1؉␤2 version assembled at 90°C or the ␣؉␤2 version assembled at either 90°C or 105°C, based on melting temperature and the biocatalytic inactivation rate at 115°C. The recombinant CP assembled at 105°C was also found to have different catalytic rates and specificity for peptide hydrolysis, compared to the 90°C assembly (measured at 95°C). Combination of the ␣ and ␤1 proteins neither yielded a large proteasome complex nor demonstrated any significant activity. These results indicate that the ␤1 subunit in the P. furiosus 20S proteasome plays a thermostabilizing role and influences biocatalytic properties, suggesting that ␤ subunit composition is a factor in archaeal proteasome function during thermal stress, when polypeptide turnover is essential to cell survival.

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“…Additional components of the heat-shock (HS) response in this organism include adaptive heat resistance by pre-treatment (Trent et al 1990) and heat-induced shifts in the proteome (Cerchia et al 2000). In a related species, Sulfolobus solfataricus, the HS response transcriptome associated with a nonlethal temperature shift involved approximately one-third of the genome (Tachdjian and Kelly 2006). However, transcription factors that control thermotolerance are missing in crenarchaeotal genomes such as those characterized in the other major archaeal phylum, the Euryarchaeota (Thompson et al 1999;Vierke et al 2003;Liu et al 2007).…”

Section: Introductionmentioning

confidence: 99%

“…Finally, while VapC5 from several species of Mycobacteria have undergone structural (Miallau et al 2009) and in vivo characterization, a biologic function has yet to be identified (Robson et al 2009). In S. solfataricus, the strong and rapid heat-shock induction of certain vapBC loci (Tachdjian and Kelly 2006), combined with preliminary information on an uncomplemented vapBC mutant (Cooper et al 2009), provided the impetus to investigate the function of the toxin and antitoxin belonging to a single family member, vapBC6, and a role in thermotolerance.…”

Section: Introductionmentioning

confidence: 99%

“…In archaea, there are three toxin-antitoxin families that have been identified: RelBE, Phd/Doc, and VapBC . The Vap (Virulence associated protein) family make up z40% of all TAs in prokaryotes , with at least 26 identified in S. solfataricus (Tachdjian and Kelly 2006;Jorgensen et al 2009). While the target and cognate protease have been identified for E. coli RelBE and Phd/Doc families, the VapBC family, although the most abundant of all the TAs, has no known targets nor proteases .…”

Section: Introductionmentioning

confidence: 99%

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VapC6, a ribonucleolytic toxin regulates thermophilicity in the crenarchaeote Sulfolobus solfataricus

Maezato¹,

Daugherty²,

Dana³

et al. 2011

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The phylum Crenarchaeota includes hyperthermophilic micro-organisms subjected to dynamic thermal conditions. Previous transcriptomic studies of Sulfolobus solfataricus identified vapBC6 as a heat-shock (HS)-inducible member of the Vap toxinantitoxin gene family. In this study, the inactivation of the vapBC6 operon by targeted gene disruption produced two recessive phenotypes related to fitness, HS sensitivity and a heat-dependent reduction in the rate of growth. In-frame vapBC6 deletion mutants were analyzed to examine the respective roles of each protein. Since vapB6 transcript abundance was elevated in the vapC6 deletion, the VapC6 toxin appears to regulate abundance of its cognate antitoxin. In contrast, vapC6 transcript abundance was reduced in the vapB6 deletion. A putative intergenic terminator may underlie these observations by coordinating vapBC6 expression. As predicted by structural modeling, recombinant VapC6 produced using chaperone cosynthesis exhibited heat-dependent ribonucleolytic activity toward S. solfataricus total RNA. This activity could be blocked by addition of preheated recombinant VapB6. In vivo transcript targets were identified by assessing the relative expression of genes that naturally respond to thermal stress in VapBC6-deficient cells. Preferential increases were observed for dppB-1 and tetR, and preferential decreases were observed for rpoD and eIF2 gamma. Specific VapC6 ribonucleolytic action could also be demonstrated in vitro toward RNAs whose expression increased in the VapBC6-deficient strain during heat shock. These findings provide a biochemical mechanism and identify cellular targets underlying VapBC6-mediated control over microbial growth and survival at temperature extremes.

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Dynamic Metabolic Adjustments and Genome Plasticity Are Implicated in the Heat Shock Response of the Extremely Thermoacidophilic ArchaeonSulfolobus solfataricus

Cited by 67 publications

References 55 publications

Chromosome replication dynamics in the archaeon Sulfolobus acidocaldarius

Chromosome replication dynamics in the archaeon Sulfolobus acidocaldarius

Role of the β1 Subunit in the Function and Stability of the 20S Proteasome in the Hyperthermophilic ArchaeonPyrococcus furiosus

VapC6, a ribonucleolytic toxin regulates thermophilicity in the crenarchaeote Sulfolobus solfataricus

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