Large scale physiological readjustment during growth enables rapid, comprehensive and inexpensive systems analysis

Facciotti, Marc T.; Pang, Wyming Lee; Lo, F. T.; Whitehead, Kenia; Koide, Tie; Masumura, Ken-ichi; Pan, Min; Kaur, Amardeep; Larsen, David; Reiss, David J; Hoang, Linh; Kalisiak, Ewa; Northen, Trent; Trauger, Sunia A.; Siuzdak, Gary; Baliga, Nitin S.

doi:10.1186/1752-0509-4-64

Cited by 29 publications

(95 citation statements)

References 54 publications

(62 reference statements)

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“…salinarum PHH1 and PHH4 lack one or even Wve tbp genes and are devoid of tfbC and tfbE, it was interesting to investigate both strains in comparison to NRC-1 with respect to their growth behavior. Growth at diVerent temperatures was chosen, since global transcriptomic studies have been performed with NRC-1 Koide et al 2009;Facciotti et al 2010) and tfb and/or tbp gene knockouts help to determine the importance of the GTFs . The single-knockout strains tbpD and tfbA grow more slowly at 49°C and show a reduced viability at 56°C leading to the suggestion that TbpD and TfbA are important for heat shock response .…”

Section: Discussionmentioning

confidence: 99%

“…The simultaneous expression of these GTFs suggests that the members of each group could function together. Additional studies on the expression imply that TbpE and TfbF are the dominant GTFs during exponential growth in NRC-1 (Facciotti et al , 2010Bonneau et al 2007), and the expression of tbpF and of the alternative tfbA, B, D, E, and G genes is increased during the stationary growth phase (Facciotti et al 2010).…”

Section: Electronic Supplementary Materialsmentioning

confidence: 98%

“…Multiple and divergent GTF genes are present in the genome sequences of the haloarchaeon Halobacterium salinarum NRC-1 and the gas vesicle negative mutant strain R1 PfeiVer et al 2008a, b). The possession of multiple GTFs led to the hypothesis that the formation of diVerent TFB-TBP complexes plays a role in the regulation of transcription initiation and the GTFs constitute a regulatory network Facciotti et al 2007Facciotti et al , 2010.…”

Section: Introductionmentioning

confidence: 99%

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Expression of multiple tfb genes in different Halobacterium salinarum strains and interaction of TFB with transcriptional activator GvpE

et al. 2011

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Halobacterium salinarum NRC-1 contains multiple TBP and TFB proteins required for the recruitment of RNA polymerase for transcription initiation. The presence and the expression of genes encoding TFB were investigated in the two Hbt. salinarum strains NRC-1 and PHH1 and the mutant strain PHH4. The plasmid-encoded tfbC and tfbE genes of NRC-1 were lacking in PHH1 and PHH4. The 5'-end of the tfbF transcript was determined and contained a 5'-untranslated region of 39 nucleotides able to form a stem-loop structure. The expression of these tfb genes was studied in cultures growing at 15, 37°C and under heat shock conditions. Cold temperatures reduced growth and except for tfbF also the amounts of all tfb transcripts. However, the formation of gas vesicles increased in PHH1 and NRC-1. Heat shock reduced growth of PHH1 and NRC-1, but PHH4 was not affected. A 100-fold increase in tfbA and tfbB mRNA was observed in PHH1 and PHH4, whereas NRC-1 reduced the amounts of these transcripts and increased the expression of tfbG. All TFB proteins tested were able to interact with the transcription activator GvpE involved in gas vesicle formation that thus is able to recruit TFB to the gvp promoter.

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Section: Discussionmentioning

confidence: 99%

Section: Electronic Supplementary Materialsmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

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Expression of multiple tfb genes in different Halobacterium salinarum strains and interaction of TFB with transcriptional activator GvpE

et al. 2011

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“…From these data, we identified genes with expression responsive to growth rate and genes with expression responsive to salinity. H. salinarum is known to display several growth phase-associated transitions in cell physiology and gene expression (29). In the transition from active growth in log phase to stationary phase, H. salinarum is known to switch from aerobic to anaerobic metabolism in anticipation of nutrient limitation, generating gas vesicles to vertically relocate in the water column (29).…”

Section: Resultsmentioning

confidence: 99%

“…H. salinarum is known to display several growth phase-associated transitions in cell physiology and gene expression (29). In the transition from active growth in log phase to stationary phase, H. salinarum is known to switch from aerobic to anaerobic metabolism in anticipation of nutrient limitation, generating gas vesicles to vertically relocate in the water column (29). In the current experiments, genes involved in these processes were significantly correlated with , including the phototrophy genes for light-driven energy production under anaerobic conditions (specifically, the bacteriorhodopsin pump components bacterioopsin [bop] and retinal chromophore synthesizing phytoene synthase [crtB1]) and gas vesicle genes for flotation (gvpA1, gvpC1, gvpA2, and gvpV1).…”

Section: Resultsmentioning

confidence: 99%

Model Organisms Retain an “Ecological Memory” of Complex Ecologically Relevant Environmental Variation

Beer

Wurtmann

Pinel

et al. 2014

Appl Environ Microbiol

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bAlthough tractable model organisms are essential to characterize the molecular mechanisms of evolution and adaptation, the ecological relevance of their behavior is not always clear because certain traits are easily lost during long-term laboratory culturing. Here, we demonstrate that despite their long tenure in the laboratory, model organisms retain "ecological memory" of complex environmental changes. We have discovered that Halobacterium salinarum NRC-1, a halophilic archaeon that dominates microbial communities in a dynamically changing hypersaline environment, simultaneously optimizes fitness to total salinity, NaCl concentration, and the [K]/[Mg] ratio. Despite being maintained under controlled conditions over the last 50 years, peaks in the three-dimensional fitness landscape occur in salinity and ionic compositions that are not replicated in laboratory culturing but are routinely observed in the natural hypersaline environment of this organism. Intriguingly, adaptation to variations in ion composition was associated with differential regulation of anaerobic metabolism genes, suggesting an intertwined relationship between responses to oxygen and salinity. Our results suggest that the ecological memory of complex environmental variations is imprinted in the networks for coordinating multiple cellular processes. These coordination networks are also essential for dealing with changes in other physicochemically linked factors present during routine laboratory culturing and, hence, retained in model organisms.

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Proteomic Study of the Exponential–Stationary Growth Phase Transition in the Haloarchaea Natrialba magadii and Haloferax volcanii

et al. 2018

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The dynamic changes that take place along the phases of microbial growth (lag, exponential, stationary, and death) have been widely studied in bacteria at the molecular and cellular levels, but little is known for archaea. In this study, a high-throughput approach was used to analyze and compare the proteomes of two haloarchaea during exponential and stationary growth: the neutrophilic Haloferax volcanii and the alkaliphilic Natrialba magadii. Almost 2000 proteins were identified in each species (≈50% of the predicted proteome). Among them, 532 and 432 were found to be differential between growth phases in H. volcanii and N. magadii, respectively. Changes upon entrance into stationary phase included an overall increase in proteins involved in the transport of small molecules and ions, stress response, and fatty acid catabolism. Proteins related to genetic processes and cell division showed a notorious decrease in amount. The data reported in this study not only contributes to our understanding of the exponential-stationary growth phase transition in extremophilic archaea but also provides the first comprehensive analysis of the proteome composition of N. magadii. The MS proteomics data have been deposited in the ProteomeXchange Consortium with the dataset identifier JPST000395.

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Large scale physiological readjustment during growth enables rapid, comprehensive and inexpensive systems analysis

Cited by 29 publications

References 54 publications

Expression of multiple tfb genes in different Halobacterium salinarum strains and interaction of TFB with transcriptional activator GvpE

Expression of multiple tfb genes in different Halobacterium salinarum strains and interaction of TFB with transcriptional activator GvpE

Model Organisms Retain an “Ecological Memory” of Complex Ecologically Relevant Environmental Variation

Proteomic Study of the Exponential–Stationary Growth Phase Transition in the Haloarchaea Natrialba magadii and Haloferax volcanii

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