Alain Levine scite author profile

The physiological role of proteins phosphorylated on serine/threonine/tyrosine (Ser/Thr/Tyr) residues or the identity of the corresponding kinases and phosphatases is generally poorly understood in bacteria. As a first step in analysing the importance of such phosphorylation, we sought to establish the nature of the Ser/Thr/Tyr phosphoproteome in Bacillus subtilis, using in vivo labelling with [(32)P]-orthophosphate, one-unit pH 2-DE, combined with MS. Highly reproducible 2-D profiles of phosphoproteins were obtained with early stationary-phase cells. The 2-D profiles contained at least 80 clearly labelled spots in the pH range 4-7. Forty-six spots were analysed by MS (confirmed in most cases by LC-MS/MS), identifying a total of 29 different proteins, with 19 identified for the first time as bacterial phosphoproteins. These phosphoproteins are implicated in a wide variety of cellular processes, including carbon and energy metabolism, transport, stress and development. Significant changes to the profiles were obtained as a result of cold, heat or osmotic shock, demonstrating that, in stationary-phase cells, the phosphoproteome is dynamic. An initial comparative study indicated that at least 25 [(32)P]-labelled spots were also stained by Pro-Q Diamond, with apparently six additional phosphoproteins uniquely detected by Pro-Q.

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Inactivation of prophage λ repressor in Vivo

Bailone

Levine

Devoret

1979

Journal of Molecular Biology

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A checkpoint involving RTP, the replication terminator protein, arrests replication downstream of the origin during the Stringent Response in Bacillus subtilis

Levine¹,

Autret²,

Sj³

1995

Molecular Microbiology

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Regulation of DNA replication in Bacillus subtilis involves a post-initiation mechanism which is subject to control by the Stringent System, an essential regulatory network, mediated by the alarmone, ppGpp. In detailed studies using DNA-DNA hybridization procedures, we have now shown that, following the induction of the Stringent Response, replication is blocked downstream of the origin, on the left, close to the hut marker (-175 kb) and on the right, beyond the soft10 marker (+199 kb). In addition, we provide evidence that inhibition of replication under these conditions requires the replication terminator protein (RTP). In a mutant lacking RTP, a protein normally involved in termination of chromosomal replication through recognition of specific terminator sequences, replication continues past the sites normally blocked by the Stringent Response. These data strengthen the argument that this second level of control of DNA replication occurs at specific sites, the Strigent Terminus (STer) sites, either side of orlC. Such sites are presumably related to the sequence involved in RTP recognition at the terminus, terC. We propose that the binding of RTP must be modulated, perhaps through the action of ppGpp, to recognize post-initiation control sequences during the Stringent Response, in order to block replisome movement. This, therefore, acts as a checkpoint in chromosome elongation.

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Alain Levine

The stringent response blocks DNA replication outside the ori region in Bacillus subtilis and at the origin in Escherichia coli

Analysis of the dynamic Bacillus subtilis Ser/Thr/Tyr phosphoproteome implicated in a wide variety of cellular processes

Inactivation of prophage λ repressor in Vivo

A checkpoint involving RTP, the replication terminator protein, arrests replication downstream of the origin during the Stringent Response in Bacillus subtilis

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