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1.
Cell ; 149(7): 1488-99, 2012 Jun 22.
Artigo em Inglês | MEDLINE | ID: mdl-22726436

RESUMO

Tubulins are essential for the reproduction of many eukaryotic viruses, but historically, bacteriophage were assumed not to require a cytoskeleton. Here, we identify a tubulin-like protein, PhuZ, from bacteriophage 201φ2-1 and show that it forms filaments in vivo and in vitro. The PhuZ structure has a conserved tubulin fold, with an unusual, extended C terminus that we demonstrate to be critical for polymerization in vitro and in vivo. Longitudinal packing in the crystal lattice mimics packing observed by EM of in-vitro-formed filaments, indicating how interactions between the C terminus and the following monomer drive polymerization. PhuZ forms a filamentous array that is required for positioning phage DNA within the bacterial cell. Correct positioning to the cell center and optimal phage reproduction only occur when the PhuZ filament is dynamic. Thus, we show that PhuZ assembles a spindle-like array that functions analogously to the microtubule-based spindles of eukaryotes.


Assuntos
Bacteriófagos/fisiologia , Pseudomonas/virologia , Tubulina (Proteína)/metabolismo , Proteínas Virais/metabolismo , Sequência de Aminoácidos , Citoesqueleto/metabolismo , DNA Viral/metabolismo , Guanosina Difosfato/metabolismo , Modelos Moleculares , Dados de Sequência Molecular , Pseudomonas/citologia , Alinhamento de Sequência , Tubulina (Proteína)/química , Tubulina (Proteína)/genética , Proteínas Virais/química , Proteínas Virais/genética
2.
mBio ; 10(4)2019 07 02.
Artigo em Inglês | MEDLINE | ID: mdl-31266875

RESUMO

The stringent response enables bacteria to respond to a variety of environmental stresses, especially various forms of nutrient limitation. During the stringent response, the cell produces large quantities of the nucleotide alarmone ppGpp, which modulates many aspects of cell physiology, including reprogramming transcription, blocking protein translation, and inhibiting new rounds of DNA replication. The mechanism by which ppGpp inhibits DNA replication initiation in Escherichia coli remains unclear. Prior work suggested that ppGpp blocks new rounds of replication by inhibiting transcription of the essential initiation factor dnaA, but we found that replication is still inhibited by ppGpp in cells ectopically producing DnaA. Instead, we provide evidence that a global reduction of transcription by ppGpp prevents replication initiation by modulating the supercoiling state of the origin of replication, oriC Active transcription normally introduces negative supercoils into oriC to help promote replication initiation, so the accumulation of ppGpp reduces initiation potential at oriC by reducing transcription. We find that maintaining transcription near oriC, either by expressing a ppGpp-blind RNA polymerase mutant or by inducing transcription from a ppGpp-insensitive promoter, can strongly bypass the inhibition of replication by ppGpp. Additionally, we show that increasing global negative supercoiling by inhibiting topoisomerase I or by deleting the nucleoid-associated protein gene seqA also relieves inhibition. We propose a model, potentially conserved across proteobacteria, in which ppGpp indirectly creates an unfavorable energy landscape for initiation by limiting the introduction of negative supercoils into oriCIMPORTANCE To survive bouts of starvation, cells must inhibit DNA replication. In bacteria, starvation triggers production of a signaling molecule called ppGpp (guanosine tetraphosphate) that helps reprogram cellular physiology, including inhibiting new rounds of DNA replication. While ppGpp has been known to block replication initiation in Escherichia coli for decades, the mechanism responsible was unknown. Early work suggested that ppGpp drives a decrease in levels of the replication initiator protein DnaA. However, we found that this decrease is not necessary to block replication initiation. Instead, we demonstrate that ppGpp leads to a change in DNA topology that prevents initiation. ppGpp is known to inhibit bulk transcription, which normally introduces negative supercoils into the chromosome, and negative supercoils near the origin of replication help drive its unwinding, leading to replication initiation. Thus, the accumulation of ppGpp prevents replication initiation by blocking the introduction of initiation-promoting negative supercoils. This mechanism is likely conserved throughout proteobacteria.


Assuntos
Replicação do DNA , DNA Bacteriano/metabolismo , Escherichia coli/genética , Escherichia coli/fisiologia , Guanosina Tetrafosfato/metabolismo , Estresse Fisiológico , DNA Super-Helicoidal/metabolismo , Proteínas de Escherichia coli/metabolismo
3.
Elife ; 32014 Nov 27.
Artigo em Inglês | MEDLINE | ID: mdl-25429514

RESUMO

Dynamic instability, polarity, and spatiotemporal organization are hallmarks of the microtubule cytoskeleton that allow formation of complex structures such as the eukaryotic spindle. No similar structure has been identified in prokaryotes. The bacteriophage-encoded tubulin PhuZ is required to position DNA at mid-cell, without which infectivity is compromised. Here, we show that PhuZ filaments, like microtubules, stochastically switch from growing in a distinctly polar manner to catastrophic depolymerization (dynamic instability) both in vitro and in vivo. One end of each PhuZ filament is stably anchored near the cell pole to form a spindle-like array that orients the growing ends toward the phage nucleoid so as to position it near mid-cell. Our results demonstrate how a bacteriophage can harness the properties of a tubulin-like cytoskeleton for efficient propagation. This represents the first identification of a prokaryotic tubulin with the dynamic instability of microtubules and the ability to form a simplified bipolar spindle.


Assuntos
Bacteriófagos/metabolismo , DNA Viral/metabolismo , Tubulina (Proteína)/metabolismo , Proteínas Virais/metabolismo , Replicação do DNA , Hidrólise , Hibridização in Situ Fluorescente , Microscopia de Fluorescência , Modelos Biológicos , Nucleotídeos/metabolismo , Polimerização , Fuso Acromático/metabolismo , Imagem com Lapso de Tempo
4.
Structure ; 22(4): 539-48, 2014 Apr 08.
Artigo em Inglês | MEDLINE | ID: mdl-24631461

RESUMO

Tubulins are a universally conserved protein superfamily that carry out diverse biological roles by assembling filaments with very different architectures. The underlying basis of this structural diversity is poorly understood. Here, we determine a 7.1 Å cryo-electron microscopy reconstruction of the bacteriophage-encoded PhuZ filament and provide molecular-level insight into its cooperative assembly mechanism. The PhuZ family of tubulins is required to actively center the phage within infected host cells, facilitating efficient phage replication. Our reconstruction and derived model reveal the first example of a three-stranded tubulin filament. We show that the elongated C-terminal tail simultaneously stabilizes both longitudinal and lateral interactions, which in turn define filament architecture. Identified interaction surfaces are conserved within the PhuZ family, and their mutagenesis compromises polymerization in vitro and in vivo. Combining kinetic modeling of PhuZ filament assembly and structural data, we suggest a common filament structure and assembly mechanism for the PhuZ family of tubulins.


Assuntos
DNA Viral/química , Fagos de Pseudomonas/química , Tubulina (Proteína)/química , Proteínas Virais/química , Microscopia Crioeletrônica , Escherichia coli/genética , Escherichia coli/metabolismo , Expressão Gênica , Modelos Moleculares , Regiões Promotoras Genéticas , Ligação Proteica , Multimerização Proteica , Estrutura Secundária de Proteína , Estrutura Terciária de Proteína , Pseudomonas/virologia , Proteínas Recombinantes/química , Proteínas Recombinantes/genética , Tubulina (Proteína)/genética , Proteínas Virais/genética
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