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Literature DB >> 10933684

A new mutant class, made by targeted mutagenesis, of phage PRD1 reveals that protein P5 connects the receptor binding protein to the vertex.

Abstract

Phage PRD1 and adenovirus share a number of structural and functional similarities, one of which is the vertex organization at the fivefold-symmetry positions. We developed an in vitro mutagenesis system for the linear PRD1 genome in order to make targeted mutations. The role of protein P5 in the vertex structure was examined by this method. Mutation in gene V revealed that protein P5 is essential. The absence of P5 did not compromise the particle assembly or DNA packaging but led to a deficient vertex structure where the receptor binding protein P2, in addition to protein P5, was missing. P5(-) particles also lost their DNA upon purification. Based on this and previously published information we propose a spatial model for the spike structure at the vertices. This resembles to the corresponding structure in adenovirus.

Entities: Disease Species

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Year: 2000 PMID： 10933684 PMCID： PMC112307 DOI： 10.1128/jvi.74.17.7781-7786.2000

Source DB: PubMed Journal: J Virol ISSN： 0022-538X Impact factor: 5.103

35 in total

1. 'Déjà vu all over again': the similar structures of bacteriophage PRD1 and adenovirus.

Authors: D M Belnap; A C Steven
Journal: Trends Microbiol Date: 2000-03 Impact factor: 17.079

2. Bacteriophage PRD1 DNA entry uses a viral membrane-associated transglycosylase activity.

Authors: P S Rydman; D H Bamford
Journal: Mol Microbiol Date: 2000-07 Impact factor: 3.501

3. Genome organization of membrane-containing bacteriophage PRD1.

Authors: J K Bamford; A L Hänninen; T M Pakula; P M Ojala; N Kalkkinen; M Frilander; D H Bamford
Journal: Virology Date: 1991-08 Impact factor: 3.616

4. Stable packaging of phage PRD1 DNA requires adsorption protein P2, which binds to the IncP plasmid-encoded conjugative transfer complex.

Authors: A M Grahn; J Caldentey; J K Bamford; D H Bamford
Journal: J Bacteriol Date: 1999-11 Impact factor: 3.490

5. Integrins alpha v beta 3 and alpha v beta 5 promote adenovirus internalization but not virus attachment.

Authors: T J Wickham; P Mathias; D A Cheresh; G R Nemerow
Journal: Cell Date: 1993-04-23 Impact factor: 41.582

6. Functional organization of the bacteriophage PRD1 genome.

Authors: A M Grahn; J K Bamford; M C O'Neill; D H Bamford
Journal: J Bacteriol Date: 1994-05 Impact factor: 3.490

7. Construction and properties of a family of pACYC184-derived cloning vectors compatible with pBR322 and its derivatives.

Authors: B Bartolomé; Y Jubete; E Martínez; F de la Cruz
Journal: Gene Date: 1991-06-15 Impact factor: 3.688

8. High-frequency transfer of linear DNA containing 5'-covalently linked terminal proteins: electroporation of bacteriophage PRD1 genome into Escherichia coli.

Authors: C Lyra; H Savilahti; D H Bamford
Journal: Mol Gen Genet Date: 1991-08

9. Virus-receptor interaction in an adenovirus system.

Authors: L Philipson; K Lonberg-Holm; U Pettersson
Journal: J Virol Date: 1968-10 Impact factor: 5.103

10. Binding of an Escherichia coli double-stranded DNA virus PRD1 to a receptor coded by an IncP-type plasmid.

Authors: M M Kotilainen; A M Grahn; J K Bamford; D H Bamford
Journal: J Bacteriol Date: 1993-05 Impact factor: 3.490

12 in total

1. The tailless icosahedral membrane virus PRD1 localizes the proteins involved in genome packaging and injection at a unique vertex.

Authors: Brent Gowen; Jaana K H Bamford; Dennis H Bamford; Stephen D Fuller
Journal: J Virol Date: 2003-07 Impact factor: 5.103

A new mutant class, made by targeted mutagenesis, of phage PRD1 reveals that protein P5 connects the receptor binding protein to the vertex.

1. 'Déjà vu all over again': the similar structures of bacteriophage PRD1 and adenovirus.

2. Bacteriophage PRD1 DNA entry uses a viral membrane-associated transglycosylase activity.

3. Genome organization of membrane-containing bacteriophage PRD1.

4. Stable packaging of phage PRD1 DNA requires adsorption protein P2, which binds to the IncP plasmid-encoded conjugative transfer complex.

5. Integrins alpha v beta 3 and alpha v beta 5 promote adenovirus internalization but not virus attachment.

6. Functional organization of the bacteriophage PRD1 genome.

7. Construction and properties of a family of pACYC184-derived cloning vectors compatible with pBR322 and its derivatives.

8. High-frequency transfer of linear DNA containing 5'-covalently linked terminal proteins: electroporation of bacteriophage PRD1 genome into Escherichia coli.

9. Virus-receptor interaction in an adenovirus system.

10. Binding of an Escherichia coli double-stranded DNA virus PRD1 to a receptor coded by an IncP-type plasmid.

1. The tailless icosahedral membrane virus PRD1 localizes the proteins involved in genome packaging and injection at a unique vertex.

2. Integral membrane protein P16 of bacteriophage PRD1 stabilizes the adsorption vertex structure.

3. Constituents of SH1, a novel lipid-containing virus infecting the halophilic euryarchaeon Haloarcula hispanica.

4. Efficient DNA packaging of bacteriophage PRD1 requires the unique vertex protein P6.

5. Tale of two spikes in bacteriophage PRD1.

6. A direct transposon insertion tool for modification and functional analysis of viral genomes.

7. The small viral membrane-associated protein P32 is involved in bacteriophage PRD1 DNA entry.

8. The Holin protein of bacteriophage PRD1 forms a pore for small-molecule and endolysin translocation.

9. The unique vertex of bacterial virus PRD1 is connected to the viral internal membrane.

10. Identification of a ligand on the Wip1 bacteriophage highly specific for a receptor on Bacillus anthracis.