Margarita Salas | Academic Influence

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Margarita Salas

Biology

#116

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#208

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Biochemistry

#53

World Rank

#69

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Biology

Margarita Salas's Degrees

PhD Biochemistry Complutense University of Madrid

Why Is Margarita Salas Influential?

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According to Wikipedia, Margarita Salas Falgueras, 1st Marchioness of Canero was a Spanish scientist, medical researcher, and author in the fields of biochemistry and molecular genetics. She started developing molecular biology in Spain and also worked as an honorary associate professor of CSIC, at the Severo Ochoa Biology Center . In 2016 she became the first women ever to receive the Echegaray Medal, that was given to her by the Royal Academy of Exact, Physical and Natural Sciences .

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Margarita Salas's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Highly efficient DNA synthesis by the phage phi 29 DNA polymerase. Symmetrical mode of DNA replication. (1989) (598)
A conserved 3′→5′ exonuclease active site in prokaryotic and eukaryotic DNA polymerases (1989) (377)
Protein-priming of DNA replication. (1991) (370)
Fidelity of phi 29 DNA polymerase. Comparison between protein-primed initiation and DNA polymerization. (1993) (263)
A general structure for DNA-dependent DNA polymerases. (1991) (198)
Genome engineering reveals large dispensable regions in Bacillus subtilis. (2003) (192)
Mechanism of activation by adenosine 3':5'-cyclic monophosphate of a protein phosphokinase from rabbit reticulocytes. (1970) (184)
φ29 Family of Phages (2001) (170)
Insights into strand displacement and processivity from the crystal structure of the protein-primed DNA polymerase of bacteriophage phi29. (2004) (152)
BA71ΔCD2: a New Recombinant Live Attenuated African Swine Fever Virus with Cross-Protective Capabilities (2017) (147)
Characterization of a protein covalently linked to the 5' termini of the DNA of Bacillus subtilis phage phi29. (1978) (146)
Self-replication of DNA by its encoded proteins in liposome-based synthetic cells (2018) (141)
African Swine Fever Virus IAP Homologue Inhibits Caspase Activation and Promotes Cell Survival in Mammalian Cells (2001) (136)
Structures of phi29 DNA polymerase complexed with substrate: the mechanism of translocation in B‐family polymerases (2007) (134)
Inhibition of Nuclear Factor κB Activation by a Virus-encoded IκB-like Protein* (1998) (128)
African swine fever virus morphogenesis. (2013) (126)
Relating Structure to Function in 29 DNA Polymerase (*) (1996) (124)
Initiation of phage phi 29 DNA replication in vitro: formation of a covalent complex between the terminal protein, p3, and 5'-dAMP. (1982) (122)
Characterization and purification of a phage phi 29-encoded DNA polymerase required for the initiation of replication. (1984) (121)
Structural and functional relationships between prokaryotic and eukaryotic DNA polymerases. (1987) (120)
The bacteriophage phi 29 DNA polymerase, a proofreading enzyme. (1992) (118)
End-product inhibition of yeast phosphofructokinase by ATP. (1963) (117)
RNA polymerase binding sites and transcription map of the DNA of Bacillus subtilis phage phi29. (1979) (115)
Proofreading dynamics of a processive DNA polymerase (2009) (109)
Migration of Mitochondria to Viral Assembly Sites in African Swine Fever Virus-Infected Cells (1998) (107)
Inhibition of apoptosis by the African swine fever virus Bcl-2 homologue: role of the BH1 domain. (1997) (105)
Initiation of phi 29 DNA replication occurs at the second 3' nucleotide of the linear template: a sliding-back mechanism for protein-primed DNA replication. (1992) (105)
Role of the host cell nucleus in the replication of African swine fever virus DNA. (1992) (102)
DNA-Protein Complex in Circular DNA from Phage ϕ29 (1971) (102)
Bacillus subtilis phage phi29. Characterization of gene products and functions. (1976) (101)
Replication of African swine fever virus DNA in infected cells. (1999) (99)
The push–pull mechanism of bacteriophage Ø29 DNA injection (2004) (95)
Characterization of an African Swine Fever Virus 20-kDa DNA Polymerase Involved in DNA Repair* (1997) (94)
CITRATE INHIBITION OF PHOSPHOFRUCTOKINASE AND THE PASTEUR EFFECT. (1965) (91)
CITRATE INHIBITION OF PHOSPHOFRUCTOKINASE AND THE PASTEUR EFFECT. (1965) (91)
African Swine Fever Virus Protease, a New Viral Member of the SUMO-1-specific Protease Family* (2001) (91)
A specific subdomain in phi29 DNA polymerase confers both processivity and strand-displacement capacity. (2005) (88)
Genetic analysis of bacteriophage phi 29 of Bacillus subtilis: integration and mapping of reference mutants of two collections (1976) (88)
African Swine Fever Virus Structural Protein p54 Is Essential for the Recruitment of Envelope Precursors to Assembly Sites (2004) (88)
RECIPROCAL EFFECTS OF CARBON SOURCES ON THE LEVELS OF AN AMP-SENSITIVE FRUCTOSE-1,6-DIPHOSPHATASE AND PHOSPHOFRUCTOKINASE IN YEAST. (1965) (87)
Expression Library Immunization Can Confer Protection against Lethal Challenge with African Swine Fever Virus (2014) (86)
A single tyrosine prevents insertion of ribonucleotides in the eukaryotic-type phi29 DNA polymerase. (1999) (86)
The ϕ29 DNA polymerase:protein‐primer structure suggests a model for the initiation to elongation transition (2006) (86)
The Viral Protein A238L Inhibits TNF-α Expression through a CBP/p300 Transcriptional Coactivators Pathway1 (2006) (85)
Polyadenylation, methylation, and capping of the RNA synthesized in vitro by African swine fever virus. (1981) (84)
African swine fever virus transcription. (2013) (80)
Site‐directed mutagenesis at the Exo III motif of phi 29 DNA polymerase; overlapping structural domains for the 3′‐5′ exonuclease and strand‐displacement activities. (1992) (80)
DNA-dependent RNA polymerase in African swine fever virus. (1980) (80)
Structural proteins of bacteriophage ∅29 (1971) (79)
Structure of replicating DNA molecules of Bacillus subtilis bacteriophage phi 29 (1980) (79)
The C-type lectin homologue gene (EP153R) of African swine fever virus inhibits apoptosis both in virus infection and in heterologous expression. (2004) (78)
Helix-destabilizing activity of phi 29 single-stranded DNA binding protein: effect on the elongation rate during strand displacement DNA replication. (1995) (78)
Purification of bacteriophage phi 29 DNA polymerase. (1995) (77)
African Swine Fever Virus Undergoes Outer Envelope Disruption, Capsid Disassembly and Inner Envelope Fusion before Core Release from Multivesicular Endosomes (2016) (77)
Evidence favouring the hypothesis of a conserved 3'-5' exonuclease active site in DNA-dependent DNA polymerases. (1992) (76)
Physical map of bacteriophage ∅29 DNA (1976) (75)
Terminal protein-primed DNA amplification. (1994) (75)
The protein covalently linked to the 5' termini of the DNA of Bacillus subtilis phage phi 29 is involved in the initiation of DNA replication. (1980) (75)
Location of the serine residue involved in the linkage between the terminal protein and the DNA of phage phi 29. (1985) (74)
In vitro replication of bacteriophage PRD1 DNA. Characterization of the protein-primed initiation site. (1993) (74)
African Swine Fever Virus Structural Protein pE120R Is Essential for Virus Transport from Assembly Sites to Plasma Membrane but Not for Infectivity (2001) (73)
Replication of phage phi 29 DNA with purified terminal protein and DNA polymerase: synthesis of full-length phi 29 DNA. (1985) (72)
Genes homologous to ubiquitin-conjugating proteins and eukaryotic transcription factor SII in African swine fever virus. (1992) (72)
Identification of the mammalian DNA-binding protein P8 as glyceraldehyde-3-phosphate dehydrogenase. (1977) (71)
Protein‐primed DNA replication: a transition between two modes of priming by a unique DNA polymerase (1997) (71)
African Swine Fever Virus dUTPase Is a Highly Specific Enzyme Required for Efficient Replication in Swine Macrophages (1999) (70)
Mechanisms for Priming DNA Synthesis (1996) (70)
African Swine Fever Virus Polyproteins pp220 and pp62 Assemble into the Core Shell (2002) (68)
Live attenuated African swine fever viruses as ideal tools to dissect the mechanisms involved in viral pathogenesis and immune protection (2015) (68)
Nucleotide sequence of the early genes 3 and 4 of bacteriophage phi 29. (1982) (68)
Replication of phage phi 29 DNA in vitro: role of the viral protein p6 in initiation and elongation. (1986) (67)
The highly conserved amino acid sequence motif Tyr-Gly-Asp-Thr-Asp-Ser in alpha-like DNA polymerases is required by phage phi 29 DNA polymerase for protein-primed initiation and polymerization. (1990) (67)
Protein p3 is linked to the DNA of phage phi 29 through a phosphoester bond between serine and 5'-dAMP. (1980) (65)
Overproduction and purification of protein P6 of Bacillus subtilis phage phi 29: role in the initiation of DNA replication. (1985) (64)
Active DNA unwinding dynamics during processive DNA replication (2012) (64)
Phi29 family of phages. (2001) (63)
Primer‐terminus stabilization at the 3′‐5′ exonuclease active site of phi29 DNA polymerase. Involvement of two amino acid residues highly conserved in proofreading DNA polymerases. (1996) (63)
Regulation of Inducible Nitric Oxide Synthase Expression by Viral A238L-Mediated Inhibition of p65/RelA Acetylation and p300 Transactivation (2006) (63)
Transcription activation or repression by phage psi 29 protein p4 depends on the strength of the RNA polymerase-promoter interactions. (1997) (63)
Repression of African Swine Fever Virus Polyprotein pp220-Encoding Gene Leads to the Assembly of Icosahedral Core-Less Particles (2002) (62)
A novel nucleoprotein complex at a replication origin. (1990) (62)
Two interconvertible forms of yeast phosphofructokinase with different sensitivity to endproduct inhibition. (1964) (62)
Primer terminus stabilization at the phi 29 DNA polymerase active site. Mutational analysis of conserved motif KXY. (1995) (62)
Two interconvertible forms of yeast phosphofructokinase with different sensitivity to endproduct inhibition. (1964) (62)
Assembly of Bacillus subtilis phage phi29. 1. Mutants in the cistrons coding for the structural proteins. (1977) (61)
Inhibition of nuclear factor kappaB activation by a virus-encoded IkappaB-like protein. (1998) (60)
African Swine Fever Virus IAP-Like Protein Induces the Activation of Nuclear Factor Kappa B (2002) (60)
Characterization of a 3'----5' exonuclease activity in the phage phi 29-encoded DNA polymerase. (1985) (60)
Genome Sequence of African Swine Fever Virus BA71, the Virulent Parental Strain of the Nonpathogenic and Tissue-Culture Adapted BA71V (2015) (60)
The actin-like MreB cytoskeleton organizes viral DNA replication in bacteria (2009) (58)
Bacteriophage protein-protein interactions. (2012) (58)
Transcription and translation maps of African swine fever virus. (1986) (57)
Spo0A, the key transcriptional regulator for entrance into sporulation, is an inhibitor of DNA replication (2006) (57)
Protein p4 represses phage phi 29 A2c promoter by interacting with the alpha subunit of Bacillus subtilis RNA polymerase. (1996) (56)
Improvement of φ29 DNA polymerase amplification performance by fusion of DNA binding motifs (2010) (55)
Activation and repression of transcription at two different phage phi29 promoters are mediated by interaction of the same residues of regulatory protein p4 with RNA polymerase. (1996) (54)
Bend induced by the phage phi 29 transcriptional activator in the viral late promoter is required for activation. (1990) (53)
Nucleotide sequence at the termini of the DNA of Bacillus subtilis phage phi 29. (1981) (53)
A DNA curvature can substitute phage phi 29 regulatory protein p4 when acting as a transcriptional repressor. (1991) (53)
A new mechanism for the initiation of replication of phi 29 and adenovirus DNA: priming by the terminal protein. (1984) (53)
Temperature-sensitive mutants of bacteriophage ∅29 (1971) (51)
Transcription activation by phage phi29 protein p4 is mediated by interaction with the alpha subunit of Bacillus subtilis RNA polymerase. (1996) (51)
The Viral Protein A238L Inhibits Cyclooxygenase-2 Expression through a Nuclear Factor of Activated T Cell-dependent Transactivation Pathway* (2004) (51)
An aspartic acid residue in TPR-1, a specific region of protein-priming DNA polymerases, is required for the functional interaction with primer terminal protein. (2000) (51)
3'-->5' exonuclease active site of phi 29 DNA polymerase. Evidence favoring a metal ion-assisted reaction mechanism. (1994) (51)
African Swine Fever Virus pB119L Protein Is a Flavin Adenine Dinucleotide-Linked Sulfhydryl Oxidase (2006) (50)
Modulation of p53 Cellular Function and Cell Death by African Swine Fever Virus (2004) (49)
Purification and properties of DNA-dependent RNA polymerase from Bacillus subtilis vegetative cells. (1971) (49)
Phi 29 DNA polymerase active site. Mutants in conserved residues Tyr254 and Tyr390 are affected in dNTP binding. (1992) (48)
Signals at the bacteriophage phi 29 DNA replication origins required for protein p6 binding and activity. (1989) (48)
African swine fever virus guanylyltransferase. (1993) (48)
Phi 29 DNA polymerase active site. The conserved amino acid motif "Kx3NSxYG" is involved in template-primer binding and dNTP selection. (1993) (47)
A pRNA‐induced structural rearrangement triggers 6S‐1 RNA release from RNA polymerase in Bacillus subtilis (2012) (46)
Relevance of UP elements for three strong Bacillus subtilis phage phi29 promoters. (2004) (46)
Effect of NH4+ ions on phi 29 DNA-protein p3 replication: formation of a complex between the terminal protein and the DNA polymerase (1987) (46)
African Swine Fever Virus Protein p17 Is Essential for the Progression of Viral Membrane Precursors toward Icosahedral Intermediates (2010) (45)
A DNA binding motif coordinating synthesis and degradation in proofreading DNA polymerases. (1996) (45)
Functional characterization of the genes coding for the terminal protein and DNA polymerase from bacteriophage GA-1. Evidence for a sliding-back mechanism during protein-primed GA-1 DNA replication. (1996) (44)
A gene homologous to topoisomerase II in African swine fever virus. (1992) (44)
Mechano-chemical kinetics of DNA replication: identification of the translocation step of a replicative DNA polymerase (2015) (44)
DNA-independent deoxynucleotidylation of the phi 29 terminal protein by the phi 29 DNA polymerase. (1992) (44)
Initiation of bacteriophage phi29 DNA replication in vivo: assembly of a membrane-associated multiprotein complex. (1997) (44)
The African Swine Fever Virus Nonstructural Protein pB602L Is Required for Formation of the Icosahedral Capsid of the Virus Particle (2006) (43)
Isolation of a strong suppressor of nonsense mutations in Bacillus subtilis. (1976) (43)
Characterization of the phage phi 29 protein p5 as a single-stranded DNA binding protein. Function in phi 29 DNA-protein p3 replication. (1989) (43)
Mechanism of stimulation of DNA replication by bacteriophage phi 29 single-stranded DNA-binding protein p5. (1991) (43)
Mechanisms of initiation of linear DNA replication in prokaryotes. (1999) (43)
Functional eukaryotic nuclear localization signals are widespread in terminal proteins of bacteriophages (2012) (42)
Binding of microtubule proteins to DNA: specificity of the interaction. (1978) (42)
DNA polymerase X of African swine fever virus: insertion fidelity on gapped DNA substrates and AP lyase activity support a role in base excision repair of viral DNA. (2003) (41)
Mutational analysis of phi29 DNA polymerase residues acting as ssDNA ligands for 3'-5' exonucleolysis. (1998) (41)
Transcription activation and repression by interaction of a regulator with the alpha subunit of RNA polymerase: the model of phage phi 29 protein p4. (1998) (41)
Study of the interaction of glyceraldehyde-3-phosphate dehydrogenase with DNA. (1980) (41)
Effect of mutations in the "extended -10" motif of three Bacillus subtilis sigmaA-RNA polymerase-dependent promoters. (1999) (40)
African Swine Fever Virus Proteinase Is Essential for Core Maturation and Infectivity (2003) (40)
Bacteriophage φ29 DNA replication arrest caused by codirectional collisions with the transcription machinery (1997) (40)
Transcription regulation in Bacillus subtilis phage phi 29: expression of the viral promoters throughout the infection cycle. (1995) (40)
In vivo transcription of bacteriophage phi 29 DNA: transcription initiation sites (1986) (40)
Overproduction and purification of the connector protein of Bacillus subtilis phage phi 29. (1984) (40)
Terminal protein-primed amplification of heterologous DNA with a minimal replication system based on phage Φ29 (2011) (39)
Characterization of a new prokaryotic transcriptional activator and its DNA recognition site. (1989) (39)
[77c] Phosphofructokinase: III. Yeast (1966) (39)
In vitro protein-primed initiation of pneumococcal phage Cp-1 DNA replication occurs at the third 3' nucleotide of the linear template: a stepwise sliding-back mechanism. (1996) (38)
In vitro replication of bacteriophage PRD1 DNA. Metal activation of protein-primed initiation and DNA elongation. (1992) (38)
Phage phi29 protein p6 is in a monomer-dimer equilibrium that shifts to higher association states at the millimolar concentrations found in vivo. (1997) (38)
Viral terminal protein directs early organization of phage DNA replication at the bacterial nucleoid (2010) (38)
Intermediate class of mRNAs in African swine fever virus (1996) (37)
Resolution of head‐on collisions between the transcription machinery and bacteriophage Φ29 DNA polymerase is dependent on RNA polymerase translocation (1999) (37)
Superhelical path of the DNA in the nucleoprotein complex that activates the initiation of phage phi 29 DNA replication. (1993) (37)
A precursor of the neck appendage protein of B. subtilis phage Φ 29 (1974) (37)
Generation of Filamentous Instead of Icosahedral Particles by Repression of African Swine Fever Virus Structural Protein pB438L (2006) (37)
Interaction of the bacteriophage phi 29 protein p6 with double-stranded DNA. (1988) (37)
Functional domains in the bacteriophage ø29 terminal protein for interaction with the ø29 DNA polymerase and with DNA (1989) (37)
Global Transcriptional Analysis of Virus-Host Interactions between Phage ϕ29 and Bacillus subtilis (2016) (37)
Formation of a covalent complex between the terminal protein of pneumococcal bacteriophage Cp-1 and 5'-dAMP (1986) (36)
Phi 29 DNA polymerase active site. Residue ASP249 of conserved amino acid motif "Dx2SLYP" is critical for synthetic activities. (1993) (36)
Phages with Protein Attached to the DNA Ends (1988) (36)
African Swine Fever Virus Polyprotein pp62 Is Essential for Viral Core Development (2009) (36)
African Swine Fever Virus Protein pE296R Is a DNA Repair Apurinic/Apyrimidinic Endonuclease Required for Virus Growth in Swine Macrophages (2006) (36)
Characterization of the bacteriophage φ29‐encoded protein p16.7: a membrane protein involved in phage DNA replication (2001) (36)
Proteins induced in Bacillusus subtilis infected with bacteriophage φ29 (1973) (35)
Molecular basis for the exploitation of spore formation as survival mechanism by virulent phage ϕ29 (2005) (35)
Disruption of Nuclear Organization during the Initial Phase of African Swine Fever Virus Infection (2011) (35)
Editing of misaligned 3′-termini by an intrinsic 3′–5′ exonuclease activity residing in the PHP domain of a family X DNA polymerase (2008) (35)
Temperature-sensitive mutants affected in DNA synthesis in phage phi29 of Bacillus subtilis. (1972) (35)
In vitro transcription of bacteriophage phi 29 DNA: inhibition of early promoters by the viral replication protein p6 (1989) (34)
Multimeric complexes formed by DNA-binding proteins of low sequence specificity. (1993) (34)
African swine fever virus assembles a single membrane derived from rupture of the endoplasmic reticulum (2015) (34)
Metal activation of synthetic and degradative activities of phi 29 DNA polymerase, a model enzyme for protein-primed DNA replication. (1992) (34)
New Insights into the RNA-Based Mechanism of Action of the Anticancer Drug 5′-Fluorouracil in Eukaryotic Cells (2013) (33)
[22] Mutational analysis of bacteriophage φ29 DNA polymerase (1995) (33)
Assembly of phage phi 29 genome with viral protein p6 into a compact complex. (1994) (33)
Compartmentalization of prokaryotic DNA replication. (2005) (32)
Phage phi 29 regulatory protein p4 stabilizes the binding of the RNA polymerase to the late promoter in a process involving direct protein-protein contacts. (1992) (32)
Structural and functional analysis of temperature-sensitive mutants of the phage phi 29 DNA polymerase. (1990) (32)
Complex formation between phage phi 29 single-stranded DNA binding protein and DNA. (1994) (32)
A protein similar to Escherichia coli gro EL is present in Bacillus subtilis. (1982) (31)
Head fibers of bacteriophage ∅29 (1972) (31)
Comparison of the A-T rich regions and the Bacillus subtilis RNA polymerase binding sites in phage phi 29 DNA (1979) (31)
Functional interactions between a phage histone-like protein and a transcriptional factor in regulation of phi29 early-late transcriptional switch. (1999) (31)
ø29 DNA Polymerase Residue Ser122, a Single-stranded DNA Ligand for 3′-5′ Exonucleolysis, Is Required to Interact with the Terminal Protein* (1998) (30)
In vivo transcription of bacteriophage phi 29 DNA: transcription termination (1986) (30)
The African Swine Fever Virus Virion Membrane Protein pE248R Is Required for Virus Infectivity and an Early Postentry Event (2009) (30)
Signals in the φ29 DNA-terminal protein template for the initiation of phage φ29 DNA replication (1986) (30)
Template requirements for initiation of phage phi 29 DNA replication in vitro. (1984) (29)
Effects of internal deletions on the priming activity of the phage phi 29 terminal protein. (1989) (29)
Polymerization of bacteriophage ø29 replication protein p1 into protofilament sheets (1998) (29)
The DNA polymerase-encoding gene of African swine fever virus: sequence and transcriptional analysis. (1993) (29)
Cloning and template activity of the origins of replication of phage phi 29 DNA. (1986) (29)
Protein p56 from the Bacillus subtilis phage ϕ29 inhibits DNA-binding ability of uracil-DNA glycosylase (2007) (28)
Processive proofreading by the adenovirus DNA polymerase. Association with the priming protein reduces exonucleolytic degradation. (1997) (28)
Transcription activation at a distance by phage phi 29 protein p4. Effect of bent and non-bent intervening DNA sequences. (1991) (28)
Phage φ29 protein p56 prevents viral DNA replication impairment caused by uracil excision activity of uracil-DNA glycosylase (2008) (28)
A Uracil-DNA Glycosylase Inhibitor Encoded by a Non-uracil Containing Viral DNA* (2006) (28)
Subunit Composition of B. subtilis RNA Polymerase (1970) (28)
Activation of Replication Origins in φ29-related Phages Requires the Recognition of Initiation Proteins to Specific Nucleoprotein Complexes* (1996) (28)
Mechanistic comparison of Bacillus subtilis 6S-1 and 6S-2 RNAs—commonalities and differences (2014) (28)
Protein-nucleic acid interactions in bacteriophage phi 29 DNA replication. (1995) (28)
DNA-Binding Proteins Essential for Protein-Primed Bacteriophage Φ29 DNA Replication (2016) (28)
Effect of aphidicolin and nucleotide analogs on the phage phi 29 DNA polymerase. (1986) (28)
The main early and late promoters of Bacillus subtilis phage ø29 form unstable open complexes with σA-RNA polymerase that are stabilized by DNA supercoiling (1993) (28)
Residues of the Bacillus subtilis phage phi 29 transcriptional activator required both to interact with RNA polymerase and to activate transcription. (1993) (27)
Phage Ø29 protein p6: A viral histone-like protein (1994) (27)
Nucleotide sequence at the termini of the DNA of Streptococcus pneumoniae phage Cp-1. (1984) (27)
A Novel Kinetic Analysis to Calculate Nucleotide Affinity of Proofreading DNA Polymerases: (1995) (27)
Multigene families in African swine fever virus: family 505 (1994) (27)
Differential functional behavior of viral phi29, Nf and GA-1 SSB proteins. (2000) (27)
A new protein domain for binding to DNA through the minor groove. (1994) (27)
Bacteriophage GIL01 gp7 interacts with host LexA repressor to enhance DNA binding and inhibit RecA-mediated auto-cleavage (2015) (26)
In vivo transcription of bacteriophage phi 29 DNA early and late promoter sequences. (1986) (26)
Head-neck connecting protein in phage φ29 (1972) (26)
Assembly of Bacillus subtilis phage phe29. 2. Mutants in the cistrons coding for the non-structural proteins. (1977) (26)
Mechanism of Transcription Activation at the comG Promoter by the Competence Transcription Factor ComK of Bacillus subtilis (2004) (26)
Structure of protein-containing replicative intermediates of Bacillus subtilis phage phi 29 DNA. (1982) (26)
The Putative Coiled Coil Domain of the φ29 Terminal Protein Is a Major Determinant Involved in Recognition of the Origin of Replication* (2000) (26)
African swine fever virus‐induced polypeptides in porcine alveolar macrophages and in Vero cells: Two‐dimensional gel analysis (2001) (26)
Transition from initiation to elongation in protein-primed phi 29 DNA replication: salt-dependent stimulation by the viral protein p6 (1988) (26)
A set of expression plasmids for the synthesis of fused and unfused polypeptides in Escherichia coli. (1987) (25)
A suppressor of nonsense mutations in Bacillus subtilis. (1974) (25)
Role of the amino-terminal domain of bacteriophage phi 29 connector in DNA binding and packaging. (1992) (25)
Purification in a functional form of the terminal protein of Bacillus subtilis phage phi 29. (1984) (25)
Operator Design and Mechanism for CarA Repressor-mediated Down-regulation of the Photoinducible carB Operon in Myxococcus xanthus* (2004) (25)
Desensitization of yeast phosphofructokinase to ATP inhibition by treatment with trypsin. (1968) (24)
AFRICAN SWINE FEVER VIRUS (ASFARVIRIDAE) (1999) (24)
Transcriptional activator of phage φ29 late promoter: mapping of residues involved in interaction with RNA polymerase and in DNA bending (1996) (24)
ø29 DNA polymerase residue Lys383, invariant at motif B of DNA-dependent polymerases, is involved in dNTP binding. (1997) (24)
Processive proofreading and the spatial relationship between polymerase and exonuclease active sites of bacteriophage phi29 DNA polymerase. (1999) (24)
Structural organization of Bacillus subtilis phage phi29. A model. (1981) (24)
Role of the "YxGG/A" motif of Phi29 DNA polymerase in protein-primed replication. (1999) (24)
Factors involved in the initiation of phage phi 29 DNA replication in vitro: requirement of the gene 2 product for the formation of the protein p3-dAMP complex. (1983) (23)
Site-directed mutagenesis of the YCDTDS amino acid motif of the phi 29 DNA polymerase. (1990) (23)
Characterization and mapping of the pyrophosphorolytic activity of the phage phi 29 DNA polymerase. Involvement of amino acid motifs highly conserved in alpha-like DNA polymerases. (1991) (23)
Purification in an active form of the phage phi 29 protein p4 that controls the viral late transcription. (1987) (23)
Characterization of the origins of replication of bacteriophage phi 29 DNA (1988) (23)
Crystal structure and functional insights into uracil-DNA glycosylase inhibition by phage ϕ29 DNA mimic protein p56 (2013) (22)
A new plasmid vector for regulated gene expression in Bacillus subtilis. (2005) (22)
Nuclear Export of African Swine Fever Virus p37 Protein Occurs through Two Distinct Pathways and Is Mediated by Three Independent Signals (2006) (22)
Compartmentalization of phage φ29 DNA replication: interaction between the primer terminal protein and the membrane‐associated protein p1 (2000) (22)
Deoxyribinucleic acid-binding proteins in virus-transformed cell lines. (1975) (22)
Characterization of a Bacillus subtilis 64-kDa DNA polymerase X potentially involved in DNA repair. (2008) (22)
Binding of phage phi29 protein p4 to the early A2c promoter: recruitment of a repressor by the RNA polymerase. (1998) (22)
Biophysical properties of bacteriophage φ29 (1974) (21)
Dynamic relocalization of phage φ29 DNA during replication and the role of the viral protein p16.7 (2000) (21)
Repair of base damage and genome maintenance in the nucleo-cytoplasmic large DNA viruses. (2014) (21)
An invariant lysine residue is involved in catalysis at the 3'-5' exonuclease active site of eukaryotic-type DNA polymerases. (1997) (21)
Mechanism for the switch of φ29 DNA early to late transcription by regulatory protein p4 and histone‐like protein p6 (2001) (21)
Live Attenuated African Swine Fever Viruses as Ideal Tools to Dissect the Mechanisms Involved in Cross-Protection (2020) (21)
High level synthesis in Escherichia coli of the Bacillus subtilis phage phi 29 proteins p3 and p4 under the control of phage lambda PL promoter. (1982) (21)
In vitro transcription of bacteriophage phi 29 DNA. Correlation between in vitro and in vivo promoters. (1986) (21)
Substitution of the C-terminal domain of the Escherichia coli RNA polymerase alpha subunit by that from Bacillus subtilis makes the enzyme responsive to a Bacillus subtilis transcriptional activator. (1998) (21)
The Bacillus subtilis Phage φ29 Protein p16.7, Involved in φ29 DNA Replication, Is a Membrane-localized Single-stranded DNA-binding Protein* (2002) (21)
Order of assembly of the lower collar and the tail proteins of Bacillus subtilis bacteriophage phi 29 (1979) (21)
Phi 29 DNA polymerase requires the N-terminal domain to bind terminal protein and DNA primer substrates. (1998) (21)
Adsorption of bacteriophage phi 29 to Bacillus subtilis through the neck appendages of the viral particle (1981) (20)
Specific Recognition of Parental Terminal Protein by DNA Polymerase for Initiation of Protein-primed DNA Replication* (2000) (20)
Involvement of φ29 DNA polymerase thumb subdomain in the proper coordination of synthesis and degradation during DNA replication (2006) (20)
Role of the first aspartate residue of the "YxDTDS" motif of phi29 DNA polymerase as a metal ligand during both TP-primed and DNA-primed DNA synthesis. (1998) (20)
The African Swine Fever Virus Prenyltransferase Is an Integral Membrane trans-Geranylgeranyl-diphosphate Synthase* (1999) (20)
African swine fever virus thymidylate kinase gene: sequence and transcriptional mapping. (1993) (20)
Initiation of phage phi 29 DNA replication by mutants with deletions at the carboxyl end of the terminal protein. (1986) (20)
In vitro transcription of the Bacillus subtilis phage phi 29 DNA by Bacillus subtilis and Escherichia coli RNA polymerases. (1984) (20)
Phenylalanyl puromycin formation as a model system for studying peptide bond formation. (1968) (20)
The RGD sequence in phage phi29 terminal protein is required for interaction with phi29 DNA polymerase. (1998) (20)
MIP1 DNA polymerase of S. cerevisiae: structural similarity with the E. coli DNA polymerase I-type enzymes. (1991) (20)
Analysis of replicative intermediates produced during bacteriophage phi 29 DNA replication in vitro. (1991) (20)
A positively charged residue of phi29 DNA polymerase, highly conserved in DNA polymerases from families A and B, is involved in binding the incoming nucleotide. (2002) (19)
Initiation of DNA replication by primer proteins: bacteriophage phi 29 and its relatives. (1988) (19)
Overproduction, purification, and characterization of DNA-binding protein P19 of bacteriophage PRD1. (1993) (19)
Cloning, nucleotide sequence and high level expression of the gene coding for the connector protein of Bacillus subtilis phage φ 29 (1984) (19)
Intrinsic apurinic/apyrimidinic (AP) endonuclease activity enables Bacillus subtilis DNA polymerase X to recognize, incise, and further repair abasic sites (2010) (19)
The bacteriophage ϕ29 DNA polymerase (2007) (19)
Primer-Independent DNA Synthesis by a Family B DNA Polymerase from Self-Replicating Mobile Genetic Elements (2017) (18)
Primer-terminus stabilization at the psi 29 DNA polymerase active site. Mutational analysis of conserved motif TX2GR. (1994) (18)
DNA polymerase from temperate phage Bam35 is endowed with processive polymerization and abasic sites translesion synthesis capacity (2015) (18)
Enzymatic synthesis of structure-free DNA with pseudo-complementary properties (2008) (18)
Mechanism of Collapse of Endoplasmic Reticulum Cisternae During African Swine Fever Virus Infection (2012) (18)
Protein-Primed Replication of Bacteriophage Φ29 DNA. (2016) (18)
A highly conserved Tyrosine residue of family B DNA polymerases contributes to dictate translesion synthesis past 8-oxo-7,8-dihydro-2′-deoxyguanosine (2007) (18)
Cloning and expression in Escherichia coli of the gene coding for the protein linked to the ends of Bacillus subtilis phage φ 29 DNA (1983) (18)
The integral membrane protein p16.7 organizes in vivo φ29 DNA replication through interaction with both the terminal protein and ssDNA (2003) (18)
Characterization of a DNA binding protein of bacteriophage PRD1 involved in DNA replication. (1990) (17)
Multiple roles of genome-attached bacteriophage terminal proteins. (2014) (17)
A conserved insertion in protein-primed DNA polymerases is involved in primer terminus stabilisation. (2003) (17)
Structural and functional comparative study of the complexes formed by viral ø29, Nf and GA-1 SSB proteins with DNA. (2000) (17)
Site-directed mutagenesis in the DNA linking site of bacteriophage phi 29 terminal protein: isolation and characterization of a Ser232----Thr mutant (1988) (17)
Phosphorylation of African swine fever virus proteins in vitro and in vivo. (1988) (17)
Replication and Transcription of Bacteriophage ϕ29 DNA (1993) (17)
Involvement of phage ϕ29 DNA polymerase and terminal protein subdomains in conferring specificity during initiation of protein-primed DNA replication (2007) (17)
DNA polymerase template switching at specific sites on the φ29 genome causes the in vivo accumulation of subgenomic φ29 DNA molecules (1998) (16)
Involvement of the Reparative DNA Polymerase Pol X of African Swine Fever Virus in the Maintenance of Viral Genome Stability In Vivo (2013) (16)
Bacteriophage phi29 early protein p17 is conditionally required for the first rounds of viral DNA replication. (1998) (16)
Initiation of phage phi 29 DNA replication by the terminal protein modified at the carboxyl end. (1983) (16)
Characterization, overproduction and purification of the product of gene 1 of Bacillus subtilis phage phi 29. (1989) (16)
Inverted terminal repeats and terminal proteins of the genomes of pneumococcal phages. (1985) (16)
Effect of inhibitors of the host cell RNA polymerase II on African swine fever virus multiplication. (1988) (16)
Replication of recombinant phi 29 DNA molecules in Bacillus subtilis protoplasts. (1989) (16)
Novel dimeric structure of phage ϕ29-encoded protein p56: insights into uracil-DNA glycosylase inhibition (2011) (16)
The (I/Y)XGG Motif of Adenovirus DNA Polymerase Affects Template DNA Binding and the Transition from Initiation to Elongation* (2001) (16)
Bam35 Tectivirus Intraviral Interaction Map Unveils New Function and Localization of Phage ORFan Proteins (2017) (16)
The Structure of Phage ϕ29 Transcription Regulator p4-DNA Complex Reveals an N-Hook Motif for DNA Binding (2006) (15)
Requirements for Bacillus subtilis bacteriophage phi29 DNA ejection. (2006) (15)
African swine fever virus p37 structural protein is localized in nuclear foci containing the viral DNA at early post-infection times. (2007) (15)
Interaction of the bacteriophage phi 29 connector protein with the viral DNA. (1986) (15)
Structure and assembly of phage phi29. (1976) (15)
Polyprotein Processing Protease of African Swine Fever Virus: Purification and Biochemical Characterization (2003) (15)
In vitro evolution of terminal protein-containing genomes. (1997) (15)
Identification of the sequences recognized by phage phi 29 transcriptional activator: possible interaction between the activator and the RNA polymerase. (1991) (15)
Phage phi 29 DNA polymerase residues involved in the proper stabilisation of the primer-terminus at the 3'-5' exonuclease active site. (2000) (15)
Identification of Promiscuous African Swine Fever Virus T-Cell Determinants Using a Multiple Technical Approach (2021) (15)
Sequence Requirements for Protein-primed Initiation and Elongation of Phage Ø29 DNA Replication* (2000) (15)
Proteins covalently linked to viral nucleic acids (1980) (15)
A Bacillus subtilis phage phi 29 transcription terminator is efficiently recognized in Streptomyces lividans. (1987) (15)
Assembly of the tail protein of the Bacillus subtilis phage φ29 (1983) (14)
Binding of phage Phi29 architectural protein p6 to the viral genome: evidence for topological restriction of the phage linear DNA. (2004) (14)
A precise DNA bend angle is essential for the function of the phage φ29 transcriptional regulator (2005) (14)
Repression of Bacteriophage φ29 Early Promoter C2 by Viral Protein p6 Is Due to Impairment of Closed Complex* (2001) (14)
Phage ϕ29 protein p1 promotes replication by associating with the FtsZ ring of the divisome in Bacillus subtilis (2013) (14)
African swine fever virus p10 protein exhibits nuclear import capacity and accumulates in the nucleus during viral infection. (2008) (14)
Poly(A) polymerases in normal and virus-transformed cells. (1975) (14)
Genome wide, supercoiling-dependent in vivo binding of a viral protein involved in DNA replication and transcriptional control. (2004) (14)
Proteins induced in Bacillus subtilis infected with bacteriophage phi29. (1973) (14)
kinC/D‐mediated heterogeneous expression of spo0A during logarithmical growth in Bacillus subtilis is responsible for partial suppression of φ29 development (2008) (14)
African Swine Fever Virus trans-Prenyltransferase* (1997) (14)
Characterization and cloning of gene 5 of Bacillus subtilis phage phi 29. (1988) (14)
A genetic approach to the identification of functional amino acids in protein p6 of Bacillus subtilis phage ø29 (1994) (14)
In vivo functional relationships among terminal proteins of Bacillus subtilis phi 29-related phages. (1994) (13)
Completed Genomic Sequence of Bacillus thuringiensis HER1410 Reveals a Cry-Containing Chromosome, Two Megaplasmids, and an Integrative Plasmidial Prophage (2020) (13)
Phage φ29 and Nf terminal protein-priming domain specifies the internal template nucleotide to initiate DNA replication (2008) (13)
The Phage φ29 Membrane Protein p16.7, Involved in DNA Replication, Is Required for Efficient Ejection of the Viral Genome (2007) (13)
Oligomeric structures of the phage phi29 histone-like protein p6. (1999) (13)
Functional characterization of highly processive protein-primed DNA polymerases from phages Nf and GA-1, endowed with a potent strand displacement capacity (2006) (13)
Discrepancy in the mobility of a protein of phage phi29 in 2 different SDS polyacrylamide-gel systems. (1975) (13)
Disclosing early steps of protein-primed genome replication of the Gram-positive tectivirus Bam35 (2016) (13)
African swine fever virus AP endonuclease is a redox-sensitive enzyme that repairs alkylating and oxidative damage to DNA (2009) (12)
In Vivo Assembly of Phage ϕ29 Replication Protein p1 into Membrane-associated Multimeric Structures* (2003) (12)
Structural Basis for Membrane Anchorage of Viral ϕ29 DNA during Replication* (2005) (12)
Cloning and expression of gene 2, required for the protein-primed initiation of the Bacillus subtilis phage phi 29 DNA replication. (1984) (12)
Chromosome segregation and organization are targets of 5′-Fluorouracil in eukaryotic cells (2015) (12)
Nuclear localization signals in phage terminal proteins provide a novel gene delivery tool in mammalian cells (2013) (12)
M448R and MGF505-7R: Two African Swine Fever Virus Antigens Commonly Recognized by ASFV-Specific T-Cells and with Protective Potential (2021) (12)
Phage φ29 Terminal Protein Residues Asn80 and Tyr82 Are Recognition Elements of the Replication Origins* (1999) (12)
phi29 DNA polymerase-terminal protein interaction. Involvement of residues specifically conserved among protein-primed DNA polymerases. (2004) (11)
Phi29 DNA polymerase residues Tyr59, His61 and Phe69 of the highly conserved ExoII motif are essential for interaction with the terminal protein. (2002) (11)
Function of the C-terminus of phi29 DNA polymerase in DNA and terminal protein binding. (2004) (11)
Activation of S1 nuclease at neutral pH. (1992) (11)
Pleiotropic Effect of Protein P6 on the Viral Cycle of Bacteriophage φ29 (2000) (11)
Structural Features of φ29 Single-stranded DNA-binding Protein (1997) (11)
My Life with Bacteriophage φ29 (2012) (11)
Lytic gene expression in the temperate bacteriophage GIL01 is activated by a phage-encoded LexA homologue (2018) (11)
Structural and mechanistic characterization of 6S RNA from the hyperthermophilic bacterium Aquifex aeolicus. (2015) (11)
The orderly, in vitro emergence of DNA from bacteriophage phi29 particles. (1981) (11)
Bacteriophage Ø29 protein p6: an architectural protein involved in genome organization, replication and control of transcription (2004) (10)
Two positively charged residues of phi29 DNA polymerase, conserved in protein-primed DNA polymerases, are involved in stabilisation of the incoming nucleotide. (2004) (10)
Requirement for an A-tract structure at the binding site of phage phi 29 transcriptional activator. (1994) (10)
Bacteriophage Nf DNA region controlling late transcription: structural and functional homology with bacteriophage phi 29. (1993) (10)
Effect of rifamycin derivatives and coumermycin A1 onin vitro RNA synthesis by African swine fever virus (2005) (10)
Molecular interplay between RNA polymerase and two transcriptional regulators in promoter switch. (2004) (10)
Characterization of Bacillus subtilis uracil‐DNA glycosylase and its inhibition by phage φ29 protein p56 (2011) (10)
DNA sequence-specific recognition by a transcriptional regulator requires indirect readout of A-tracts (2007) (10)
Transcription in vitro of phi29 DNA and EcoRI fragments by Bacillus subtilis RNA polymerase. (1976) (10)
Structure and expression inE. coli of the gene coding for protein p10 of African swine fever virus (2005) (9)
Regions at the carboxyl end of bacteriophage ø29 protein p6 required for DNA binding and activity in ø29 DNA replication (1989) (9)
The switch from early to late transcription in phage GA-1: characterization of the regulatory protein p4G. (1999) (9)
Involvement of residues of the ϕ29 terminal protein intermediate and priming domains in the formation of a stable and functional heterodimer with the replicative DNA polymerase (2011) (9)
RNA polymerase from Bacillus amyloliquefaciens. (1972) (9)
Transcription activation at a distance by phage ø29 protein p4 (1991) (9)
Functional domain for priming activity in the phage phi 29 terminal protein. (1990) (9)
The φ29 transcriptional regulator contacts the nucleoid protein p6 to organize a repression complex (2002) (9)
Structure of the functional domain of phi29 replication organizer: insights into oligomerization and dna binding. (2005) (9)
Deletion Mutants of the Attenuated Recombinant ASF Virus, BA71ΔCD2, Show Decreased Vaccine Efficacy (2021) (9)
Nuclear and nucleoid localization are independently conserved functions in bacteriophage terminal proteins (2013) (9)
Different responses to Spo0A-mediated suppression of the related Bacillus subtilis phages Nf and phi29. (2009) (9)
Manipulation of single polymerase-DNA complexes (2012) (8)
ϕ29 DNA Polymerase Residue Leu384, Highly Conserved in Motif B of Eukaryotic Type DNA Replicases, Is Involved in Nucleotide Insertion Fidelity* (2003) (8)
Analysis of O29 DNA polymerase by partial proteolysis: binding of terminal protein in the double-stranded DNA channel. (2000) (8)
Synthesis in vitro of phi29-specific early proteins directed by phage DNA. (1975) (8)
Transcription regulation in Bacillus subtilis phage Φ29 (1991) (8)
DNA bending and looping in the transcriptional control of bacteriophage phi29. (2010) (8)
Analytical ultracentrifugation studies of phage phi29 protein p6 binding to DNA. (2009) (8)
Characterization of two poly(A) polymerases from cultured hamster fibroblasts. (1978) (8)
Phage φ29 DNA Replication Organizer Membrane Protein p16.7 Contains a Coiled Coil and a Dimeric, Homeodomain-related, Functional Domain* (2004) (8)
Bacteriophage phi 29 early protein p17. Self-association and hetero-association with the viral histone-like protein p6. (2003) (8)
Deletions at the N terminus of bacteriophage φ29 protein p6: DNA binding and activity in φ29 DNA replication (1990) (8)
Structure and expression in E. coli of the gene coding for protein p10 of African swine fever virus. (1993) (8)
Protein-Primed Replication of Bacteriophage ø29 DNA (1988) (8)
Involvement of the TPR2 subdomain movement in the activities of ϕ29 DNA polymerase (2008) (8)
Mutational analysis of bacteriophage phi 29 DNA polymerase. (1995) (8)
A Single Amino Acid Substitution within a Coiled-coil Motif Changes the Assembly of a 53-Amino Acid Protein from Two-dimensional Sheets to Filamentous Structures* (2001) (7)
Order of the two major head protein genes of bacteriophage phi 29 of Bacillus subtilis (1977) (7)
A Mutation in the C-terminal domain of the RNA polymerase alpha subunit that destabilizes the open complexes formed at the phage phi 29 late A3 promoter. (2001) (7)
40 years with bacteriophage ø29. (2007) (7)
Dynamics of Translocation and Substrate Binding in Individual Complexes Formed with Active Site Mutants of Φ29 DNA Polymerase* (2014) (7)
Role of the LEXE Motif of Protein-primed DNA Polymerases in the Interaction with the Incoming Nucleotide* (2013) (7)
Effect of rifamycin derivatives and coumermycin A1 on in vitro RNA synthesis by African swine fever virus. Brief report. (1983) (7)
Kinetic Mechanisms Governing Stable Ribonucleotide Incorporation in Individual DNA Polymerase Complexes (2014) (7)
Transcriptional Activation of the Bacillus subtilis spoIIG Promoter by the Response Regulator Spo0A Is Independent of the C-Terminal Domain of the RNA Polymerase Alpha Subunit (1998) (7)
A highly conserved lysine residue in phi29 DNA polymerase is important for correct binding of the templating nucleotide during initiation of phi29 DNA replication. (2002) (7)
Proteins induced in Bacillus subtilis infected with bacteriophage phi 29. (1973) (7)
Noncatalytic aspartate at the exonuclease domain of proofreading DNA polymerases regulates both degradative and synthetic activities (2018) (6)
Nucleoside triphosphate phosphohydrolase activities in African swine fever virus (2005) (6)
Phi29 DNA Polymerase, a Potent Amplification Enzyme (2004) (6)
Primer Terminus Stabilization at the φ29 DNA Polymerase Active Site (1995) (6)
Cross-protection against African swine fever virus upon intranasal vaccination is associated with an adaptive-innate immune crosstalk (2022) (6)
The structure of phage phi29 transcription regulator p4-DNA complex reveals an N-hook motif for DNA. (2006) (6)
Replication of Bacterial Viruses (2008) (6)
Structural features of phi29 single-stranded DNA-binding protein. I. Environment of tyrosines in terms of complex formation with DNA. (1997) (6)
A precursor of the neck appendage protein of B. subtilis phage phi 29. (1974) (6)
New insights in the ϕ29 terminal protein DNA‐binding and host nucleoid localization functions (2014) (6)
Bacillus subtilis phage phi 29 main promoters are efficiently recognized in vivo by the Streptomyces lividans RNA polymerase. (1986) (6)
Assembly of the tail protein of the Bacillus subtilis phage phi 29. (1983) (6)
A nucleoprotein-hairpin in transcription regulation. (2009) (6)
Dual Role of φ29 DNA Polymerase Lys529 in Stabilisation of the DNA Priming-Terminus and the Terminal Protein-Priming Residue at the Polymerisation Site (2013) (5)
DNA-protein complex in circular DNA from phage phi-29. (1971) (5)
In Vivo DNA Binding of Bacteriophage GA-1 Protein p6 (2007) (5)
Functional domains in the bacteriophage phi 29 terminal protein for interaction with the phi 29 DNA polymerase and with DNA. (1989) (5)
Identification of Residues within Two Regions Involved in Self-association of Viral Histone-like Protein p6 from Phage Ø29* (2000) (5)
[23] Transcriptional regulators: Protein-DNA complexes and regulatory mechanisms (1995) (5)
Insights into the Determination of the Templating Nucleotide at the Initiation of φ29 DNA Replication* (2015) (5)
Role of host factors in bacteriophage φ29 DNA replication. (2012) (5)
Initiation of the transcription of phi29 DNA by Bacillus subtilis RNA polymerase. (1974) (5)
DNA stabilization at the Bacillus subtilis PolX core—a binding model to coordinate polymerase, AP-endonuclease and 3′-5′ exonuclease activities (2012) (5)
Bacteriophage ϕ29 DNA Polymerase (1995) (5)
phi29 DNA polymerase active site: role of residue Val250 as metal-dNTP complex ligand and in protein-primed initiation. (2010) (5)
Unlimited Cooperativity of Betatectivirus SSB, a Novel DNA Binding Protein Related to an Atypical Group of SSBs From Protein-Primed Replicating Bacterial Viruses (2021) (4)
The main early and late promoters of Bacillus subtilis phage phi 29 form unstable open complexes with sigma A-RNA polymerase that are stabilized by DNA supercoiling. (1993) (4)
Phage φ29 Proteins p1 and p17 Are Required for Efficient Binding of Architectural Protein p6 to Viral DNA In Vivo (2004) (4)
Homologies and Divergences in the Transcription Regulatory System of Two Related Bacillus subtilis Phages (2005) (4)
Phage φ29 And Its Relatives (2004) (4)
Symmetrical transcription in bacteriophage φ29 DNA (1988) (4)
The structure of replicating DNA molecules of Bacillus (1980) (4)
Protein-primed replication of bacteriophage phi 29 DNA. (1988) (4)
Initiation of phage phi 29 DNA replication by mutants with deletions at the amino end of the terminal protein. (1988) (4)
Synthesis of a class of DNA-binding proteins in synchronized untransformed and virus-transformed cells. (1976) (4)
Importance of the N-terminal Region of the Phage GA-1 Single-stranded DNA-binding Protein for Its Self-interaction Ability and Functionality* (2002) (4)
Analysis of Early Promoters of theBacillus Bacteriophage GA-1 (2001) (4)
The in vivo function of phage phi29 nucleoid-associated protein p6 requires formation of dimers. (2002) (4)
Head fibers of bacteriophage phi 29. (1972) (4)
Functional Specificity of a Protein-DNA Complex Mediated by Two Arginines Bound to the Minor Groove (2012) (4)
High diversity and variability of pipolins among a wide range of pathogenic Escherichia coli strains (2020) (4)
Disclosing the in vivo organization of a viral histone-like protein in Bacillus subtilis mediated by its capacity to recognize the viral genome (2012) (4)
Repair of Viral Genomes by Base Excision Pathways: African Swine Fever Virus as a Paradigm (2011) (4)
phi29 DNA polymerase residue Phe128 of the highly conserved (S/T)Lx(2)h motif is required for a stable and functional interaction with the terminal protein. (2003) (4)
Short N-terminal deletions in the phage phi 29 transcriptional activator protein impair its DNA-binding ability. (1990) (3)
Control mechanisms of bacteriophage phi 29 DNA expression. (1998) (3)
Improved artificial origins for phage Φ29 terminal protein-primed replication. Insights into early replication events (2014) (3)
Functional importance of bacteriophage phi29 DNA polymerase residue Tyr148 in primer-terminus stabilisation at the 3'-5' exonuclease active site. (2009) (3)
Assembly of B. subtilis phage ø29. I. Mutants in the cistrons coding for the structural proteins (1977) (3)
Physical map of bacteriophage phi29 DNA. (1976) (3)
In vitro replication of bacteriophage phi 29. (1984) (3)
Purification, Properties and Assembly of the Neck‐Appendage Protein of the Bacillus subtilis Phage φ 29 (2005) (3)
Phage phi 29 protein p6: a viral histone-like protein. (1994) (3)
Involvement of the "linker" region between the exonuclease and polymerization domains of phi29 DNA polymerase in DNA and TP binding. (2005) (3)
Tyrosines involved in the activity of φ29 single-stranded DNA binding protein (2019) (3)
Structural components of bacterio phage phi 29 (1970) (3)
Structural and functional analysis of phi29 p16.7C dimerization mutants: identification of a novel aromatic cage dimerization motif. (2007) (2)
Physical map of bacteriophage phi29 DNA. (1976) (2)
Cloning, nucleotide sequence and high level expression of the gene coding for the connector protein of Bacillus subtilis phage phi 29. (1984) (2)
Fidelity of phi29 DNA polymerase. Comparison between protein-primed initiation (1992) (2)
New insights into the coordination between the polymerization and 3′-5′ exonuclease activities in ϕ29 DNA polymerase (2019) (2)
Purification, properties and assembly of the neck-appendage protein of the Bacillus subtilis phage phi 29. (1981) (2)
Subcellular distribution of DNA-binding proteins from cultured hamster fibroblasts. (1976) (2)
Deletions at the N terminus of bacteriophage phi 29 protein p6: DNA binding and activity in phi 29 DNA replication. (1990) (2)
DNA structure in the nucleoprotein complex that activates replication of phage phi 29. (1994) (2)
Differential Spo0A-mediated effects on transcription and replication of the related Bacillus subtilis phages Nf and ϕ29 explain their different behaviours in vivo (2009) (2)
Mechanism of stimulation of DNA replication by bacteriophage ø29 SSB protein p5 (1991) (2)
BACTERIOPHAGE Φ 29 (1976) (2)
Kappa B Induces the Activation of Nuclear Factor African Swine Fever Virus IAP-Like Protein (2001) (2)
Structural and functional studies on ø29 DNA polymerase (2006) (2)
Structure of bacteriophage phi 29 DNA. (1984) (1)
Initiation of phage 429 DNA replication in vitro : Formation of a covalent complex between the terminal protein , p 3 , and 5 '-dAMP ( protein-dAMP complex / 5 '-terminal protein / covalent linkage ) (2003) (1)
Biophysical properties of bacteriophage phi29. (1974) (1)
A passion for research (2009) (1)
Nucleic Acids Research (2010) (1)
Mapping of temperature sensitive mutants of bacteriophage Φ29 (2004) (1)
Analysis of Direct Interaction between Viral DNA-binding Proteins by Protein Pull-down Co-immunoprecipitation Assay. (2018) (1)
Bacteriophage ϕ29 infection of Bacillus subtilis minicells (2004) (1)
Overproduction and purification of the gene 2 product involved in the initiation of phage phi 29 replication. (1984) (1)
Transition fromInitiation toElongation inProtein-Primed +29DNA Replication: Salt-Dependent Stimulation bytheViral Protein p6 (1988) (1)
Bacillus phage ϕ29 (Podoviridae) (1999) (1)
Control mechanisms of bacteriophage φ 29 DNA expression (2001) (1)
Dissecting the role of the ϕ29 terminal protein DNA binding residues in viral DNA replication (2015) (1)
Engineered viral DNA polymerase with enhanced DNA amplification capacity: a proof-of-concept of isothermal amplification of damaged DNA (2020) (1)
Identification of the Translocation Step of a Replicative DNA Polymerase (2014) (1)
Structural Features of (cid:102) 29 Single-stranded DNA-binding Protein II. GLOBAL CONFORMATION OF (cid:102) 29 SINGLE-STRANDED DNA-BINDING PROTEIN AND THE EFFECTS OF COMPLEX FORMATION ON THE PROTEIN AND THE SINGLE-STRANDED DNA* (1996) (1)
Head-neck connecting protein in phage phi29. (1972) (1)
IN VITRO TRANSCRIPTION OF BACTERIOPHAGE Q29 DNA1 (1984) (1)
Engineering Permissive Insertion Sites in the Bacteriophage Phi29 DNA-Linked Terminal Protein (2016) (1)
Structural and functional studies on phi 29 DNA polymerase. (1992) (1)
Molecular Interactions and Protein-Induced DNA Hairpin in the Transcriptional Control of Bacteriophage Ø29 DNA (2010) (1)
Dna Unwinding Dynamics of a Processive DNA Polymerase (2011) (1)
African Swine Fever Virus Polyprotein Processing Proteinase (2013) (1)
Terminal protein priming of DNA replication: bacteriophage phi29 as a model system. (1992) (1)
Immunization Can Confer Protection against Lethal Challenge with African Swine Fever Virus (2014) (0)
Cloning and expression in Escherichia coli of the gene coding for the protein linked to the ends of Bacillus subtilis phage phi 29 DNA. (1983) (0)
How I became a Biochemist (2006) (0)
Structure of BsUDG (2013) (0)
Unraveling protein interactions between the temperate virus Bam35 and its Bacillus host using an integrative Yeast two hybrid-High throughput sequencing approach (2021) (0)
The structure of phage phi29 replication organizer protein p16.7 (2005) (0)
Phi29 DNA polymerase complexed with primer-template DNA and incoming nucleotide substrates (ternary complex) (2007) (0)
IN THE INITIATION OF PHAGE ~29 REPLICATION (1984) (0)
φ29-like viruses (2002) (0)
Site-directed mutagenesis attheExoIllmotif of029 DNA polymerase; overlapping structural domainsforthe 3'5'exonuclease andstrand-displacement activities (1992) (0)
Site- directed mutagenesis intheDNAlinking site ofbacteriophage 429terminal protein: isolation andcharacterization ofaSer232 - Thrmutant (1988) (0)
Structural and Functional Analysis of 29 p16.7C Dimerization Mutants IDENTIFICATIONOFANOVELAROMATICCAGEDIMERIZATIONMOTIF (2007) (0)
Severo Ochoa: Biochemistry as a hobby (2012) (0)
Phage phi29 transcription regulator p4-DNA complex (2006) (0)
Phage Φ29: Membrane-associated DNA Replication and Mechanism of Alternative Infection Strategy (2007) (0)
fever virus in the maintenance of viral genome stability in vivo 2 (2013) (0)
Phi29 DNA polymerase complexed with primer-template DNA (post-translocation binary complex) (2007) (0)
A DNAbinding motifcoordinating synthesis and degradation inproofreading DNA polymerases (1996) (0)
4932 Nucleic Acids Research , Vol . 20 , No . 18 Activation of S 1 nuclease at neutral pH (2003) (0)
terminal protein and the DNA polymerase. the replication: formation of a complex between Effect of NH4+ ions on phi 29 DNA-protein p3 (2013) (0)
Structure of BsUDG-p56 complex (2013) (0)
Structural Features of φ29 Single-stranded DNA-binding Protein (1997) (0)
Protein p 4 represses phage 4 F 29 A 2 c promoter by interacting with the a subunit of Bacillus subtilis RNA polymerase ( gene expression / promoters / transcription repression / protein-protein interactions / prokaryotes (2005) (0)
The Phage (cid:2) 29 Membrane Protein p16.7, Involved in DNA Replication, Is Required for Efﬁcient Ejection of the Viral Genome (cid:1) (2007) (0)
Temperature-sensitive mutants of bacteriophage phi-29. (1971) (0)
The structure of phage phi29 replication organizer protein p16.7 in complex with double stranded DNA (2005) (0)
Phi29 DNA polymerase ssDNA complex, monoclinic crystal form (2004) (0)
PRIMING OF PHAGE Ø29 REPLICATION BY PROTEIN p3, COVALENTLY LINKED TO THE 5′ ENDS OF THE DNA (1981) (0)
Bacteriophage phi 29 infection of Bacillus subtilis minicells. (1980) (0)
New insights into the coordination between the polymerization and 3′-5′ exonuclease activities in ϕ29 DNA polymerase (2019) (0)
Determination of Mutation Frequency During Viral DNA Replication (2014) (0)
Strand Displacement and Unwinding Assays to Study the Concerted Action of the DNA Polymerase and SSB During Phi29 TP-DNA Replication. (2021) (0)
Symmetrical transcription in bacteriophage phi 29 DNA. (1988) (0)
DNA-binding proteins and the G1 leads to S transition in normal and virus-transformed cells. (1975) (0)
InVitro Transcription ofBacteriophage CF29DNA:Inhibition of Early Promoters bytheViral Replication Protein p6 (1989) (0)
Phi29 DNA Polymerase, orthorhombic crystal form (2004) (0)
Order of the two major head proteins of bacteriophage ø29 of Bacillus subtilis (1977) (0)
Structure of the Functional Domain of φ29 Replication Organizer (2005) (0)
Characterization of Gene Products and Functions (2004) (0)
Regions at the carboxyl end of bacteriophage phi 29 protein p6 required for DNA binding and activity in phi 29 DNA replication. (1989) (0)
CHARACTERIZATION AND SEQUENCE OF IN VIVO ϕ29 PROMOTERS BY S1 MAPPING1 (1986) (0)
Phi29 DNA polymerase complexed with single-stranded DNA (2007) (0)
Unraveling Protein Interactions between the Temperate Virus Bam35 and Its Bacillus Host Using an Integrative Yeast Two Hybrid–High Throughput Sequencing Approach (2021) (0)
In vitro DNA synthesis reactions using a modified phi-29 DNA polymerase and said polymerase encoding DNA fragmentary (1990) (0)
Intrinsic AP endonuclease activity enables Bacillus subtilis DNA polymerase X to recognize , incise and further repair abasic sites (2011) (0)
Unconventional membrane biogenesis of large DNA viruses revealed by electron tomography (2015) (0)
Structural features of phi29 single-stranded DNA-binding protein. II. Global conformation of phi29 single-stranded DNA-binding protein and the effects of complex formation on the protein and the single-stranded DNA. (1997) (0)
Expression through a NFAT- Dependent Transactivation Pathway. (2004) (0)
DNA-Binding Proteins and the G1→S Transition in Normal and Virus-Transformed Cells (1976) (0)
Characterization ofa DNAbinding protein of bacteriophage PRD1involved inDNAreplication (1990) (0)
Overproduction and purification of protein P 6 of Bacius subtiis phage 429 : role in the initiation of DNA replcdon (0)
Y'RANSLATION OF THE GENETIC MIESSA-GE, III. FORIMYLMETHIONINE AS INITIATO01 OF PROTEINS PROGlRAMEID BY POLYC(STRONIC MESSENGER RNA * (2016) (0)
Protein p 3 is linked to the DNA of phage 029 through a phosphoester bond between serine and 5 '-dAMP ( initiation of replication / Bacillus subtilis / nucleotidyl-peptide / acid and alkali hydrolysis ) (0)
A single-molecule mechanical assay to study DNA replication coupled to DNA unwinding (2008) (0)
Solution structure of the functional domain of phi29 replication organizer p16.7C (2005) (0)
Mapping of temperature sensitive mutants of bacteriophage phi 29. (1972) (0)
The Essential Role of the 3′ Terminal Template Base in the First Steps of Protein-Primed DNA Replication (2012) (0)
5 for Priming DNA Synthesis (1996) (0)
Structural and Functional Analysis of φ29 p16.7C Dimerization Mutants (2007) (0)
Signals in the phi 29 DNA-terminal protein template for the initiation of phage phi 29 DNA replication. (1986) (0)
Bacteriophage Φ29 Early Protein p17 (2003) (0)
Structural proteins of bacteriophage phi 29. (1971) (0)
PROTEIN p3 COVALENTLY LINKED TO THE 5' TERMINI OF ∅29 DNA AND ITS POSSIBLE ROLE AS PRIMER IN THE INITIATION OF DNA REPLICATION (1980) (0)
Phi29 DNA polymerase, orthorhombic crystal form, ssDNA complex (2004) (0)
Self-replication of DNA by its encoded proteins in liposome-based synthetic cells (2018) (0)
9 Protein-Primed Replication of Bacteriophage 29 DNA (2012) (0)
Transcription regulation in Bacillus subtilis phage phi 29. (1991) (0)
Nucleic Acids Research (2015) (0)
Replication of phage 429 DNA with purified terminal protein and DNA polymerase: Synthesis of full-length 429 DNA (0)
Reactions de synthese d'adn (in vitro) utilisant la polymerase de phi 29 adn modifiee, et un fragment d'adn codant ladite polymerase (1990) (0)
Phi29-like viruses (Podoviridae) (2002) (0)
TRANSCRIPTION INITIATION AND TERMINATION SIGNALS OF THE BACILLUS SUBTILIS PHAGE ϕ29 DNA (1988) (0)
The fully resolved genome of Bacillus thuringiensis HER1410 reveals a cry-containing chromosome, two megaplasmids & an integrative plasmidial prophage (2020) (0)
Characterization of the 3 5 exonuclease active site in the phi 29 dna polymerase (1989) (0)
The Loop of the TPR1 Subdomain of Phi29 DNA Polymerase Plays a Pivotal Role in Primer-Terminus Stabilization at the Polymerization Active Site (2019) (0)
Purification in a functional form of the terminal protein of Bacillus subtilis phage 429 ( initiation of replication / DNA-linked protein / radioimmunoassay ) (2003) (0)
Metal requirements for the catalytic activities of phi29 DNA polymerase. (1990) (0)
Phage phi29 transcription regulator p4 (2006) (0)
Metal activation and insertion fidelity of phi29 DNA polymerase (1991) (0)
Structural andfunctional analysis oftemperature-sens itive mutants ofthephagef29DNApolymerase (1990) (0)
Bacteriophage phi29 DNA polymerase bound to terminal protein (2006) (0)
Multimeric Structures Protein p1 into Membrane-associated 29 Replication ϕ Assembly of Phage In Vivo Recombination: (2013) (0)
System Approach to Bio-Oil Production from Microalgae (2018) (0)
Correlation between in vitro and in vivo In vitro transcription of bacteriophage 029 DNA . Correlation between in vitro and in vivo promoters (0)
My scientific life (2016) (0)

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