A.D.M. van Mansfeld scite author profile

Bacteriophage phi X174 encoded gene A protein is an enzyme required for initiation and termination of successive rounds of rolling circle phi X DNA replication. This enzyme catalyses cleavage and ligation of a phosphodiester bond between nucleotide residues G and A at the phi X origin. The cleavage reaction which occurs during initiation involves formation of a free GOH residue at one end and a covalent bond between tyrosine-OH of the gene A protein and 5' phosphate of the A residue, at the other end of the cleavage site. During termination the covalently bound gene A protein cleaves the phosphodiester bond between G and A at the regenerated origin and ligates the 3' and 5' ends of the displaced genome-length viral DNA to form a circle. Since tyrosyl-OH mediated rearrangements of phosphodiester bonds in DNA may also apply to other enzymes involved in replication or recombination such as topoisomerases we have studied this interesting mechanism in greater detail. Analysis of 32P-labelled gene A protein-DNA complex by tryptic digestion followed by sequencing of 32P-containing peptides showed that two tyrosyl residues in the repeating sequence tyr-val-ala-lys-tyr-val-asn-lys participate in phosphodiester bond cleavage. Either one of these tyrosyl residues can function as the acceptor of the DNA chain. In an alpha-helix the side chains of these tyrosyl residues are in juxtaposition. An enzymatic mechanism is proposed in which these two tyrosyl-OH groups participate in an alternating manner in successive cleavage and ligations which occur during phosphodiester bond rearrangements of DNA.

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Nucleotide sequence of the origin of replication in bacteriophage ΦX174 RF DNA

Langeveld

Mansfeld

Baas

et al. 1978

Nature

137

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Islet amyloid polypeptide: Identification and chromosomal localization of the human gene

et al. 1988

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Islet or insulinoma amyloid polypeptide (IAPP) is a 37 amino acid polypeptide isolated from pancreatic amyloid. Here, we describe the isolation and partial characterization of the human gene encoding IAPP. The DNA sequence predicts that IAPP is excised from a larger precursor protein and that its carboxy-terminus is probably amidated. The predicted normally occurring IAPP is identical to the reported polypeptides isolated from pancreatic amyloid, except for the amidated carboxy-terminus.IAPP specific polyadenylated RNAs of 1.6 kb and 2.1 kb are present in human insulinoma RNA. The human IAPP gene is located on chromosome 12.

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Replication of origin containing adenovirus DNA fragments that do not carry the terminal protein

et al. 1983

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Nuclear extracts from adenovirus type 5 (Ad5) infected HeLa cells were used to study the template requirements for adenovirus DNA replication in vitro. When XbaI digested Ad5 DNA, containing the parental terminal protein (TP), was used as a template preferential synthesis of the terminal fragments was observed. The newly synthesized DNA was covalently bound to the 82 kD preterminal protein (pTP). Plasmid DNAs containing the Ad2 origin sequence or the Ad12 origin sequence with small deletions were analyzed for their capacity to support pTP-primed DNA replication. Circular plasmid DNAs were inactive. When plasmids were linearized to expose the adenovirus origin, both Ad2 and Ad12 TP-free fragments could support initiation and elongation similarly as Ad5 DNA-TP, although with lower efficiency. These observations indicate that the parental terminal protein is dispensable for initiation in vitro. The presence of 29 nucleotides ahead of the molecular end or a deletion of 14 base pairs extending into the conserved sequence (9-22) destroyed the template activity. DNA with a large deletion within the first 8 base pairs could still support replication while a small deletion could not. The results suggest that only G residues at a distance of 4-8 nucleotides from the start of the conserved sequence can be used as template during initiation of DNA replication.

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Cleavage of single-stranded DNA by the A and A^*proteins of bacteriophage φX174

Langeveld

Mansfeld²,

Winter

et al. 1979

Nucl Acids Res

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The purified A protein and A* protein of bacteriophage phi X174 have been tested for endonuclease activity on single stranded viral phi X174 DNA. The A protein (55.000 daltons) nicks single-stranded DNA in the same way and at the same place as it does superhelical RFI DNA, at the origin of DNA replication. The A* protein (37.000 daltons) can cleave the single-stranded viral DNA at many different sites. It has however a strong preference for the origin of replication. Both proteins generate 3'OH ends and blocked 5' termini at the nick site.

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Discordance of p53 status in matched primary tumours and metastases in head and neck squamous cell carcinoma patients

Kropveld

Mansfeld

Nabben

et al. 1996

European Journal of Cancer Part B: Oral Oncology

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The nuclease specificity of the bacteriophage øX174 A^*protein

Langeveld¹,

Mansfeld²,

Ende³

et al. 1981

Nucl Acids Res

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The A* protein of bacteriophage phi X174 is a single-stranded DNA specific nuclease. It can cleave phi X viral ss DNA in many different places. The position of these sites have been determined within the known phi X174 nucleotide sequence (1). From the sequences at these sites it is clear that the A* protein recognizes and cleaves at sites that show only partial homology with the origin of RF DNA replication in the phi X DNA. Different parts of the origin sequence can be deduced that function as a signal for recognition and cleavage by the A* protein. We conclude that different parts within the DNA recognition domain of the A* protein are functional in the recognition of the origin sequence in single-stranded DNA. The existence of different DNA recognition domains in the A* protein, and therefore also in the A protein, leads to a model that can explain how the A protein performs its multiple function in the phi X174 DNA replication process (2).

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Construction of viable and lethal mutations in the origin of bacteriophage φX174 using synthetic oligodeoxyribonucleotides

Baas

Teertstra

Mansfeld

et al. 1981

Journal of Molecular Biology

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12 3 4

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A.D.M. van Mansfeld

Two juxtaposed tyrosyl-OH groups participate in 0X174 gene A protein catalysed cleavage and ligation of DNA

Nucleotide sequence of the origin of replication in bacteriophage ΦX174 RF DNA

Islet amyloid polypeptide: Identification and chromosomal localization of the human gene

Replication of origin containing adenovirus DNA fragments that do not carry the terminal protein

Cleavage of single-stranded DNA by the A and A^*proteins of bacteriophage φX174

Discordance of p53 status in matched primary tumours and metastases in head and neck squamous cell carcinoma patients

The nuclease specificity of the bacteriophage øX174 A^*protein

Construction of viable and lethal mutations in the origin of bacteriophage φX174 using synthetic oligodeoxyribonucleotides

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A.D.M. van Mansfeld

Two juxtaposed tyrosyl-OH groups participate in 0X174 gene A protein catalysed cleavage and ligation of DNA

Nucleotide sequence of the origin of replication in bacteriophage ΦX174 RF DNA

Islet amyloid polypeptide: Identification and chromosomal localization of the human gene

Replication of origin containing adenovirus DNA fragments that do not carry the terminal protein

Cleavage of single-stranded DNA by the A and A*proteins of bacteriophage φX174

Discordance of p53 status in matched primary tumours and metastases in head and neck squamous cell carcinoma patients

The nuclease specificity of the bacteriophage øX174 A*protein

Construction of viable and lethal mutations in the origin of bacteriophage φX174 using synthetic oligodeoxyribonucleotides

Contact Info

Product

Resources

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Cleavage of single-stranded DNA by the A and A^*proteins of bacteriophage φX174

The nuclease specificity of the bacteriophage øX174 A^*protein