TY - JOUR
T1 - Isolation and Mapping of t Gene Mutants of Bacteriophage T4D
AU - Thiel, Teresa
AU - Astrachan, Lazarus
N1 - A procedure for selective isolation of T4 t mutants is described. At 120 min after infection of Escherichia coli cells with a low multiplicity of T4 bacteriophage, the mixture was sedimented through a linear sucrose gradient, and infected cells that remained intact were collected as the fastest sedimenting fraction.
PY - 1977/11/1
Y1 - 1977/11/1
N2 - A procedure for selective isolation of T4 t mutants is described. At 120 min after infection of Escherichia coli cells with a low multiplicity of T4 bacteriophage, the mixture was sedimented through a linear sucrose gradient, and infected cells that remained intact were collected as the fastest sedimenting fraction. Ten to 50% of the phage released by chloroform treatment of this fraction were t mutants. Collection of a high proportion of t mutants depended on efficient elimination of cells that would survive because of superinfection lysis inhibition. This was accomplished by early addition of anti-T4 serum and heat-killed cells to inactivate progeny wild-type phage released at the normal burst time. Of 85 t mutants that were isolated and mapped, 23 new mutations were found, 14 of which are suppressible by an rII mutation and 9 of which are suppressible by rII or amber suppressors. Two hot-spot sites for spontaneous mutations were found; 14 mutants at one site, represented by a frameshift mutation, and 12 mutants at a second site were obtained from 39 spontaneous mutants independently isolated from different parental plaques. On our map of the t gene, the distance between the farthest t mutations is 6% recombination. A nonreverting triple t mutant, constructed to contain a frameshift mutation between two amber mutations, exhibited the same t mutant phenotype observed with revertible t mutants.
AB - A procedure for selective isolation of T4 t mutants is described. At 120 min after infection of Escherichia coli cells with a low multiplicity of T4 bacteriophage, the mixture was sedimented through a linear sucrose gradient, and infected cells that remained intact were collected as the fastest sedimenting fraction. Ten to 50% of the phage released by chloroform treatment of this fraction were t mutants. Collection of a high proportion of t mutants depended on efficient elimination of cells that would survive because of superinfection lysis inhibition. This was accomplished by early addition of anti-T4 serum and heat-killed cells to inactivate progeny wild-type phage released at the normal burst time. Of 85 t mutants that were isolated and mapped, 23 new mutations were found, 14 of which are suppressible by an rII mutation and 9 of which are suppressible by rII or amber suppressors. Two hot-spot sites for spontaneous mutations were found; 14 mutants at one site, represented by a frameshift mutation, and 12 mutants at a second site were obtained from 39 spontaneous mutants independently isolated from different parental plaques. On our map of the t gene, the distance between the farthest t mutations is 6% recombination. A nonreverting triple t mutant, constructed to contain a frameshift mutation between two amber mutations, exhibited the same t mutant phenotype observed with revertible t mutants.
UR - https://europepmc.org/articles/PMC515962
U2 - 10.1128/JVI.24.2.518-524.1977
DO - 10.1128/JVI.24.2.518-524.1977
M3 - Article
VL - 24
JO - Journal of Virology
JF - Journal of Virology
ER -