Mutations in the right operator of bacteriophage lambda: Evidence for operator-promoter interpenetration

George W. Ordal; A. D. Kaiser

doi:10.1016/0022-2836(73)90073-9

Mutations in the right operator of bacteriophage lambda: Evidence for operator-promoter interpenetration

George W. Ordal, A. D. Kaiser

Research output: Contribution to journal › Article › peer-review

Abstract

A set of virulent mutants of bacteriophage lambda have been selected from λv2 v3. The sites of mutation form two microclusters, both close to v3. Some of the mutants, selected for their ability to grow on a λ-lysogen, can also grow on a λdv carrier strain. They are called "supervirulent" and a mutation conferring super-virulence is called vs. The sites of mutation to vs lie between the presumed promoter mutants (x3, x7) and x13, implying that the operator and promoter interpenetrate each other. The relative affinities of λ repressor for binding, in vitro, to λv⁺, λv3, λvs326, and λv3 vs327 DNA were 1, 1 4, 1 20, and 1 4000, respectively. We suggest that two separate mutations in the right operator are needed to confer virulence because promoter sites lie within the operator.

Original language	English (US)
Pages (from-to)	709-722
Number of pages	14
Journal	Journal of Molecular Biology
Volume	79
Issue number	4
DOIs	https://doi.org/10.1016/0022-2836(73)90073-9
State	Published - Oct 5 1973
Externally published	Yes

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Structural Biology
Molecular Biology

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title = "Mutations in the right operator of bacteriophage lambda: Evidence for operator-promoter interpenetration",

abstract = "A set of virulent mutants of bacteriophage lambda have been selected from λv2 v3. The sites of mutation form two microclusters, both close to v3. Some of the mutants, selected for their ability to grow on a λ-lysogen, can also grow on a λdv carrier strain. They are called {"}supervirulent{"} and a mutation conferring super-virulence is called vs. The sites of mutation to vs lie between the presumed promoter mutants (x3, x7) and x13, implying that the operator and promoter interpenetrate each other. The relative affinities of λ repressor for binding, in vitro, to λv+, λv3, λvs326, and λv3 vs327 DNA were 1, 1 4, 1 20, and 1 4000, respectively. We suggest that two separate mutations in the right operator are needed to confer virulence because promoter sites lie within the operator.",

author = "Ordal, {George W.} and Kaiser, {A. D.}",

note = "Funding Information: The authors thank Dr L. F. Reichardt for his gift of repressor and Dr S. F. Heinemann for valuable discussions of this work. One of us (G. W. 0.) was supported by United States Public Health Service traineeship grant no. 5TIGM00196 administered by the Department of Biochemistry, Stanford University.",

year = "1973",

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doi = "10.1016/0022-2836(73)90073-9",

language = "English (US)",

volume = "79",

pages = "709--722",

journal = "Journal of Molecular Biology",

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T1 - Mutations in the right operator of bacteriophage lambda

T2 - Evidence for operator-promoter interpenetration

AU - Ordal, George W.

AU - Kaiser, A. D.

N1 - Funding Information: The authors thank Dr L. F. Reichardt for his gift of repressor and Dr S. F. Heinemann for valuable discussions of this work. One of us (G. W. 0.) was supported by United States Public Health Service traineeship grant no. 5TIGM00196 administered by the Department of Biochemistry, Stanford University.

PY - 1973/10/5

Y1 - 1973/10/5

N2 - A set of virulent mutants of bacteriophage lambda have been selected from λv2 v3. The sites of mutation form two microclusters, both close to v3. Some of the mutants, selected for their ability to grow on a λ-lysogen, can also grow on a λdv carrier strain. They are called "supervirulent" and a mutation conferring super-virulence is called vs. The sites of mutation to vs lie between the presumed promoter mutants (x3, x7) and x13, implying that the operator and promoter interpenetrate each other. The relative affinities of λ repressor for binding, in vitro, to λv+, λv3, λvs326, and λv3 vs327 DNA were 1, 1 4, 1 20, and 1 4000, respectively. We suggest that two separate mutations in the right operator are needed to confer virulence because promoter sites lie within the operator.

AB - A set of virulent mutants of bacteriophage lambda have been selected from λv2 v3. The sites of mutation form two microclusters, both close to v3. Some of the mutants, selected for their ability to grow on a λ-lysogen, can also grow on a λdv carrier strain. They are called "supervirulent" and a mutation conferring super-virulence is called vs. The sites of mutation to vs lie between the presumed promoter mutants (x3, x7) and x13, implying that the operator and promoter interpenetrate each other. The relative affinities of λ repressor for binding, in vitro, to λv+, λv3, λvs326, and λv3 vs327 DNA were 1, 1 4, 1 20, and 1 4000, respectively. We suggest that two separate mutations in the right operator are needed to confer virulence because promoter sites lie within the operator.

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Mutations in the right operator of bacteriophage lambda: Evidence for operator-promoter interpenetration

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