New Applications for Phage Integrases

Rapid optimization of engineered metabolic pathways with serine integrase recombinational assembly (SIRA)

Merrick, C.A.
Wardrope, C.
Paget, J.E.
Colloms, S.D.
Rosser, S.J.

January 2016

Metabolic pathway engineering in microbial hosts for heterologous biosynthesis of commodity compound...

Application of Serine Integrases for Secondary Metabolite Pathway Assembly in Streptomyces

Gao, Hong
Taylor, Gabrielle
Evans, Stephanie
Fogg, Paul
Smith, Margaret

June 2020

Serine integrases have been shown to be efficient tools for metabolic pathway assembly. To further i...

Characterization of the site-specific recombination system of phage ΦD145, and its capacity to promote recombination in human cells

Mandali, Sridhar
Cardoso-Palacios, Carlos
Sylwan, Lina
Haggård-Ljungquist, Elisabeth

December 2010

AbstractPhage integrases have the potential of becoming tools for safe site-specific integration of ...

New Applications for Phage Integrases

Fogg, Paul C.M.
Colloms, Sean
Rosser, Susan
Stark, Marshall
Smith, Margaret C.M.

July 2014

AbstractWithin the last 25 years, bacteriophage integrases have rapidly risen to prominence as genet...

New applications for phage integrases

Fogg, Paul C.M.
Colloms, Sean
Rosser, Susan
Stark, Marshall
Smith, Margaret C.M.

July 2014

Within the last 25 years, bacteriophage integrases have rapidly risen to prominence as genetic tools...

Making serine integrases work for us

Stark, W. Marshall

August 2017

DNA site-specific recombinases are enzymes (often associated with mobile DNA elements) that catalyse...

Genome integration and excision by a new Streptomyces bacteriophage, ϕJoe

Fogg, Paul C M
Haley, Joshua A
Stark, W Marshall
Smith, Margaret C M

February 2017

Bacteriophages are the source of many valuable tools for molecular biology and genetic manipulation....

Phage integrases for the construction and manipulation of transgenic mammals

Sclimenti Christopher R
Stoll Stephanie M
Hollis Roger P
Lin Jennifer
Chen-Tsai Yanru
Calos Michele P

November 2003

Abstract Phage integrases catalyze site-specific, unidirectional recombination between two short att...

Comparison and optimization of ten phage encoded serine integrases for genome engineering in Saccharomyces cerevisiae

Xu, Zhengyao
Brown, William

February 2016

Background: Phage-encoded serine integrases, such as ϕC31 integrase, are widely used for genome engi...

Multipart DNA assembly using site-specific recombinases from the large serine integrase family

Olorunniji, Femi J.
Merrick, Christine
Rosser, Susan J.
Smith, Margaret C.M.
Stark, W. Marshall
Colloms, Sean D.

January 2017

Assembling multiple DNA fragments into functional plasmids is an important and often rate-limiting s...

Serine integrases as a toolbox for genome editing

Snoeck, Nico
De Mol, Maarten
Van Herpe, Dries
De Maeseneire, Sofie
Beauprez, Joeri
Soetaert, Wim

January 2017

The development of a biological production platform for specialty chemicals requires on the one hand...

Control of serine integrase recombination directionality by fusion with the directionality factor

Olorunniji, Femi J.
McPherson, Arlene L.
Rosser, Susan J.
Smith, Margaret C.M.
Colloms, Sean D.
Stark, W. Marshall

August 2017

Bacteriophage serine integrases are extensively used in biotechnology and synthetic biology for asse...

Serine integrase recombinational engineering (SIRE) : a versatile toolbox for genome editing

Snoeck, Nico
De Mol, Maarten
Van Herpe, Dries
Goormans, Anke
Maryns, Isabelle
Coussement, Pieter
Peters, Gert
Beauprez, Joeri
De Maeseneire, Sofie
Soetaert, Wim

January 2019

Chromosomal integration of biosynthetic pathways for the biotechnological production of high-value c...

Application of serine integrases for secondary metabolite pathway assembly in Streptomyces

Gao, Hong
Taylor, Gabrielle
Evans, Stephanie K.
Fogg, Paul C.M.
Smith, Margaret C.M.

June 2020

Serine integrases have been shown to be efficient tools for metabolic pathway assembly. To further i...

Genome integration and excision by a new Streptomyces Bacteriophage ϕJoe

Fogg, Paul C.M.
Haley, Joshua A.
Stark, W. Marshall
Smith, Margaret C.M.

March 2017

Bacteriophages are the source of many valuable tools for molecular biology and genetic manipulation....

Rapid optimization of engineered metabolic pathways with serine integrase recombinational assembly (SIRA)

Merrick, C.A.
Wardrope, C.
Paget, J.E.
Colloms, S.D.
Rosser, S.J.

January 2016

Metabolic pathway engineering in microbial hosts for heterologous biosynthesis of commodity compound...

Application of Serine Integrases for Secondary Metabolite Pathway Assembly in Streptomyces

Gao, Hong
Taylor, Gabrielle
Evans, Stephanie
Fogg, Paul
Smith, Margaret

June 2020

Serine integrases have been shown to be efficient tools for metabolic pathway assembly. To further i...

Characterization of the site-specific recombination system of phage ΦD145, and its capacity to promote recombination in human cells

Mandali, Sridhar
Cardoso-Palacios, Carlos
Sylwan, Lina
Haggård-Ljungquist, Elisabeth

December 2010

AbstractPhage integrases have the potential of becoming tools for safe site-specific integration of ...

New Applications for Phage Integrases

Fogg, Paul C.M.
Colloms, Sean
Rosser, Susan
Stark, Marshall
Smith, Margaret C.M.

July 2014

AbstractWithin the last 25 years, bacteriophage integrases have rapidly risen to prominence as genet...

New applications for phage integrases

Fogg, Paul C.M.
Colloms, Sean
Rosser, Susan
Stark, Marshall
Smith, Margaret C.M.

July 2014

Within the last 25 years, bacteriophage integrases have rapidly risen to prominence as genetic tools...

Making serine integrases work for us

Stark, W. Marshall

August 2017

DNA site-specific recombinases are enzymes (often associated with mobile DNA elements) that catalyse...

Genome integration and excision by a new Streptomyces bacteriophage, ϕJoe

Fogg, Paul C M
Haley, Joshua A
Stark, W Marshall
Smith, Margaret C M

February 2017

Bacteriophages are the source of many valuable tools for molecular biology and genetic manipulation....

Phage integrases for the construction and manipulation of transgenic mammals

Sclimenti Christopher R
Stoll Stephanie M
Hollis Roger P
Lin Jennifer
Chen-Tsai Yanru
Calos Michele P

November 2003

Abstract Phage integrases catalyze site-specific, unidirectional recombination between two short att...

Comparison and optimization of ten phage encoded serine integrases for genome engineering in Saccharomyces cerevisiae

Xu, Zhengyao
Brown, William

February 2016

Background: Phage-encoded serine integrases, such as ϕC31 integrase, are widely used for genome engi...

Multipart DNA assembly using site-specific recombinases from the large serine integrase family

Olorunniji, Femi J.
Merrick, Christine
Rosser, Susan J.
Smith, Margaret C.M.
Stark, W. Marshall
Colloms, Sean D.

January 2017

Assembling multiple DNA fragments into functional plasmids is an important and often rate-limiting s...

Serine integrases as a toolbox for genome editing

Snoeck, Nico
De Mol, Maarten
Van Herpe, Dries
De Maeseneire, Sofie
Beauprez, Joeri
Soetaert, Wim

January 2017

The development of a biological production platform for specialty chemicals requires on the one hand...

Control of serine integrase recombination directionality by fusion with the directionality factor

Olorunniji, Femi J.
McPherson, Arlene L.
Rosser, Susan J.
Smith, Margaret C.M.
Colloms, Sean D.
Stark, W. Marshall

August 2017

Bacteriophage serine integrases are extensively used in biotechnology and synthetic biology for asse...

Serine integrase recombinational engineering (SIRE) : a versatile toolbox for genome editing

Snoeck, Nico
De Mol, Maarten
Van Herpe, Dries
Goormans, Anke
Maryns, Isabelle
Coussement, Pieter
Peters, Gert
Beauprez, Joeri
De Maeseneire, Sofie
Soetaert, Wim

January 2019

Chromosomal integration of biosynthetic pathways for the biotechnological production of high-value c...

Application of serine integrases for secondary metabolite pathway assembly in Streptomyces

Gao, Hong
Taylor, Gabrielle
Evans, Stephanie K.
Fogg, Paul C.M.
Smith, Margaret C.M.

June 2020

Serine integrases have been shown to be efficient tools for metabolic pathway assembly. To further i...

Genome integration and excision by a new Streptomyces Bacteriophage ϕJoe

Fogg, Paul C.M.
Haley, Joshua A.
Stark, W. Marshall
Smith, Margaret C.M.

March 2017

Bacteriophages are the source of many valuable tools for molecular biology and genetic manipulation....

Rapid optimization of engineered metabolic pathways with serine integrase recombinational assembly (SIRA)

Merrick, C.A.
Wardrope, C.
Paget, J.E.
Colloms, S.D.
Rosser, S.J.

January 2016

Metabolic pathway engineering in microbial hosts for heterologous biosynthesis of commodity compound...

Application of Serine Integrases for Secondary Metabolite Pathway Assembly in Streptomyces

Gao, Hong
Taylor, Gabrielle
Evans, Stephanie
Fogg, Paul
Smith, Margaret

June 2020

Serine integrases have been shown to be efficient tools for metabolic pathway assembly. To further i...

Characterization of the site-specific recombination system of phage ΦD145, and its capacity to promote recombination in human cells

Mandali, Sridhar
Cardoso-Palacios, Carlos
Sylwan, Lina
Haggård-Ljungquist, Elisabeth

December 2010

AbstractPhage integrases have the potential of becoming tools for safe site-specific integration of ...

New Applications for Phage Integrases

Abstract

Extracted data

New Applications for Phage Integrases

Abstract

Extracted data

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