Simplified Insertion of Transgenes Onto Balancer Chromosomes via Recombinase-Mediated Cassette Exchange

Testing transposable elements as genetic drive mechanisms using Drosophila P element constructs as a model system

Carareto, CMA
Kim, W.
Wojciechowski, M. F.
O'Grady, P.
Prokchorova, A. V.
Silva, J. C.
Kidwell, M. G.

January 1997

The use of transposable elements (TEs) as genetic drive mechanisms was explored using Drosophila mel...

An Aneuploidy-Free and Structurally Defined Balancer Chromosome Toolkit for Caenorhabditis elegans

Katsufumi Dejima
Sayaka Hori
Satoru Iwata
Yuji Suehiro
Sawako Yoshina
Tomoko Motohashi
Shohei Mitani

January 2018

Summary: Balancer chromosomes are critical tools for genetic research. In C. elegans, reciprocal tra...

Engineered Reciprocal Chromosome Translocations Drive High Threshold, Reversible Population Replacement in Drosophila

Buchman, Anna B.
Ivy, Tobin
Marshall, John M.
Akbari, Omar S.
Hay, Bruce A.

May 2018

Replacement of wild insect populations with transgene-bearing individuals unable to transmit disease...

Transgenic tools for targeted chromosome rearrangements allow construction of balancer chromosomes in non-<i>melanogaster Drosophila</i> species

David L Stern

February 2022

AbstractPerhaps the most valuable single set of resources for genetic studies of Drosophila melanoga...

A Toolkit of Engineered Recombinational Balancers in C. elegans

Schwartz, Hillel T.
Sternberg, Paul W.

April 2018

Dejima and colleagues report using CRISPR/Cas9 to generate a new collection of greatly improved bala...

Genome engineering: Drosophila melanogaster and beyond.

Venken, KJT
Sarrion-Perdigones, A
Vandeventer, PJ
Abel, NS
Christiansen, AE
Hoffman, KL

March 2016

A central challenge in investigating biological phenomena is the development of techniques to modify...

Chemical mutagens, transposons, and transgenes to interrogate gene function in Drosophila melanogaster.

Venken, Koen J T
Bellen, Hugo J

June 2014

The study of genetics, genes, and chromosomal inheritance was initiated by Thomas Morgan in 1910, wh...

Robust ΦC31-Mediated Genome Engineering in Drosophila melanogaster Using Minimal attP/attB Phage Sites

Roumen Voutev
Richard S. Mann

May 2018

Effective genome engineering should lead to a desired locus change with minimal adverse impact to th...

A simple polymerase chain reaction-based method for the construction of recombinase-mediated cassette exchange donor vectors

Bateman, Jack R.
Wu, C. Ting

November 2008

Here we describe a simple method for generating donor vectors suitable for targeted transgenesis via...

Targeted gene mutations in Drosophila

Ballinger, Dennis G.
Benzer, Seymour

December 1989

A cloned gene can be of interest because of its expression in a particular tissue or at a certain de...

Tubby-tagged balancers for the Drosophila X and second chromosomes

Ramona Lattao
Silvia Bonaccorsi
Xiao Guan
S.a. Wasserman
Maurizio Gatti

January 2011

We generated FM7a and CyO balancer chromosomes bearing a Tubby(1) (Tb(1)) dominant transgene. Flies ...

A Versatile Two-Step CRISPR- and RMCE-Based Strategy for Efficient Genome Engineering in Drosophila

Zhang, X.
Koolhaas, W.
Schnorrer, F.

January 2014

The development of clustered, regularly interspaced, short palindromic repeats (CRISPR)/CRISPR-assoc...

S1Supplemental Data The Drosophila Mre11/Rad50 Complex Is Required to Prevent Both Telomeric Fusion and Chromosome Breakage

Giovanni Cenci
Judith Ducau
Carlos Flores
Dena Johnson-schlitz
Marcin M. Gorski
William R. Engels
Maurizio Gatti

July 2015

Supplemental Experimental Procedures sis. Each recombinant chromosome was balanced over the SM5-TM6B...

GRIBCG: a software for selection of sgRNAs in the design of balancer chromosomes

Brian B. Merritt
Lily S. Cheung

March 2019

Abstract Background Balancer chromosomes are tools used by fruit fly geneticists to prevent meiotic ...

Drosophila Chromosomal Polymorphism: From Population Aspects to Origin Mechanisms of Inversions

Garcia, Carolina
Valente, Vera L. S.

February 2018

High rates of chromosomal rearrangements are remarkably abundant in Drosophila Fallén, 1832 (Insecta...

Testing transposable elements as genetic drive mechanisms using Drosophila P element constructs as a model system

Carareto, CMA
Kim, W.
Wojciechowski, M. F.
O'Grady, P.
Prokchorova, A. V.
Silva, J. C.
Kidwell, M. G.

January 1997

The use of transposable elements (TEs) as genetic drive mechanisms was explored using Drosophila mel...

An Aneuploidy-Free and Structurally Defined Balancer Chromosome Toolkit for Caenorhabditis elegans

Katsufumi Dejima
Sayaka Hori
Satoru Iwata
Yuji Suehiro
Sawako Yoshina
Tomoko Motohashi
Shohei Mitani

January 2018

Summary: Balancer chromosomes are critical tools for genetic research. In C. elegans, reciprocal tra...

Engineered Reciprocal Chromosome Translocations Drive High Threshold, Reversible Population Replacement in Drosophila

Buchman, Anna B.
Ivy, Tobin
Marshall, John M.
Akbari, Omar S.
Hay, Bruce A.

May 2018

Replacement of wild insect populations with transgene-bearing individuals unable to transmit disease...

Transgenic tools for targeted chromosome rearrangements allow construction of balancer chromosomes in non-<i>melanogaster Drosophila</i> species

David L Stern

February 2022

AbstractPerhaps the most valuable single set of resources for genetic studies of Drosophila melanoga...

A Toolkit of Engineered Recombinational Balancers in C. elegans

Schwartz, Hillel T.
Sternberg, Paul W.

April 2018

Dejima and colleagues report using CRISPR/Cas9 to generate a new collection of greatly improved bala...

Genome engineering: Drosophila melanogaster and beyond.

Venken, KJT
Sarrion-Perdigones, A
Vandeventer, PJ
Abel, NS
Christiansen, AE
Hoffman, KL

March 2016

A central challenge in investigating biological phenomena is the development of techniques to modify...

Chemical mutagens, transposons, and transgenes to interrogate gene function in Drosophila melanogaster.

Venken, Koen J T
Bellen, Hugo J

June 2014

The study of genetics, genes, and chromosomal inheritance was initiated by Thomas Morgan in 1910, wh...

Robust ΦC31-Mediated Genome Engineering in Drosophila melanogaster Using Minimal attP/attB Phage Sites

Roumen Voutev
Richard S. Mann

May 2018

Effective genome engineering should lead to a desired locus change with minimal adverse impact to th...

A simple polymerase chain reaction-based method for the construction of recombinase-mediated cassette exchange donor vectors

Bateman, Jack R.
Wu, C. Ting

November 2008

Here we describe a simple method for generating donor vectors suitable for targeted transgenesis via...

Targeted gene mutations in Drosophila

Ballinger, Dennis G.
Benzer, Seymour

December 1989

A cloned gene can be of interest because of its expression in a particular tissue or at a certain de...

Tubby-tagged balancers for the Drosophila X and second chromosomes

Ramona Lattao
Silvia Bonaccorsi
Xiao Guan
S.a. Wasserman
Maurizio Gatti

January 2011

We generated FM7a and CyO balancer chromosomes bearing a Tubby(1) (Tb(1)) dominant transgene. Flies ...

A Versatile Two-Step CRISPR- and RMCE-Based Strategy for Efficient Genome Engineering in Drosophila

Zhang, X.
Koolhaas, W.
Schnorrer, F.

January 2014

The development of clustered, regularly interspaced, short palindromic repeats (CRISPR)/CRISPR-assoc...

S1Supplemental Data The Drosophila Mre11/Rad50 Complex Is Required to Prevent Both Telomeric Fusion and Chromosome Breakage

Giovanni Cenci
Judith Ducau
Carlos Flores
Dena Johnson-schlitz
Marcin M. Gorski
William R. Engels
Maurizio Gatti

July 2015

Supplemental Experimental Procedures sis. Each recombinant chromosome was balanced over the SM5-TM6B...

GRIBCG: a software for selection of sgRNAs in the design of balancer chromosomes

Brian B. Merritt
Lily S. Cheung

March 2019

Abstract Background Balancer chromosomes are tools used by fruit fly geneticists to prevent meiotic ...

Drosophila Chromosomal Polymorphism: From Population Aspects to Origin Mechanisms of Inversions

Garcia, Carolina
Valente, Vera L. S.

February 2018

High rates of chromosomal rearrangements are remarkably abundant in Drosophila Fallén, 1832 (Insecta...

Testing transposable elements as genetic drive mechanisms using Drosophila P element constructs as a model system

Carareto, CMA
Kim, W.
Wojciechowski, M. F.
O'Grady, P.
Prokchorova, A. V.
Silva, J. C.
Kidwell, M. G.

January 1997

The use of transposable elements (TEs) as genetic drive mechanisms was explored using Drosophila mel...

An Aneuploidy-Free and Structurally Defined Balancer Chromosome Toolkit for Caenorhabditis elegans

Katsufumi Dejima
Sayaka Hori
Satoru Iwata
Yuji Suehiro
Sawako Yoshina
Tomoko Motohashi
Shohei Mitani

January 2018

Summary: Balancer chromosomes are critical tools for genetic research. In C. elegans, reciprocal tra...

Engineered Reciprocal Chromosome Translocations Drive High Threshold, Reversible Population Replacement in Drosophila

Buchman, Anna B.
Ivy, Tobin
Marshall, John M.
Akbari, Omar S.
Hay, Bruce A.

May 2018

Replacement of wild insect populations with transgene-bearing individuals unable to transmit disease...

Simplified Insertion of Transgenes Onto Balancer Chromosomes via Recombinase-Mediated Cassette Exchange

Abstract

Extracted data

Simplified Insertion of Transgenes Onto Balancer Chromosomes via Recombinase-Mediated Cassette Exchange

Abstract

Extracted data

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