A TALEN Genome-Editing System for Generating Human Stem Cell-Based Disease Models

A comprehensive TALEN-based knockout library for generating human induced pluripotent stem cell-based models for cardiovascular diseases

Karakikes, I.
Termglinchan, V.
Cepeda, D.A.
Lee, J.
Diecke, S.
Hendel, A.
Itzhaki, I.
Ameen, M.
Shrestha, R.
Wu, H.
Ma, N.
Shao, N.Y.
Seeger, T.
Woo, N.A.
Wilson, K.D.
Matsa, E.
Porteus, M.H.
Sebastiano, V.
Wu, J.C.

May 2017

Rationale: Targeted genetic engineering using programmable nucleases such as transcription activator...

Genetic engineering of human ES and iPS cells using TALE nucleases

Hockemeyer, Dirk
Wang, Haoyi
Kiani, Samira
Lai, Christine S.
Gao, Qing
Cassady, John P.
Cost, Gregory J.
Santiago, Yolanda
Miller, Jeffrey C.
Zeitler, Bryan
Cherone, Jennifer Michelle
Meng, Xiangdong
Hinkley, Sarah J.
Rebar, Edward J.
Gregory, Philip D.
Urnov, Fyodor D.
Jaenisch, Rudolf
Zhang, Lei, Ph. D Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, fl. 2014.

March 2011

Targeted genetic engineering of human pluripotent cells is a prerequisite for exploiting their full ...

TALENs facilitate targeted genome editing in human cells with high specificity and low cytotoxicity

Mussolino, Claudio
Alzubi, Jamal
Fine, Eli J.
Morbitzer, Robert
Cradick, Thomas J.
Lahaye, Thomas
Bao, Gang
Cathomen, Toni

January 2014

Designer nucleases have been successfully employed to modify the genomes of various model organisms ...

A TALEN Genome-Editing System for Generating Human Stem Cell-Based Disease Models

Ding, Qiurong
Lee, Youn-Kyoung
Schaefer, Esperance A.K.
Peters, Derek T.
Veres, Adrian
Kim, Kevin
Kuperwasser, Nicolas
Motola, Daniel L.
Meissner, Torsten B.
Hendriks, William T.
Trevisan, Marta
Gupta, Rajat M.
Moisan, Annie
Banks, Eric
Friesen, Max
Schinzel, Robert T.
Xia, Fang
Tang, Alexander
Xia, Yulei
Figueroa, Emmanuel
Wann, Amy
Ahfeldt, Tim
Daheron, Laurence
Zhang, Feng
Rubin, Lee L.
Peng, Lee F.
Chung, Raymond T.
Musunuru, Kiran
Cowan, Chad A.

February 2013

SummaryTranscription activator-like effector nucleases (TALENs) are a new class of engineered nuclea...

A TALEN Genome-Editing System for Generating Human Stem Cell-Based Disease Models

Ding, Qiurong
Lee, Youn-Kyoung
Schaefer, Esperance A.K.
Peters, Derek T.
Veres, Adrian
Kim, Kevin
Kuperwasser, Nicolas
Motola, Daniel L.
Meissner, Torsten B.
Hendriks, William T.
Trevisan, Marta
Gupta, Rajat M.
Moisan, Annie
Banks, Eric
Friesen, Max
Schinzel, Robert T.
Xia, Fang
Tang, Alexander
Xia, Yulei
Figueroa, Emmanuel
Wann, Amy
Ahfeldt, Tim
Daheron, Laurence
Zhang, Feng
Rubin, Lee L.
Peng, Lee F.
Chung, Raymond T.
Musunuru, Kiran
Cowan, Chad A.

October 2012

Summary: Transcription activator-like effector nucleases (TALENs) are a new class of engineered nuc...

Nat Rev Mol Cell Biol

Engineered nucleases enable the targeted alteration of nearly any gene in a wide range of cell types...

Engineering of transcription activator-like effector nucleases (TALENs) for targeted genome editing

Sun, Ning

August 2013

In the post-genome era, one of the most important topics of research is to edit or program genomic s...

A TALE of Two Nucleases: Using TALENs to Edit the Genome of C. elegans

Bartlett, Clare
Kocmond, Kriszten
Root, Erin

June 2015

Genetic engineering is an emerging technology that offers the potential to prevent, treat, or cure g...

New Bicistronic TALENs Greatly Improve Genome Editing

Martín-Fernández, Jose María
Fleischer, Aarne
Vallejo-Díez, Sara
Palomino, Esther
Sánchez-Gilabert, Almudena
Ruiz, Raúl
Bejarano, Yazmine
Llinás, Pere
Gayà, Antoni
Bachiller, Daniel

December 2020

This article also appears in: Lineage Tracer and Gene-editing in Stem Cells.Genome editing has becom...

Broad Specificity Profiling of TALENs Results in Engineered Nucleases With Improved DNA Cleavage Specificity

Guilinger, John P.
Pattanayak, Vikram
Reyon, Deepak
Tsai, Shengdar Q.
Sander, Jeffry D.
Joung, J. Keith
Liu, David R.

November 2014

Although transcription activator-like effector nucleases (TALENs) can be designed to cleave chosen D...

Precise Gene Modification Mediated by TALEN and Single-Stranded Oligodeoxynucleotides in Human Cells

Xiaoling Wang (6503)
Yingjia Wang (327028)
He Huang (50693)
Buyuan Chen (545443)
Xinji Chen (545444)
Jianda Hu (545445)
Tammy Chang (545446)
Ren-Jang Lin (545447)
Jiing-Kuan Yee (545448)

April 2014

<div><p>The development of human embryonic stem cells (ESCs) and induced pluripotent stem cells (iPS...

RESEARCH ARTICLE Transcription Activator-Like Effector Nuclease (TALEN)-Mediated CLYBL Targeting Enables Enhanced Transgene Expression and One- Step Generation of Dual Reporter Human Induced Pluripotent Stem Cell (iPSC) and

Trevor Cerbini
Ray Funahashi
Yongquan Luo
Chengyu Liu
Kyeyoon Park
Mahendra Rao
Nasir Malik
Jizhong Zou

January 1371

Targeted genome engineering to robustly express transgenes is an essential methodology for stem cell...

SunnyTALEN: A Second-Generation TALEN System for Human Genome Editing

Ning Sun
Zehua Bao
Xiong Xiong
Huimin Zhao

October 2016

ABSTRACT: Transcription activator-like effector nucleases (TALENs) have rapidly emerged as a powerfu...

Low Incidence of Off-Target Mutations in Individual CRISPR-Cas9 and TALEN Targeted Human Stem Cell Clones Detected by Whole-Genome Sequencing

Veres, Adrian
Gosis, Bridget S.
Ding, Qiurong
Collins, Ryan
Ragavendran, Ashok
Brand, Harrison
Erdin, Serkan
Cowan, Chad A.
Talkowski, Michael E.
Musunuru, Kiran

July 2014

SummaryGenome editing has attracted wide interest for the generation of cellular models of disease u...

Transcription activator-like effector nuclease (TALEN)-mediated CLYBL targeting enables enhanced transgene expression and one-step generation of dual reporter human induced pluripotent stem cell (iPSC) and neural stem cell (NSC) lines.

Trevor Cerbini
Ray Funahashi
Yongquan Luo
Chengyu Liu
Kyeyoon Park
Mahendra Rao
Nasir Malik
Jizhong Zou

Targeted genome engineering to robustly express transgenes is an essential methodology for stem cell...

A comprehensive TALEN-based knockout library for generating human induced pluripotent stem cell-based models for cardiovascular diseases

Karakikes, I.
Termglinchan, V.
Cepeda, D.A.
Lee, J.
Diecke, S.
Hendel, A.
Itzhaki, I.
Ameen, M.
Shrestha, R.
Wu, H.
Ma, N.
Shao, N.Y.
Seeger, T.
Woo, N.A.
Wilson, K.D.
Matsa, E.
Porteus, M.H.
Sebastiano, V.
Wu, J.C.

May 2017

Rationale: Targeted genetic engineering using programmable nucleases such as transcription activator...

Genetic engineering of human ES and iPS cells using TALE nucleases

Hockemeyer, Dirk
Wang, Haoyi
Kiani, Samira
Lai, Christine S.
Gao, Qing
Cassady, John P.
Cost, Gregory J.
Santiago, Yolanda
Miller, Jeffrey C.
Zeitler, Bryan
Cherone, Jennifer Michelle
Meng, Xiangdong
Hinkley, Sarah J.
Rebar, Edward J.
Gregory, Philip D.
Urnov, Fyodor D.
Jaenisch, Rudolf
Zhang, Lei, Ph. D Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, fl. 2014.

March 2011

Targeted genetic engineering of human pluripotent cells is a prerequisite for exploiting their full ...

TALENs facilitate targeted genome editing in human cells with high specificity and low cytotoxicity

Mussolino, Claudio
Alzubi, Jamal
Fine, Eli J.
Morbitzer, Robert
Cradick, Thomas J.
Lahaye, Thomas
Bao, Gang
Cathomen, Toni

January 2014

Designer nucleases have been successfully employed to modify the genomes of various model organisms ...

A TALEN Genome-Editing System for Generating Human Stem Cell-Based Disease Models

Ding, Qiurong
Lee, Youn-Kyoung
Schaefer, Esperance A.K.
Peters, Derek T.
Veres, Adrian
Kim, Kevin
Kuperwasser, Nicolas
Motola, Daniel L.
Meissner, Torsten B.
Hendriks, William T.
Trevisan, Marta
Gupta, Rajat M.
Moisan, Annie
Banks, Eric
Friesen, Max
Schinzel, Robert T.
Xia, Fang
Tang, Alexander
Xia, Yulei
Figueroa, Emmanuel
Wann, Amy
Ahfeldt, Tim
Daheron, Laurence
Zhang, Feng
Rubin, Lee L.
Peng, Lee F.
Chung, Raymond T.
Musunuru, Kiran
Cowan, Chad A.

February 2013

SummaryTranscription activator-like effector nucleases (TALENs) are a new class of engineered nuclea...

A TALEN Genome-Editing System for Generating Human Stem Cell-Based Disease Models

Ding, Qiurong
Lee, Youn-Kyoung
Schaefer, Esperance A.K.
Peters, Derek T.
Veres, Adrian
Kim, Kevin
Kuperwasser, Nicolas
Motola, Daniel L.
Meissner, Torsten B.
Hendriks, William T.
Trevisan, Marta
Gupta, Rajat M.
Moisan, Annie
Banks, Eric
Friesen, Max
Schinzel, Robert T.
Xia, Fang
Tang, Alexander
Xia, Yulei
Figueroa, Emmanuel
Wann, Amy
Ahfeldt, Tim
Daheron, Laurence
Zhang, Feng
Rubin, Lee L.
Peng, Lee F.
Chung, Raymond T.
Musunuru, Kiran
Cowan, Chad A.

October 2012

Summary: Transcription activator-like effector nucleases (TALENs) are a new class of engineered nuc...

Nat Rev Mol Cell Biol

Engineered nucleases enable the targeted alteration of nearly any gene in a wide range of cell types...

Engineering of transcription activator-like effector nucleases (TALENs) for targeted genome editing

Sun, Ning

August 2013

In the post-genome era, one of the most important topics of research is to edit or program genomic s...

A TALE of Two Nucleases: Using TALENs to Edit the Genome of C. elegans

Bartlett, Clare
Kocmond, Kriszten
Root, Erin

June 2015

Genetic engineering is an emerging technology that offers the potential to prevent, treat, or cure g...

New Bicistronic TALENs Greatly Improve Genome Editing

Martín-Fernández, Jose María
Fleischer, Aarne
Vallejo-Díez, Sara
Palomino, Esther
Sánchez-Gilabert, Almudena
Ruiz, Raúl
Bejarano, Yazmine
Llinás, Pere
Gayà, Antoni
Bachiller, Daniel

December 2020

This article also appears in: Lineage Tracer and Gene-editing in Stem Cells.Genome editing has becom...

Broad Specificity Profiling of TALENs Results in Engineered Nucleases With Improved DNA Cleavage Specificity

Guilinger, John P.
Pattanayak, Vikram
Reyon, Deepak
Tsai, Shengdar Q.
Sander, Jeffry D.
Joung, J. Keith
Liu, David R.

November 2014

Although transcription activator-like effector nucleases (TALENs) can be designed to cleave chosen D...

Precise Gene Modification Mediated by TALEN and Single-Stranded Oligodeoxynucleotides in Human Cells

Xiaoling Wang (6503)
Yingjia Wang (327028)
He Huang (50693)
Buyuan Chen (545443)
Xinji Chen (545444)
Jianda Hu (545445)
Tammy Chang (545446)
Ren-Jang Lin (545447)
Jiing-Kuan Yee (545448)

April 2014

<div><p>The development of human embryonic stem cells (ESCs) and induced pluripotent stem cells (iPS...

RESEARCH ARTICLE Transcription Activator-Like Effector Nuclease (TALEN)-Mediated CLYBL Targeting Enables Enhanced Transgene Expression and One- Step Generation of Dual Reporter Human Induced Pluripotent Stem Cell (iPSC) and

Trevor Cerbini
Ray Funahashi
Yongquan Luo
Chengyu Liu
Kyeyoon Park
Mahendra Rao
Nasir Malik
Jizhong Zou

January 1371

Targeted genome engineering to robustly express transgenes is an essential methodology for stem cell...

SunnyTALEN: A Second-Generation TALEN System for Human Genome Editing

Ning Sun
Zehua Bao
Xiong Xiong
Huimin Zhao

October 2016

ABSTRACT: Transcription activator-like effector nucleases (TALENs) have rapidly emerged as a powerfu...

Low Incidence of Off-Target Mutations in Individual CRISPR-Cas9 and TALEN Targeted Human Stem Cell Clones Detected by Whole-Genome Sequencing

Veres, Adrian
Gosis, Bridget S.
Ding, Qiurong
Collins, Ryan
Ragavendran, Ashok
Brand, Harrison
Erdin, Serkan
Cowan, Chad A.
Talkowski, Michael E.
Musunuru, Kiran

July 2014

SummaryGenome editing has attracted wide interest for the generation of cellular models of disease u...

Transcription activator-like effector nuclease (TALEN)-mediated CLYBL targeting enables enhanced transgene expression and one-step generation of dual reporter human induced pluripotent stem cell (iPSC) and neural stem cell (NSC) lines.

Trevor Cerbini
Ray Funahashi
Yongquan Luo
Chengyu Liu
Kyeyoon Park
Mahendra Rao
Nasir Malik
Jizhong Zou

Targeted genome engineering to robustly express transgenes is an essential methodology for stem cell...

A comprehensive TALEN-based knockout library for generating human induced pluripotent stem cell-based models for cardiovascular diseases

Karakikes, I.
Termglinchan, V.
Cepeda, D.A.
Lee, J.
Diecke, S.
Hendel, A.
Itzhaki, I.
Ameen, M.
Shrestha, R.
Wu, H.
Ma, N.
Shao, N.Y.
Seeger, T.
Woo, N.A.
Wilson, K.D.
Matsa, E.
Porteus, M.H.
Sebastiano, V.
Wu, J.C.

May 2017

Rationale: Targeted genetic engineering using programmable nucleases such as transcription activator...

Genetic engineering of human ES and iPS cells using TALE nucleases

Hockemeyer, Dirk
Wang, Haoyi
Kiani, Samira
Lai, Christine S.
Gao, Qing
Cassady, John P.
Cost, Gregory J.
Santiago, Yolanda
Miller, Jeffrey C.
Zeitler, Bryan
Cherone, Jennifer Michelle
Meng, Xiangdong
Hinkley, Sarah J.
Rebar, Edward J.
Gregory, Philip D.
Urnov, Fyodor D.
Jaenisch, Rudolf
Zhang, Lei, Ph. D Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, fl. 2014.

March 2011

Targeted genetic engineering of human pluripotent cells is a prerequisite for exploiting their full ...

TALENs facilitate targeted genome editing in human cells with high specificity and low cytotoxicity

Mussolino, Claudio
Alzubi, Jamal
Fine, Eli J.
Morbitzer, Robert
Cradick, Thomas J.
Lahaye, Thomas
Bao, Gang
Cathomen, Toni

January 2014

Designer nucleases have been successfully employed to modify the genomes of various model organisms ...

A TALEN Genome-Editing System for Generating Human Stem Cell-Based Disease Models

Abstract

Extracted data

A TALEN Genome-Editing System for Generating Human Stem Cell-Based Disease Models

Abstract

Extracted data

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