FusX: A rapid one-step transcription activator-like effector assembly system for genome science

Alvin C. Ma; Melissa S. Mcnulty; Tanya L. Poshusta; Jarryd M. Campbell; Gabriel Martínez-Gálvez; David P. Argue; Han B. Lee; Mark D. Urban; Cassandra E. Bullard; Patrick R. Blackburn; Toni K. Man; Karl J. Clark; Stephen C. Ekker

doi:10.1089/hum.2015.172

FusX: A rapid one-step transcription activator-like effector assembly system for genome science

Alvin C. Ma, Melissa S. Mcnulty, Tanya L. Poshusta, Jarryd M. Campbell, Gabriel Martínez-Gálvez, David P. Argue, Han B. Lee, Mark D. Urban, Cassandra E. Bullard, Patrick R. Blackburn, Toni K. Man, Karl J. Clark, Stephen C. Ekker

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

35 Scopus citations

Abstract

Transcription activator-like effectors (TALEs) are extremely effective, single-molecule DNA-targeting molecular cursors used for locus-specific genome science applications, including high-precision molecular medicine and other genome engineering applications. TALEs are used in genome engineering for locus-specific DNA editing and imaging, as artificial transcriptional activators and repressors, and for targeted epigenetic modification. TALEs as nucleases (TALENs) are effective editing tools and offer high binding specificity and fewer sequence constraints toward the targeted genome than other custom nuclease systems. One bottleneck of broader TALE use is reagent accessibility. For example, one commonly deployed method uses a multitube, 5-day assembly protocol. Here we describe FusX, a streamlined Golden Gate TALE assembly system that (1) is backward compatible with popular TALE backbones, (2) is functionalized as a single-tube 3-day TALE assembly process, (3) requires only commonly used basic molecular biology reagents, and (4) is cost-effective. More than 100 TALEN pairs have been successfully assembled using FusX, and 27 pairs were quantitatively tested in zebrafish, with each showing high somatic and germline activity. Furthermore, this assembly system is flexible and is compatible with standard molecular biology laboratory tools, but can be scaled with automated laboratory support. To demonstrate, we use a highly accessible and commercially available liquid-handling robot to rapidly and accurately assemble TALEs using the FusX TALE toolkit. Together, the FusX system accelerates TALE-based genomic science applications from basic science screening work for functional genomics testing and molecular medicine applications.

Original language	English (US)
Pages (from-to)	451-463
Number of pages	13
Journal	Human gene therapy
Volume	27
Issue number	6
DOIs	https://doi.org/10.1089/hum.2015.172
State	Published - Jun 1 2016
Externally published	Yes

Bibliographical note

Funding Information:
The authors thank Will Canine and the Open- Trons team for help in troubleshooting hardware and software glitches with the new liquid-handling robot system; Chris Ward, Colby Starker, Dan Carlson, and Dan Voytas for critical suggestions; and all the staff in the Mayo Clinic Zebrafish Facility and HKU Zebrafish Core Facility (FCF, LKS Faculty of Medicine) for excellent zebrafish husbandry. This work is supported by the State of Minnesota (University of Minnesota Mayo Clinic Partnership grant [H001274506] to SCE), National Institutes of Health grants [GM63904, P30DK084567] to SCE, [DA032194] grant to KJC, the Mayo Foundation, NIH Training grant [UL1 TR000135] to PRB and JMC, Marriott Mitochondrial Network, FHB HMRF [02132326] to ACM, and HKU Seed Funding Programme for Basic Research [201401159004, 201411159098] to ACM.

Publisher Copyright:
© Alvin C. Ma, et al., 2016; Published by Mary Ann Liebert, Inc. 2016.

Access

10.1089/hum.2015.172

OpenUrl availability

Full text

Cite this

Ma, A. C., Mcnulty, M. S., Poshusta, T. L., Campbell, J. M., Martínez-Gálvez, G., Argue, D. P., Lee, H. B., Urban, M. D., Bullard, C. E., Blackburn, P. R., Man, T. K., Clark, K. J., & Ekker, S. C. (2016). FusX: A rapid one-step transcription activator-like effector assembly system for genome science. Human gene therapy, 27(6), 451-463. https://doi.org/10.1089/hum.2015.172

@article{8e8a1be0d9c24f0c85dfe1450f0d4e96,

title = "FusX: A rapid one-step transcription activator-like effector assembly system for genome science",

abstract = "Transcription activator-like effectors (TALEs) are extremely effective, single-molecule DNA-targeting molecular cursors used for locus-specific genome science applications, including high-precision molecular medicine and other genome engineering applications. TALEs are used in genome engineering for locus-specific DNA editing and imaging, as artificial transcriptional activators and repressors, and for targeted epigenetic modification. TALEs as nucleases (TALENs) are effective editing tools and offer high binding specificity and fewer sequence constraints toward the targeted genome than other custom nuclease systems. One bottleneck of broader TALE use is reagent accessibility. For example, one commonly deployed method uses a multitube, 5-day assembly protocol. Here we describe FusX, a streamlined Golden Gate TALE assembly system that (1) is backward compatible with popular TALE backbones, (2) is functionalized as a single-tube 3-day TALE assembly process, (3) requires only commonly used basic molecular biology reagents, and (4) is cost-effective. More than 100 TALEN pairs have been successfully assembled using FusX, and 27 pairs were quantitatively tested in zebrafish, with each showing high somatic and germline activity. Furthermore, this assembly system is flexible and is compatible with standard molecular biology laboratory tools, but can be scaled with automated laboratory support. To demonstrate, we use a highly accessible and commercially available liquid-handling robot to rapidly and accurately assemble TALEs using the FusX TALE toolkit. Together, the FusX system accelerates TALE-based genomic science applications from basic science screening work for functional genomics testing and molecular medicine applications.",

author = "Ma, {Alvin C.} and Mcnulty, {Melissa S.} and Poshusta, {Tanya L.} and Campbell, {Jarryd M.} and Gabriel Mart{\'i}nez-G{\'a}lvez and Argue, {David P.} and Lee, {Han B.} and Urban, {Mark D.} and Bullard, {Cassandra E.} and Blackburn, {Patrick R.} and Man, {Toni K.} and Clark, {Karl J.} and Ekker, {Stephen C.}",

note = "Funding Information: The authors thank Will Canine and the Open- Trons team for help in troubleshooting hardware and software glitches with the new liquid-handling robot system; Chris Ward, Colby Starker, Dan Carlson, and Dan Voytas for critical suggestions; and all the staff in the Mayo Clinic Zebrafish Facility and HKU Zebrafish Core Facility (FCF, LKS Faculty of Medicine) for excellent zebrafish husbandry. This work is supported by the State of Minnesota (University of Minnesota Mayo Clinic Partnership grant [H001274506] to SCE), National Institutes of Health grants [GM63904, P30DK084567] to SCE, [DA032194] grant to KJC, the Mayo Foundation, NIH Training grant [UL1 TR000135] to PRB and JMC, Marriott Mitochondrial Network, FHB HMRF [02132326] to ACM, and HKU Seed Funding Programme for Basic Research [201401159004, 201411159098] to ACM. Publisher Copyright: {\textcopyright} Alvin C. Ma, et al., 2016; Published by Mary Ann Liebert, Inc. 2016.",

year = "2016",

month = jun,

day = "1",

doi = "10.1089/hum.2015.172",

language = "English (US)",

volume = "27",

pages = "451--463",

journal = "Human gene therapy",

issn = "1043-0342",

publisher = "Mary Ann Liebert Inc.",

number = "6",

}

TY - JOUR

T1 - FusX

T2 - A rapid one-step transcription activator-like effector assembly system for genome science

AU - Ma, Alvin C.

AU - Mcnulty, Melissa S.

AU - Poshusta, Tanya L.

AU - Campbell, Jarryd M.

AU - Martínez-Gálvez, Gabriel

AU - Argue, David P.

AU - Lee, Han B.

AU - Urban, Mark D.

AU - Bullard, Cassandra E.

AU - Blackburn, Patrick R.

AU - Man, Toni K.

AU - Clark, Karl J.

AU - Ekker, Stephen C.

N1 - Funding Information: The authors thank Will Canine and the Open- Trons team for help in troubleshooting hardware and software glitches with the new liquid-handling robot system; Chris Ward, Colby Starker, Dan Carlson, and Dan Voytas for critical suggestions; and all the staff in the Mayo Clinic Zebrafish Facility and HKU Zebrafish Core Facility (FCF, LKS Faculty of Medicine) for excellent zebrafish husbandry. This work is supported by the State of Minnesota (University of Minnesota Mayo Clinic Partnership grant [H001274506] to SCE), National Institutes of Health grants [GM63904, P30DK084567] to SCE, [DA032194] grant to KJC, the Mayo Foundation, NIH Training grant [UL1 TR000135] to PRB and JMC, Marriott Mitochondrial Network, FHB HMRF [02132326] to ACM, and HKU Seed Funding Programme for Basic Research [201401159004, 201411159098] to ACM. Publisher Copyright: © Alvin C. Ma, et al., 2016; Published by Mary Ann Liebert, Inc. 2016.

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Transcription activator-like effectors (TALEs) are extremely effective, single-molecule DNA-targeting molecular cursors used for locus-specific genome science applications, including high-precision molecular medicine and other genome engineering applications. TALEs are used in genome engineering for locus-specific DNA editing and imaging, as artificial transcriptional activators and repressors, and for targeted epigenetic modification. TALEs as nucleases (TALENs) are effective editing tools and offer high binding specificity and fewer sequence constraints toward the targeted genome than other custom nuclease systems. One bottleneck of broader TALE use is reagent accessibility. For example, one commonly deployed method uses a multitube, 5-day assembly protocol. Here we describe FusX, a streamlined Golden Gate TALE assembly system that (1) is backward compatible with popular TALE backbones, (2) is functionalized as a single-tube 3-day TALE assembly process, (3) requires only commonly used basic molecular biology reagents, and (4) is cost-effective. More than 100 TALEN pairs have been successfully assembled using FusX, and 27 pairs were quantitatively tested in zebrafish, with each showing high somatic and germline activity. Furthermore, this assembly system is flexible and is compatible with standard molecular biology laboratory tools, but can be scaled with automated laboratory support. To demonstrate, we use a highly accessible and commercially available liquid-handling robot to rapidly and accurately assemble TALEs using the FusX TALE toolkit. Together, the FusX system accelerates TALE-based genomic science applications from basic science screening work for functional genomics testing and molecular medicine applications.

AB - Transcription activator-like effectors (TALEs) are extremely effective, single-molecule DNA-targeting molecular cursors used for locus-specific genome science applications, including high-precision molecular medicine and other genome engineering applications. TALEs are used in genome engineering for locus-specific DNA editing and imaging, as artificial transcriptional activators and repressors, and for targeted epigenetic modification. TALEs as nucleases (TALENs) are effective editing tools and offer high binding specificity and fewer sequence constraints toward the targeted genome than other custom nuclease systems. One bottleneck of broader TALE use is reagent accessibility. For example, one commonly deployed method uses a multitube, 5-day assembly protocol. Here we describe FusX, a streamlined Golden Gate TALE assembly system that (1) is backward compatible with popular TALE backbones, (2) is functionalized as a single-tube 3-day TALE assembly process, (3) requires only commonly used basic molecular biology reagents, and (4) is cost-effective. More than 100 TALEN pairs have been successfully assembled using FusX, and 27 pairs were quantitatively tested in zebrafish, with each showing high somatic and germline activity. Furthermore, this assembly system is flexible and is compatible with standard molecular biology laboratory tools, but can be scaled with automated laboratory support. To demonstrate, we use a highly accessible and commercially available liquid-handling robot to rapidly and accurately assemble TALEs using the FusX TALE toolkit. Together, the FusX system accelerates TALE-based genomic science applications from basic science screening work for functional genomics testing and molecular medicine applications.

UR - http://www.scopus.com/inward/record.url?scp=84975451427&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84975451427&partnerID=8YFLogxK

U2 - 10.1089/hum.2015.172

DO - 10.1089/hum.2015.172

M3 - Article

C2 - 26854857

AN - SCOPUS:84975451427

SN - 1043-0342

VL - 27

SP - 451

EP - 463

JO - Human gene therapy

JF - Human gene therapy

IS - 6

ER -

FusX: A rapid one-step transcription activator-like effector assembly system for genome science

Abstract

Bibliographical note

Access

OpenUrl availability

Other files and links

Fingerprint

Cite this