Evaluation of synthetic promoters in Physcomitrella patens

Anantha Peramuna; Hansol Bae; Erling Koch Rasmussen; Bjørn Dueholm; Thomas Waibel; Joanna H. Critchley; Kerstin Brzezek; Michael Roberts; Henrik Toft Simonsen

doi:10.1016/j.bbrc.2018.04.092

Evaluation of synthetic promoters in Physcomitrella patens

Anantha Peramuna, Hansol Bae, Erling Koch Rasmussen, Bjørn Dueholm, Thomas Waibel, Joanna H. Critchley, Kerstin Brzezek, Michael Roberts, Henrik Toft Simonsen^*

^*Corresponding author af dette arbejde

Plantebiokemi

5 Citationer (Scopus)

Abstract

Securing a molecular toolbox including diverse promoters is essential for genome engineering. However, native promoters have limitations such as the available number or the length of the promoter. In this work, three short synthetic promoters were characterized by using the yellow fluorescent protein Venus. All of the tested promoters were active and showed higher mRNA expression than housekeeping gene PpAct7, and similar protein expression level to the AtUBQ10 promoter. This study shows that few cis-regulatory elements are enough to establish a strong promoter for continuous expression of genes in plants. Along with this, the study enhance the number of available promotors to be used in P. patens. It also demonstrates the potential to construct multiple non-native promoters on demand, which would aid to resolve one bottleneck in multiple pathway expression in P. patens and other plants.

Originalsprog	Engelsk
Tidsskrift	Biochemical and Biophysical Research Communications
Vol/bind	500
Udgave nummer	2
Sider (fra-til)	418-422
Antal sider	5
ISSN	0006-291X
DOI	https://doi.org/10.1016/j.bbrc.2018.04.092
Status	Udgivet - 2 jun. 2018

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title = "Evaluation of synthetic promoters in Physcomitrella patens",

abstract = "Securing a molecular toolbox including diverse promoters is essential for genome engineering. However, native promoters have limitations such as the available number or the length of the promoter. In this work, three short synthetic promoters were characterized by using the yellow fluorescent protein Venus. All of the tested promoters were active and showed higher mRNA expression than housekeeping gene PpAct7, and similar protein expression level to the AtUBQ10 promoter. This study shows that few cis-regulatory elements are enough to establish a strong promoter for continuous expression of genes in plants. Along with this, the study enhance the number of available promotors to be used in P. patens. It also demonstrates the potential to construct multiple non-native promoters on demand, which would aid to resolve one bottleneck in multiple pathway expression in P. patens and other plants.",

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author = "Anantha Peramuna and Hansol Bae and Rasmussen, {Erling Koch} and Bj{\o}rn Dueholm and Thomas Waibel and Critchley, {Joanna H.} and Kerstin Brzezek and Michael Roberts and Simonsen, {Henrik Toft}",

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AU - Peramuna, Anantha

AU - Bae, Hansol

AU - Rasmussen, Erling Koch

AU - Dueholm, Bjørn

AU - Waibel, Thomas

AU - Critchley, Joanna H.

AU - Brzezek, Kerstin

AU - Roberts, Michael

AU - Simonsen, Henrik Toft

PY - 2018/6/2

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N2 - Securing a molecular toolbox including diverse promoters is essential for genome engineering. However, native promoters have limitations such as the available number or the length of the promoter. In this work, three short synthetic promoters were characterized by using the yellow fluorescent protein Venus. All of the tested promoters were active and showed higher mRNA expression than housekeeping gene PpAct7, and similar protein expression level to the AtUBQ10 promoter. This study shows that few cis-regulatory elements are enough to establish a strong promoter for continuous expression of genes in plants. Along with this, the study enhance the number of available promotors to be used in P. patens. It also demonstrates the potential to construct multiple non-native promoters on demand, which would aid to resolve one bottleneck in multiple pathway expression in P. patens and other plants.

AB - Securing a molecular toolbox including diverse promoters is essential for genome engineering. However, native promoters have limitations such as the available number or the length of the promoter. In this work, three short synthetic promoters were characterized by using the yellow fluorescent protein Venus. All of the tested promoters were active and showed higher mRNA expression than housekeeping gene PpAct7, and similar protein expression level to the AtUBQ10 promoter. This study shows that few cis-regulatory elements are enough to establish a strong promoter for continuous expression of genes in plants. Along with this, the study enhance the number of available promotors to be used in P. patens. It also demonstrates the potential to construct multiple non-native promoters on demand, which would aid to resolve one bottleneck in multiple pathway expression in P. patens and other plants.

KW - Actin promoter

KW - Physcomitrella patens

KW - Synthetic biology

KW - Synthetic promoters

KW - Ubiquitin promoter

KW - Venus

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DO - 10.1016/j.bbrc.2018.04.092

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SN - 0006-291X

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JO - Biochemical and Biophysical Research Communications

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ER -

Evaluation of synthetic promoters in Physcomitrella patens

Abstract

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