Identification of functional features of synthetic SINEUPs, antisense lncRNAs that specifically enhance protein translation

Hazuki Takahashi; Ana Kozhuharova; Harshita Sharma; Masakazu Hirose; Takako Ohyama; Francesca Fasolo; Toshio Yamazaki; Diego Cotella; Claudio Santoro; Silvia Zucchelli; Stefano Gustincich; Piero Carninci

doi:10.1371/journal.pone.0183229

Identification of functional features of synthetic SINEUPs, antisense lncRNAs that specifically enhance protein translation

Hazuki Takahashi, Ana Kozhuharova, Harshita Sharma, Masakazu Hirose, Takako Ohyama, Francesca Fasolo, Toshio Yamazaki, Diego Cotella, Claudio Santoro, Silvia Zucchelli, Stefano Gustincich, Piero Carninci

Department of Health Sciences

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

Abstract

SINEUPs are antisense long noncoding RNAs, in which an embedded SINE B2 element UP-regulates translation of partially overlapping target sense mRNAs. SINEUPs contain two functional domains. First, the binding domain (BD) is located in the region antisense to the target, providing specific targeting to the overlapping mRNA. Second, the inverted SINE B2 represents the effector domain (ED) and enhances translation. To adapt SINEUP technology to a broader number of targets, we took advantage of a high-throughput, semi-automated imaging system to optimize synthetic SINEUP BD and ED design in HEK293T cell lines. Using SINEUP-GFP as a model SINEUP, we extensively screened variants of the BD to map features needed for optimal design. We found that most active SINEUPs overlap an AUG-Kozak sequence. Moreover, we report our screening of the inverted SINE B2 sequence to identify active sub-domains and map the length of the minimal active ED. Our synthetic SINEUP-GFP screening of both BDs and EDs constitutes a broad test with flexible applications to any target gene of interest.

Original language	English
Article number	e0183229
Journal	PLoS ONE
Volume	13
Issue number	2
DOIs	https://doi.org/10.1371/journal.pone.0183229
Publication status	Published - Feb 2018

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Takahashi, H., Kozhuharova, A., Sharma, H., Hirose, M., Ohyama, T., Fasolo, F., Yamazaki, T., Cotella, D., Santoro, C., Zucchelli, S., Gustincich, S., & Carninci, P. (2018). Identification of functional features of synthetic SINEUPs, antisense lncRNAs that specifically enhance protein translation. PLoS ONE, 13(2), Article e0183229. https://doi.org/10.1371/journal.pone.0183229

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title = "Identification of functional features of synthetic SINEUPs, antisense lncRNAs that specifically enhance protein translation",

abstract = "SINEUPs are antisense long noncoding RNAs, in which an embedded SINE B2 element UP-regulates translation of partially overlapping target sense mRNAs. SINEUPs contain two functional domains. First, the binding domain (BD) is located in the region antisense to the target, providing specific targeting to the overlapping mRNA. Second, the inverted SINE B2 represents the effector domain (ED) and enhances translation. To adapt SINEUP technology to a broader number of targets, we took advantage of a high-throughput, semi-automated imaging system to optimize synthetic SINEUP BD and ED design in HEK293T cell lines. Using SINEUP-GFP as a model SINEUP, we extensively screened variants of the BD to map features needed for optimal design. We found that most active SINEUPs overlap an AUG-Kozak sequence. Moreover, we report our screening of the inverted SINE B2 sequence to identify active sub-domains and map the length of the minimal active ED. Our synthetic SINEUP-GFP screening of both BDs and EDs constitutes a broad test with flexible applications to any target gene of interest.",

author = "Hazuki Takahashi and Ana Kozhuharova and Harshita Sharma and Masakazu Hirose and Takako Ohyama and Francesca Fasolo and Toshio Yamazaki and Diego Cotella and Claudio Santoro and Silvia Zucchelli and Stefano Gustincich and Piero Carninci",

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AU - Takahashi, Hazuki

AU - Kozhuharova, Ana

AU - Sharma, Harshita

AU - Hirose, Masakazu

AU - Ohyama, Takako

AU - Fasolo, Francesca

AU - Yamazaki, Toshio

AU - Cotella, Diego

AU - Santoro, Claudio

AU - Zucchelli, Silvia

AU - Gustincich, Stefano

AU - Carninci, Piero

N1 - Publisher Copyright: © 2018 Takahashi et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

PY - 2018/2

Y1 - 2018/2

N2 - SINEUPs are antisense long noncoding RNAs, in which an embedded SINE B2 element UP-regulates translation of partially overlapping target sense mRNAs. SINEUPs contain two functional domains. First, the binding domain (BD) is located in the region antisense to the target, providing specific targeting to the overlapping mRNA. Second, the inverted SINE B2 represents the effector domain (ED) and enhances translation. To adapt SINEUP technology to a broader number of targets, we took advantage of a high-throughput, semi-automated imaging system to optimize synthetic SINEUP BD and ED design in HEK293T cell lines. Using SINEUP-GFP as a model SINEUP, we extensively screened variants of the BD to map features needed for optimal design. We found that most active SINEUPs overlap an AUG-Kozak sequence. Moreover, we report our screening of the inverted SINE B2 sequence to identify active sub-domains and map the length of the minimal active ED. Our synthetic SINEUP-GFP screening of both BDs and EDs constitutes a broad test with flexible applications to any target gene of interest.

AB - SINEUPs are antisense long noncoding RNAs, in which an embedded SINE B2 element UP-regulates translation of partially overlapping target sense mRNAs. SINEUPs contain two functional domains. First, the binding domain (BD) is located in the region antisense to the target, providing specific targeting to the overlapping mRNA. Second, the inverted SINE B2 represents the effector domain (ED) and enhances translation. To adapt SINEUP technology to a broader number of targets, we took advantage of a high-throughput, semi-automated imaging system to optimize synthetic SINEUP BD and ED design in HEK293T cell lines. Using SINEUP-GFP as a model SINEUP, we extensively screened variants of the BD to map features needed for optimal design. We found that most active SINEUPs overlap an AUG-Kozak sequence. Moreover, we report our screening of the inverted SINE B2 sequence to identify active sub-domains and map the length of the minimal active ED. Our synthetic SINEUP-GFP screening of both BDs and EDs constitutes a broad test with flexible applications to any target gene of interest.

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Identification of functional features of synthetic SINEUPs, antisense lncRNAs that specifically enhance protein translation

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