SINEUPs: A new class of natural and synthetic antisense long non-coding RNAs that activate translation

S. Zucchelli; D. Cotella; H. Takahashi; C. Carrieri; L. Cimatti; F. Fasolo; M. H. Jones; D. Sblattero; R. Sanges; C. Santoro; F. Persichetti; P. Carninci; S. Gustincich

doi:10.1080/15476286.2015.1060395

SINEUPs: A new class of natural and synthetic antisense long non-coding RNAs that activate translation

S. Zucchelli
, D. Cotella
, H. Takahashi
, C. Carrieri
, L. Cimatti
, F. Fasolo
, M. H. Jones
, D. Sblattero
, R. Sanges
, C. Santoro
, F. Persichetti
, P. Carninci
, S. Gustincich

Department of Health Sciences

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

Abstract

Over the past 10 years, it has emerged that pervasive transcription in mammalian genomes has a tremendous impact on several biological functions. Most of transcribed RNAs are lncRNAs and repetitive elements. In this review, we will detail the discovery of a new functional class of natural and synthetic antisense lncRNAs that stimulate translation of sense mRNAs. These molecules have been named SINEUPs since their function requires the activity of an embedded inverted SINEB2 sequence to UP-regulate translation. Natural SINEUPs suggest that embedded Transposable Elements may represent functional domains in long non-coding RNAs. Synthetic SINEUPs may be designed by targeting the antisense sequence to the mRNA of choice representing the first scalable tool to increase protein synthesis of potentially any gene of interest. We will discuss potential applications of SINEUP technology in the field of molecular biology experiments, in protein manufacturing as well as in therapy of haploinsufficiencies.

Original language	English
Pages (from-to)	771-779
Number of pages	9
Journal	RNA Biology
Volume	12
Issue number	8
DOIs	https://doi.org/10.1080/15476286.2015.1060395
Publication status	Published - 1 Jan 2015

Keywords

Antisense transcript
Embedded repetitive elements
Long non-coding RNA
Protein production
RNA therapeutics
SINEUP
Translation

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10.1080/15476286.2015.1060395

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Zucchelli, S., Cotella, D., Takahashi, H., Carrieri, C., Cimatti, L., Fasolo, F., Jones, M. H., Sblattero, D., Sanges, R., Santoro, C., Persichetti, F., Carninci, P., & Gustincich, S. (2015). SINEUPs: A new class of natural and synthetic antisense long non-coding RNAs that activate translation. RNA Biology, 12(8), 771-779. https://doi.org/10.1080/15476286.2015.1060395

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title = "SINEUPs: A new class of natural and synthetic antisense long non-coding RNAs that activate translation",

abstract = "Over the past 10 years, it has emerged that pervasive transcription in mammalian genomes has a tremendous impact on several biological functions. Most of transcribed RNAs are lncRNAs and repetitive elements. In this review, we will detail the discovery of a new functional class of natural and synthetic antisense lncRNAs that stimulate translation of sense mRNAs. These molecules have been named SINEUPs since their function requires the activity of an embedded inverted SINEB2 sequence to UP-regulate translation. Natural SINEUPs suggest that embedded Transposable Elements may represent functional domains in long non-coding RNAs. Synthetic SINEUPs may be designed by targeting the antisense sequence to the mRNA of choice representing the first scalable tool to increase protein synthesis of potentially any gene of interest. We will discuss potential applications of SINEUP technology in the field of molecular biology experiments, in protein manufacturing as well as in therapy of haploinsufficiencies.",

keywords = "Antisense transcript, Embedded repetitive elements, Long non-coding RNA, Protein production, RNA therapeutics, SINEUP, Translation",

author = "S. Zucchelli and D. Cotella and H. Takahashi and C. Carrieri and L. Cimatti and F. Fasolo and Jones, \{M. H.\} and D. Sblattero and R. Sanges and C. Santoro and F. Persichetti and P. Carninci and S. Gustincich",

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doi = "10.1080/15476286.2015.1060395",

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AU - Zucchelli, S.

AU - Cotella, D.

AU - Takahashi, H.

AU - Carrieri, C.

AU - Cimatti, L.

AU - Fasolo, F.

AU - Jones, M. H.

AU - Sblattero, D.

AU - Sanges, R.

AU - Santoro, C.

AU - Persichetti, F.

AU - Carninci, P.

AU - Gustincich, S.

PY - 2015/1/1

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N2 - Over the past 10 years, it has emerged that pervasive transcription in mammalian genomes has a tremendous impact on several biological functions. Most of transcribed RNAs are lncRNAs and repetitive elements. In this review, we will detail the discovery of a new functional class of natural and synthetic antisense lncRNAs that stimulate translation of sense mRNAs. These molecules have been named SINEUPs since their function requires the activity of an embedded inverted SINEB2 sequence to UP-regulate translation. Natural SINEUPs suggest that embedded Transposable Elements may represent functional domains in long non-coding RNAs. Synthetic SINEUPs may be designed by targeting the antisense sequence to the mRNA of choice representing the first scalable tool to increase protein synthesis of potentially any gene of interest. We will discuss potential applications of SINEUP technology in the field of molecular biology experiments, in protein manufacturing as well as in therapy of haploinsufficiencies.

AB - Over the past 10 years, it has emerged that pervasive transcription in mammalian genomes has a tremendous impact on several biological functions. Most of transcribed RNAs are lncRNAs and repetitive elements. In this review, we will detail the discovery of a new functional class of natural and synthetic antisense lncRNAs that stimulate translation of sense mRNAs. These molecules have been named SINEUPs since their function requires the activity of an embedded inverted SINEB2 sequence to UP-regulate translation. Natural SINEUPs suggest that embedded Transposable Elements may represent functional domains in long non-coding RNAs. Synthetic SINEUPs may be designed by targeting the antisense sequence to the mRNA of choice representing the first scalable tool to increase protein synthesis of potentially any gene of interest. We will discuss potential applications of SINEUP technology in the field of molecular biology experiments, in protein manufacturing as well as in therapy of haploinsufficiencies.

KW - Antisense transcript

KW - Embedded repetitive elements

KW - Long non-coding RNA

KW - Protein production

KW - RNA therapeutics

KW - SINEUP

KW - Translation

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DO - 10.1080/15476286.2015.1060395

M3 - Article

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EP - 779

JO - RNA Biology

JF - RNA Biology

IS - 8

ER -

SINEUPs: A new class of natural and synthetic antisense long non-coding RNAs that activate translation

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Keywords

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