Unknown

Dataset Information

0

Tuning gene expression with synthetic upstream open reading frames.

ABSTRACT: We engineered short ORFs and used them to control the expression level of recombinant proteins. These short ORFs, encoding a two-amino acid peptide, were placed upstream of an ORF encoding a protein of interest. Insertion of these upstream ORFs (uORFs) resulted in suppression of protein expression. By varying the base sequence preceding the uORF, we sought to vary the translation initiation rate of the uORF and subsequently control the degree of this suppression. Using this strategy, we generated a library of RNA sequence elements that can specify protein expression over a broad range of levels. By also using multiple uORFs in series and non-AUG start codons, we were able to generate particularly low expression levels, allowing us to achieve expression levels spanning three orders of magnitude. Modeling supported a mechanism where uORFs shunt the flow of ribosomes away from the downstream protein-coding ORF. With a lower translation initiation rate at the uORF, more ribosomes "leak" past the uORF; consequently, more ribosomes are able to reach and translate the downstream ORF. We report expression control by engineering uORFs and translation initiation to be robust, predictable, and reproducible across all cell types tested. We propose control of translation initiation as a primary method of choice for tuning expression in mammalian systems.

SUBMITTER: Ferreira JP 

PROVIDER: S-EPMC3710870 | biostudies-other | 2013 Jul

REPOSITORIES: biostudies-other

Json Xml
altmetric image

Publications

Tuning gene expression with synthetic upstream open reading frames.

Ferreira Joshua P JP   Overton K Wesley KW   Wang Clifford L CL  

Proceedings of the National Academy of Sciences of the United States of America 20130624 28

We engineered short ORFs and used them to control the expression level of recombinant proteins. These short ORFs, encoding a two-amino acid peptide, were placed upstream of an ORF encoding a protein of interest. Insertion of these upstream ORFs (uORFs) resulted in suppression of protein expression. By varying the base sequence preceding the uORF, we sought to vary the translation initiation rate of the uORF and subsequently control the degree of this suppression. Using this strategy, we generate  ...[more]

Similar Datasets

Unknown Conserved upstream open reading frames in higher plants.
| S-EPMC2527020 | biostudies-literature
Unknown Comprehensive translational control of tyrosine kinase expression by upstream open reading frames.
| S-EPMC4820681 | biostudies-literature
Unknown Predicting functional upstream open reading frames in Saccharomyces cerevisiae.
| S-EPMC2813248 | biostudies-literature
Unknown Fine-tuning Flowering Time via Genome Editing of Upstream Open Reading Frames of Heading Date 2 in Rice.
| S-EPMC8241947 | biostudies-literature
Transcriptomics Translation of upstream open reading frames in a model of neuronal differentiation
2018-09-07 | GSE119615 | GEO
Transcriptomics RNA G-quadruplexes mark repressive upstream open reading frames in human mRNAs
2018-04-30 | GSE105082 | GEO
Unknown Upstream open reading frames cause widespread reduction of protein expression and are polymorphic among humans.
| S-EPMC2669787 | biostudies-literature
Unknown A comprehensive catalog of predicted functional upstream open reading frames in humans.
| S-EPMC6283423 | biostudies-literature
Unknown Translation of upstream open reading frames in a model of neuronal differentiation.
| S-EPMC6528255 | biostudies-literature
Unknown Upstream Open Reading Frames Differentially Regulate Gene-specific Translation in the Integrated Stress Response.
| S-EPMC5016099 | biostudies-other