Raegan T. Larson scite author profile

Advances in CRISPR technology have immensely improved our ability to manipulate nucleic acids, and the recent discovery of the RNA-targeting endonuclease Cas13 adds even further functionality. Here, we show that Cas13 works efficiently in Drosophila, both ex vivo and in vivo. We test 44 different Cas13 variants to identify enzymes with the best overall performance and show that Cas13 could target endogenous Drosophila transcripts in vivo with high efficiency and specificity. We also develop Cas13 applications to edit mRNAs and target mitochondrial transcripts. Our vector collection represents a versatile tool collection to manipulate gene expression at the post-transcriptional level.

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A versatile toolkit for CRISPR-Cas13-based RNA manipulation inDrosophila

Huynh

Depner

Larson

et al. 2020

Preprint

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SummaryAdvances in CRISPR technology have immensely improved our ability to manipulate nucleic acids, and the recent discovery of the RNA-targeting endonuclease Cas13 adds even further functionality. Here, we show that Cas13 works efficiently in Drosophila, both ex vivo and in vivo. We tested 44 different Cas13 variants to identify enzymes with the best overall performance and showed that Cas13 could target endogenous Drosophila transcripts in vivo with high efficiency and specificity. We also developed Cas13 applications to edit mRNAs and target mitochondrial transcripts. Our vector collection represents a versatile tool collection to manipulate gene expression at the post-transcriptional level.

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Recent gene duplications dominate evolutionary dynamics of adaptor protein complex subunits in embryophytes

Larson

Dacks

Barlow

2019

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Adaptor protein complexes and the related complexes COPI and TSET function in packaging vesicles for transport among endomembrane compartments in eukaryotic cells. Differences in the complement of these complexes in lineages such as yeast and mammals as well as apicomplexan and kinetoplastid parasites via loss or duplication of subunits appears to reflect specialization in their respective trafficking systems. The model plant Arabidopsis thaliana possesses multiple paralogues for adaptor protein complex subunits, raising questions as to the timing and extent of these duplications in embryophytes (land plants). However, adaptor protein complex evolution in embryophytes is unexplored. Therefore, we analyzed genomes of diverse embryophytes and closely related green algae using extensive homology searches and phylogenetic analysis of 35 complex subunit proteins. The results reveal numerous paralogues, the vast majority of which, approximately 97%, arose from recent duplication events. This suggests that specialization of these protein complexes may occur frequently but independently in embryophytes.

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Author response for "Recent gene duplications dominate evolutionary dynamics of adaptor protein complex subunits in embryophytes"

Larson¹,

Dacks²,

Barlow³

2019

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Faculty Opinions recommendation of Non-photosynthetic predators are sister to red algae.

Dacks

Larson²

2019

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Raegan T. Larson

A versatile toolkit for CRISPR-Cas13-based RNA manipulation in Drosophila

A versatile toolkit for CRISPR-Cas13-based RNA manipulation inDrosophila

Recent gene duplications dominate evolutionary dynamics of adaptor protein complex subunits in embryophytes

Author response for "Recent gene duplications dominate evolutionary dynamics of adaptor protein complex subunits in embryophytes"

Faculty Opinions recommendation of Non-photosynthetic predators are sister to red algae.

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