A Protoplast System for CRISPR-Cas Ribonucleoprotein Delivery in <i>Pinus taeda</i> and <i>Abies fraseri</i>

A Protoplast System for CRISPR-Cas Ribonucleoprotein Delivery in <i>Pinus taeda</i> and <i>Abies fraseri</i>

Climate change profoundly impacts the health, productivity, and resilience of forest ecosystems and threatens the sustainability of forest products and wood-based industries. Innovations to enhance tree growth, development, and adaptation offer unprecedented opportunities to strengthen ecosystem res...

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Bibliographic Details
Main Authors: Barbara M. Marques, Daniel B. Sulis, Bethany Suarez, Chenmin Yang, Carlos Cofre-Vega, Robert D. Thomas, Justin G. A. Whitehill, Ross W. Whetten, Rodolphe Barrangou, Jack P. Wang
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Plants
Subjects:
CRISPR
genome editing
protoplasts
conifers
Online Access:https://www.mdpi.com/2223-7747/14/7/996
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Summary:Climate change profoundly impacts the health, productivity, and resilience of forest ecosystems and threatens the sustainability of forest products and wood-based industries. Innovations to enhance tree growth, development, and adaptation offer unprecedented opportunities to strengthen ecosystem resilience and mitigate the effects of climate change. Here, we established a method for protoplast isolation, purification, and CRISPR-Cas ribonucleoprotein (RNP) delivery in <i>Pinus taeda</i> and <i>Abies fraseri</i> as a step towards accelerating the genetic improvement of these coniferous tree species. In this system, purified protoplasts could be isolated from somatic embryos with up to 2 × 10<sup>6</sup> protoplasts/g of tissue and transfected with proteins and nucleotides, achieving delivery efficiencies up to 13.5%. The delivery of functional RNPs targeting <i>phenylalanine ammonia lyase</i> in <i>P. taeda</i> and <i>phytoene desaturase</i> in <i>A. fraseri</i> yielded gene editing efficiencies that reached 2.1% and 0.3%, respectively. This demonstration of RNP delivery for DNA-free genome editing in the protoplasts of <i>P. taeda</i> and <i>A. fraseri</i> illustrates the potential of CRISPR-Cas to enhance the traits of value in ecologically and economically important tree species. The editing system provides a foundation for future efforts to regenerate genome-edited forest trees to improve ecosystem health and natural resource sustainability.
ISSN:2223-7747

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