terclim by ICS banner
IVES 9 IVES Conference Series 9 Preliminary steps of a protocol to isolate transcription factors bound to a specific DNA locus in grapevine using CRISPR-dCas9 system

Preliminary steps of a protocol to isolate transcription factors bound to a specific DNA locus in grapevine using CRISPR-dCas9 system

Abstract

Cis-acting regulatory elements are DNA sequences that can be bound by transcription factors to regulate the expression of genes in a condition-dependent and tissue-specific way. It is nowadays possible to search for DNA motives and sequences that a given transcription factor is binding or at least can, but it is still hard to have a glance at all the transcription factors that are contemporaneously located at the same locus. Inspired by an existing technique that uses the CRISPR-Cas system in mammal cells, we are trying to develop a protocol to study such regulation in Vitis vinifera. Using the highly sequence-specific binding capacity of a catalytically inactive Cas9 protein (dCas9), our idea is to set up a system to target a desired sequence and precipitate all the crosslinked proteins and distantly interacting chromatin at this locus and analyze them. After conducting preliminary assays on protoplast system, we got introduced to the CRISPR-FISH technique, that uses dCas9 and a fluorescent guide to label telomeres on nuclei directly isolated from a small quantity of fixed leaves with a very simple procedure. We used part of such technique to easily obtain the chromatin that was needed for our trials and eventually performed the pull-down of the targeted DNA sequences directly on these nuclei after transforming them with the dCas9 complex. Sequencing the obtained fragments allows to verify the specificity of the tool. Far from having eliminated the idea of using protoplasts as model system, we proceed developing both approaches in parallel.

Download the abstract

DOI:

Publication date: June 13, 2024

Issue: Open GPB 2024

Type: Poster

Authors

Aurélien Devillars1*, Silvia Farinati1, Edoardo Bertini2, Chiara Fattorini2, Sara Lissandrini2, Adriana Fernanda Soria Garcia1, Bhanu Prakash Potlapalli3, Andreas Houben3, Sara Zenoni2 and Alessandro Vannozzi1

1 Department of Agriculture Food Natural Resources Animals and Environment, University of Padova, Agripolis, Legnaro, Italy
2 Department of Biotechnology, University of Verona, Verona, Italy
3 Leibniz Institute of Plant Genetics and Crop Plant Research (IPK) Gatersleben, Seeland, Germany

Contact the author*

Keywords

Molecular Biology, Grapevine, Gene Regulation, CRISPR-Cas9, Protoplasts

Tags

IVES Conference Series | Open GPB | Open GPB 2024

Citation

Related articles…

Using remote sensing to quantify the temporal and spatial effects of extreme weather events in vineyards

The increasing frequency of extreme weather events (EWE) represents a severe threat to viticulture.

Read More

Soil electrical resistivity measurement: from terroir characterization to within-field crop inputs management

Soil Electrical Resistivity measurement is a zoning tool used by soil scientists and agronomists in viticulture. Indeed, the measure enables to optimize pedological surveys

Read More

Artificial intelligence (AI)-based protein modeling for the interpretation of grapevine genetic variants

Genetic variants known to produce single residue missense mutations have been associated with phenotypic traits of commercial interest in grapevine. This is the case of the K284N substitution in VviDXS1 associated with muscat aroma, or the R197L in VviAGL11 causing stenospermocarpic seedless grapes. The impact of such mutations on protein structure, stability, dynamics, interactions, or functional mechanism can be studied by computational methods, including our pyDock scoring, previously developed. For this, knowledge on the 3D structure of the protein and its complexes with other proteins and biomolecules is required, but such knowledge is not available for virtually none of the proteins and complexes in grapevine.

Read More

Soluble solids and firmness responses of a very slow ripening mutant to ripening acceleration treatments

Wine grapes have the ability to accumulate high amounts of hexoses (glucose and fructose), which is considered one of the main processes occurring during the ripening stage. Sugar accumulation dynamics respond to genetic, environmental and vineyard management factors, with a changing climate leading to advanced and faster sugar accumulation worldwide. Research on mitigation techniques to this phenomenon is ongoing, with the largest focus being vineyard techniques to delay sugar accumulation. Breeding represents another powerful tool to address the issue of high sugar concentration at harvest, since historical trends of selecting best sugar-accumulators may be inverted to breed varieties that accumulate diminished concentrations of hexoses while maintaining optimal acidity, color, mouthfeel and aroma compounds.

Read More

Characterization of 25 white grape varieties from the variety collection of ICVV (D.O.Ca.Rioja, Spain)

The effects of climate change produce an increase in sugar concentration and a decrease in acidity, without reaching the optimum grape phenolic maturity [1]. The aim of this work was to characterize 25 white grape varieties

Read More