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CRISPR-Cas–mediated heritable chromosome fusions in <i>Arabidopsis</i>

Michelle Rönspies, Solmaz Khosravi, Ondřej Helia, Alessandro Valisi, Jiřı́ Fajkus, Miloslava Fojtová, Andreas Houben, Holger Puchta

2025Science7 citationsDOI

Abstract

consists of 10 chromosomes. By inducing CRISPR-Cas-mediated breaks at subcentromeric and subtelomeric sequences, we fused entire chromosome arms, obtaining two eight-chromosome lines. In one line, both arms of chromosome 3 were fused to chromosome 1. In another line, the arms were transferred to chromosomes 1 and 5. Both chromosome number-reduced lines were fertile. Phenotypic and transcriptional analyses revealed no differences compared with wild-type plants. After crossing with the wild type, the progeny showed reduced fertility. The meiotic recombination patterns of the transferred chromosome arms were substantially changed. Directed chromosome number changes in plants may enable new breeding strategies, redefining linkage groups and establishing genetic barriers. Moreover, our data indicate that plants are highly robust to engineered karyotype changes.

Topics & Concepts

BiologyGeneticsChromosomeKaryotypeChromosome 16MeiosisSubtelomereChromosome 21Chromosome 3Chromosome engineeringGenomeChromosomal translocationAutosomeChromosome 22Chromosome 4Chromosome 18RecombinationChromosome 19Chromosome 17 (human)TelomereGenetic linkageHomologous recombinationHomologous chromosomeChromosome segregationChromosomal rearrangementChromosome 7 (human)PhenotypeLinkage (software)GeneChromosome 9Chromosome 15Chromosomal and Genetic VariationsCRISPR and Genetic EngineeringGenomic variations and chromosomal abnormalities