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Four large indels in barley chloroplast mutator (cpm) seedlings reinforce the hypothesis of a malfunction in the MMR system

A mutation detection strategy based on mismatch digestion was applied previously in barley seedlings carrying the chloroplast mutator (cpm) genotype through many generations. Sixty-one mutations were detected along with four large indels: a 15 bp insertion in the intergenic region between tRNAHis an...

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Autores principales: Lencina, Franco Daniel, Prina, Alberto Raul, Pacheco, Maria Gabriela, Kobayashi, Ken, Landau, Alejandra Mabel
Formato: info:ar-repo/semantics/artículo
Lenguaje:Inglés
Publicado: MDPI 2025
Materias:
Chloroplast DNA
Cytoplasmic Organelles
Barley
Mutation
ADN Cloroplástico
Orgánulo Citoplasmico
Cebada
Mutación
Plastome
Plastoma
Acceso en línea:http://hdl.handle.net/20.500.12123/23777
https://www.mdpi.com/1422-0067/26/17/8644
https://doi.org/10.3390/ijms26178644
Sumario:A mutation detection strategy based on mismatch digestion was applied previously in barley seedlings carrying the chloroplast mutator (cpm) genotype through many generations. Sixty-one mutations were detected along with four large indels: a 15 bp insertion in the intergenic region between tRNAHis and rps19 genes, a 620 bp deletion in the psbA gene, a 79 bp deletion in the intergenic region between rpl33 and rps18 genes and a 45 bp deletion in the rps3 gene. The present investigation aims to understand the mechanisms producing the large indels and to better characterize the cpm mutagenic effect. Whole plastome sequencing revealed novel polymorphisms that were identified either in regions not previously examined or in regions that were explored but not detected through celery juice extract (CJE) digestion. The 620 bp deletion in the psbA gene was lethal when homoplastomic, whereas the 45 bp deletion in the rps3 gene did not affect the viability of the seedlings even in homoplastomy. The presence of direct repeats at the borders of large indels suggests that they could have originated by illegitimate recombination because of CPM protein malfunction. A truncated mismatch repair MSH1 protein identified in cpm seedlings suggests that CPM is involved in organellar genome stability maintenance.

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