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Abstract
Summary:
•Mutations affecting crossover (CO) frequency and distribution lead to the presence of univalents during meiosis, giving rise to aneuploid gametes and sterility. These mutations may have a different effect after chromosome doubling. The combination of altered ploidy and mutations could be potentially useful to gain new insights into the mechanisms and regulation of meiotic recombination; however, studies using autopolyploid meiotic mutants are scarce.
•Here, we have analyzed the cytogenetic consequences in colchicine‐induced autotetraploids (colchiploids) from different Arabidopsis mutants with an altered CO frequency.
•We have found that there are three types of mutants: mutants in which chiasma frequency is doubled after chromosome duplication (zip4, mus81), as in the control; mutants in which polyploidy leads to a higher‐than‐expected increase in chiasma frequency (asy1, mer3, hei10, and mlh3); and mutants in which the rise in chiasma frequency produced by the presence of two extrachromosomal sets is less than doubled (msh5, fancm). In addition, the proportion of class I/class II COs varies after chromosome duplication in the control.
•The results obtained reveal the potential of colchiploid meiotic mutants for better understanding of the function of key proteins during plant meiosis. This is especially relevant considering that most crops are polyploids.
•Mutations affecting crossover (CO) frequency and distribution lead to the presence of univalents during meiosis, giving rise to aneuploid gametes and sterility. These mutations may have a different effect after chromosome doubling. The combination of altered ploidy and mutations could be potentially useful to gain new insights into the mechanisms and regulation of meiotic recombination; however, studies using autopolyploid meiotic mutants are scarce.
•Here, we have analyzed the cytogenetic consequences in colchicine‐induced autotetraploids (colchiploids) from different Arabidopsis mutants with an altered CO frequency.
•We have found that there are three types of mutants: mutants in which chiasma frequency is doubled after chromosome duplication (zip4, mus81), as in the control; mutants in which polyploidy leads to a higher‐than‐expected increase in chiasma frequency (asy1, mer3, hei10, and mlh3); and mutants in which the rise in chiasma frequency produced by the presence of two extrachromosomal sets is less than doubled (msh5, fancm). In addition, the proportion of class I/class II COs varies after chromosome duplication in the control.
•The results obtained reveal the potential of colchiploid meiotic mutants for better understanding of the function of key proteins during plant meiosis. This is especially relevant considering that most crops are polyploids.
| Original language | English |
|---|---|
| Journal | New Phytologist |
| Early online date | 3 Nov 2023 |
| DOIs | |
| Publication status | E-pub ahead of print - 3 Nov 2023 |
Bibliographical note
Acknowledgments:We thank Bianca Martín, M. Carmen Moreno, and José Barrios for their technical assistance. Primary antibodies were kindly provided by Chris Franklin (University of Birmingham, UK). This research was supported by the European Union (Marie Curie ITN, COMREC 606956) to MP and the Ministry of Economy and Competitiveness of Spain (AGL2015-67349-P) to JLS. MP acknowledges the current support of the Ministry of Science and Innovation (PID2020-118038GB-I00) and European Union (TED2021-131852B-I00/AEI/10.13039/501100011033/Unión Europea NextGeneration EU/PRTR).
Keywords
- Arabidopsis
- autopolyploid
- chiasma
- colchicine
- crossover
- homologous recombination
- meiosis
- polyploid
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