AI Article Synopsis
- The study examines how the ubiquitin proteasome system (UPS) affects gametophyte development in the plant species Arabidopsis thaliana, focusing on mutations in the RPT5a gene.
- Three mutant alleles linked to the UPS were found to cause 50% pollen lethality, indicating that RPT5a is essential for male gametophyte development, while another mutant from a different plant accession showed no such effect.
- The research reveals that both RPT5a and RPT5b are crucial for gametophyte development and cell cycle progression, and highlights how their functions can depend on the specific genetic background of the plant.
Article Abstract
We investigated the role of the ubiquitin proteasome system (UPS), which allows proteins to be selectively degraded, during gametophyte development in Arabidopsis thaliana. Three mutant alleles altering the UPS were isolated in the Wassilewskija (Ws) accession: they affect the Regulatory Particle 5a (RPT5a) gene, which (along with RPT5b) encodes one of the six AAA-ATPases of the proteasome regulatory particle. In the heterozygous state, all three mutant alleles displayed 50% pollen lethality, suggesting that RPT5a is essential for male gametophyte development. However, a fourth mutant in the Columbia (Col) accession did not display such a phenotype because the RPT5b Col allele complements the rpt5a defect in the male gametophyte, whereas the RPT5b Ws allele does not. Double rpt5a rpt5b mutants showed a complete male and female gametophyte lethal phenotype in a Col background, indicating that RPT5 subunits are essential for both gametophytic phases. Mitotic divisions were affected in double mutant gametophytes correlating with an absence of the proteasome-dependent cyclinA3 degradation. Finally, we show that RPT5b expression is highly increased when proteasome functioning is defective, allowing complementation of the rpt5a mutation. In conclusion, RPT5 subunits are not only essential for both male and female gametophyte development but also display accession-dependent redundancy and are crucial in cell cycle progression.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2660631 | PMC |
| http://dx.doi.org/10.1105/tpc.108.062372 | DOI Listing |
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