Ribosome biogenesis factor AtRRB1 confers pollen heat stress tolerance in Arabidopsis

The plant male reproductive system is very sensitive to high temperature stress leading to a reduction in fertility. Damage caused by heat stress is restored by the activation of transcription and the synthesis of chaperones that regulate the heat stress response. Here we report that AtRRB1 is a homolog of the yeast ribosome chaperone protein Rrb1p. AtRRB1 is an essential gene and a T-DNA insertion in the coding region impairs male and female gametogenesis. The heterozygous rrb1-1 mutant shows decreased expression of AtRRB1 and increased transcription of the 60S ribosome proteins RPL3B and RPL4, in line with a chaperone role of AtRRB1 in ribosome biogenesis. Embryo sac development across ovules of a single pistil occurs uncoordinated and about half of the ovules abort. Half of rrb1-1 pollen is substantially smaller and produce shorter pollen tubes than WT pollen. In contrast to the Col-0 pollen, smaller pollen is overly sensitivity to high temperature (24h at 32∘C) treatment, specifically during the early bicellular microspore development stage. Heat stressed rrb1-1 bicellular microspores accumulated excessively rough endoplasmic reticulum stacks, suggesting that loss of AtRRB1 activity causes an arrest in ER associated protein biosynthesis. These findings support a critical requirement for ribosome biogenesis and protein synthesis in bicellular microspores to recover from high temperature stress. ### Competing Interest Statement The authors have declared no competing interest.