Abstract (180 words)Stomatal guard cells are formed through a sequence of asymmetric and symmetric divisions in the epidermis of the sporophyte of most land plants. We show that several D-type cyclins are consecutively activated in the stomatal linage in the epidermis of Arabidopsis thaliana. Whereas CYCD2;1 and CYCD3;2 are activated in the meristemoids early in the lineage, CYCD7;1 is activated before the final division. CYCD7;1 expression peaks in the guard mother cell, where its transcription is modulated by the FOUR-LIPS/MYB88 transcription factor. FOUR-LIPS/MYB88 interacts with the CYCD7;1 promoter and represses CYCD7;1 transcription. CYCD7;1 stimulates the final symmetric division in the stomatal lineage, since guard cell formation is delayed in the cycd7;1 mutant epidermis and guard mother cell (GMC) divisions in four-lips mutant guard mother cells are limited by loss of function of CYCD7;1. Hence, the precise activation of a specific D-type cyclin, CYCD7;1, is required for correct timing of the last symmetric division that creates the stomatal guards cells, and CYCD7;1 expression is regulated by the FLP/MYB pathway that ensures cell cycle arrest in the stomatal guard cells.Summary StatementThe formation of paired guard cells in the epidermis of the Arabidopsis thaliana shoot, requires the activity of the D-type cyclin CYCD7;1 for the normal timing of the final division.