COBL7 is required for stomatal formation via regulation of cellulose deposition in Arabidopsis.
Shengchao GePengyue SunWenjuan WuXinhang ChenYi-Fei WangMin ZhangJirong HuangYun-Kuan LiangPublished in: The New phytologist (2023)
As a key regulator of plant photosynthesis, water use efficiency and immunity, stomata are specialized cellular structures that adopt defined shapes. However, our knowledge about the genetic players of stomatal pore formation and stomatal morphogenesis remains limited. Forward genetic screening, positional cloning, confocal and electron microscopy, physiological and pharmacological assays were employed for isolation and characterization of mutants and genes. We identified a mutant, dsm1, with impaired cytokinesis and deformed stomata. DSM1 is highly expressed in guard mother cells and guard cells, and encodes COBRA-LIKE 7 (COBL7), a plant-specific glycosylphosphatidylinositol (GPI)-anchored protein. COBRA-LIKE 7 and its closest homologue, COBL8, are first enriched on the forming cell plates during cytokinesis, and then their subcellular distribution and abundance change are correlated with the progressive stages of stomatal pore formation. Both COBL7 and COBL8 possess an ability to bind cellulose. Perturbing the expression of COBL7 and COBL8 leads to a decrease in cellulose content and inhibition of stomatal pore development. Moreover, we found that COBL7, COBL8 and CSLD5 have synergistic effects on stomatal development and plant growth. Our findings reveal that COBL7 plays a predominant and functionally redundant role with COBL8 in stomatal formation through regulating cellulose deposition and ventral wall modification in Arabidopsis.
Keyphrases
- plant growth
- genome wide
- induced apoptosis
- transcription factor
- ionic liquid
- healthcare
- cell cycle arrest
- palliative care
- spinal cord
- multiple sclerosis
- single cell
- deep brain stimulation
- high throughput
- copy number
- drug delivery
- long non coding rna
- signaling pathway
- cell death
- optical coherence tomography
- oxidative stress
- aqueous solution
- microbial community
- endoplasmic reticulum stress
- spinal cord injury
- wastewater treatment
- genome wide analysis