Innovation, conservation and repurposing of gene function in plant root cell type development
Abstract
Plant species have evolved myriads of solutions to adapt to dynamic environments, including complex cell type development and regulation. To understand this diversity, we profiled tomato root cell type translatomes and chromatin accessibility. Using xylem differentiation in tomato, relative to Arabidopsis, examples of functional innovation, repurposing and conservation of transcription factors are described. Repurposing and innovation of genes are further observed within an exodermis regulatory network and illustrate its function. Translatome analyses of rice, tomato and Arabidopsis tissues suggest that root meristems are more conserved, and that the functions of constitutively expressed genes are more conserved than those of cell type/tissue-enriched genes. These observations suggest that higher-order properties of cell type and pan-cell type regulation are conserved between plants and animals.
One Sentence Summary Pan-species cell type translatome and chromatin accessibility data reveal novelty, conservation and repurposing of gene function.
Competing Interest Statement
The authors have declared no competing interest.
Subject Area
- Biochemistry (12738)
- Bioengineering (9610)
- Bioinformatics (31125)
- Biophysics (16034)
- Cancer Biology (13110)
- Cell Biology (18747)
- Clinical Trials (138)
- Developmental Biology (10138)
- Ecology (15127)
- Epidemiology (2067)
- Evolutionary Biology (19334)
- Genetics (12838)
- Genomics (17711)
- Immunology (12840)
- Microbiology (30051)
- Molecular Biology (12535)
- Neuroscience (65472)
- Paleontology (484)
- Pathology (2028)
- Pharmacology and Toxicology (3500)
- Physiology (5423)
- Plant Biology (11236)
- Synthetic Biology (3104)
- Systems Biology (7744)
- Zoology (1748)