C/s-regulatory code of stress-responsive transcription in Arabidopsis thaliana

摘要

Environmental stress leads to dramatic transcriptional reprogram-ming, which is central to plant survival. Although substantial knowledge has accumulated on how a few plant c/s-regulatory elements (CREs) function in stress regulation, many more CREs remain to be discovered. In addition, the plant stress c/s-regulatory code, i.e., how CREs work independently and/or in concert to specify stress-responsive transcription, is mostly unknown. On the basis of gene expression patterns under multiple stresses, we identified a large number of putative CREs (pCREs) in Arabidopsis thaliana with characteristics of authentic c/s-elements. Surprisingly, biotic and abiotic responses are mostly mediated by two distinct pCRE superfamilies. In addition, we uncovered c/s-regulatory codes specifying how pCRE presence and absence, combinatorial relationships, location, and copy number can be used to predict stress-responsive expression. Expression prediction models based on pCRE combinations perform significantly better than those based on simply pCRE presence and absence, location, and copy number. Furthermore, instead of a few master combinatorial rules for each stress condition, many rules were discovered, and each appears to control only a small subset of stress-responsive genes. Given there are very few documented interactions between plant CREs, the combinatorial rules we have uncovered significantly contribute to a better understanding of the c/s-regulatory logic underlying plant stress response and provide prioritized targets for experimentation.