Identification of proteins regulated by ABA in response to combined drought and heat stress in maize roots

Abstract

We adopted a proteomics approach to identify and analyze the differential expression of maize root proteins associated with abscisic acid (ABA) regulation under combined drought and heat stress. Using mass spectrometry, we identified 22 major proteins that were significantly up-regulated under combined drought and heat stress. These 22 proteins were classified into 6 functional categories: disease/defense (8), metabolism (3), cell growth/division (3), signal transduction (2), transporters (2) and unclassified (4). Our previous reports showed that ABA regulates the expression of several small heat-shock proteins (sHSPs) in maize leaves subjected to the combination of drought and heat stress; however, no sHSPs were identified among the root proteins up-regulated in this study. RT-PCR and western blot analyses were used to identify six known sHSPs. The maize roots were pretreated with 100 μM of ABA, and subsequently, the expression of the 22 up-regulated proteins and 6 sHSPs was examined. 11 proteins were up-regulated in an ABA-dependent manner, 13 proteins were up-regulated in an ABA-independent manner, and 4 proteins were up-regulated but inhibited by ABA. The up-regulated proteins are interesting candidates for further physiological and molecular investigations of combination stress tolerance in maize.