Abstract
Weed presence early in the life cycle of maize (typically, from emergence through the 8 to 12 leaf growth stage) can reduce crop growth and yield and is known as the critical weed‐free period (CWFP). Even if weeds are removed during or just after the CWFP, crop growth and yield often are not recoverable. We compared transcriptome responses of field‐grown hybrid maize at V8 in two consecutive years among plants grown under weed‐free and two weed‐stressed conditions (weeds removed at V4 or present through V8) using RNAseq analysis techniques. Compared with weed‐free plant responses, physiological differences at V8 were identified in all weed‐stressed plants and were most often associated with altered photosynthetic processes, hormone signaling, nitrogen use and transport, and biotic stress responses. Even when weeds were removed at V4 and tissues sampled at V8, carbon: nitrogen supply imbalance, salicylic acid signals, and growth responses differed between the weed‐stressed and weed‐free plants. These underlying processes and a small number of developmentally important genes are potential targets for decreasing the maize response to weed pressure. Expression differences of several novel, long noncoding RNAs resulting from exposure of maize to weeds during the CWFP were also observed and could open new avenues for investigation into the function of these transcription units.
Highlights
Mention of trade names or commercial products in this publication is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the United States Department of Agriculture (USDA)
Long noncoding RNAs were selected based on the criteria that the transcript had no open-reading frames in any closely related contig, was at least 300 bases long, was significantly differentially expressed between treatments in both years based on the output from the RSEM program (Li & Dewey, 2011) that mapped reads back to the de novo assembled transcriptome, was expressed at greater than 10 transcripts per million, and had no significant homology to known maize genes
Unlike when weeds were present through V8, auxin, gibberellic acid (GA), and jasmonic acid (JA)-associated ontologies were over-represented among genes downregulated in the plants from WR4 treatments
Summary
Identification of biochemical pathways and biological/developmental processes that are differentially regulated in response to early-season weed presence, and that irreversibly impact yield, would be of considerable interest to plant breeders seeking to improve stress tolerance in elite maize hybrids. This understanding may lead to novel weed control mechanisms or, alternatively, manipulation of crop genes to dampen signaling reception of weed presence, thereby reducing negative weed impacts so long as they are removed before any direct competition for resources can occur. Gene set and subnetwork enrichment analyses assisted in understanding relationships among genes and processes affected by weed stress
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