Genetic and environmental variation impact the cuticular hydrocarbon metabolome on the stigmatic surfaces of maize

Date
2019-01-01
Authors
Nikolau, Basil
Dennison, Tesia
Qin, Wenmin
Loneman, Derek
Condon, Samson
Lauter, Nick
Nikolau, Basil
Yandeau-Nelson, Marna
Yandeau-Nelson, Marna
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Abstract

Background: Simple non-isoprenoid hydrocarbons accumulate in discrete regions of the biosphere, including within bacteria and algae as a carbon and/or energy store, and the cuticles of plants and insects, where they may protect against environmental stresses. The extracellular cuticular surfaces of the stigmatic silks of maize are rich in linear hydrocarbons and therefore provide a convenient system to study the biological origins and functions of these unique metabolites.

Results: To test the hypotheses that genetics and environment influence the accumulation of surface hydrocarbons on silks and to examine the breadth of metabolome compositions across diverse germplasm, cuticular hydrocarbons were analyzed on husk-encased silks and silks that emerged from the husk leaves from 32 genetically diverse maize inbred lines, most of which are commonly utilized in genetics experiments. Total hydrocarbon accumulation varied ~ 10-fold among inbred lines, and up to 5-fold between emerged and husk-encased silks. Alkenes accounted for 5-60% of the total hydrocarbon metabolome, and the majority of alkenes were monoenes with a double bond at either the 7th or 9th carbon atom of the alkyl chain. Total hydrocarbon accumulation was impacted to similar degrees by genotype and husk encasement status, whereas genotype predominantly impacted alkene composition. Only minor differences in the metabolome were observed on silks that were emerged into the external environment for 3- versus 6-days. The environmental influence on the metabolome was further investigated by growing inbred lines in 2 years, one of which was warmer and wetter. Inbred lines grown in the drier year accumulated up to 2-fold more hydrocarbons and up to a 22% higher relative abundance of alkenes. In summary, the surface hydrocarbon metabolome of silks is primarily governed by genotype and husk encasement status, with smaller impacts of environment and genotype-by-environment interactions.

Conclusions: This study reveals that the composition of the cuticular hydrocarbon metabolome on silks is affected significantly by genetic factors, and is therefore amenable to dissection using quantitative genetic approaches. Such studies will clarify the genetic mechanisms responsible for the accumulation of these metabolites, enabling detailed functional investigations of the diverse and complex protective roles of silk surface lipids against environmental stresses.

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<p>This article is published as Dennison, Tesia, Wenmin Qin, Derek M. Loneman, Samson GF Condon, Nick Lauter, Basil J. Nikolau, and Marna D. Yandeau-Nelson. "Genetic and environmental variation impact the cuticular hydrocarbon metabolome on the stigmatic surfaces of maize." <em>BMC plant biology</em> 19 (2019): 430. doi: <a href="https://doi.org/10.1186/s12870-019-2040-3">10.1186/s12870-019-2040-3</a>.</p>
Keywords
Maize silks, Cuticle, Cuticular wax, Surface lipids, Fatty acid synthesis, Desaturation, Hydrocarbons, Metabolomics, NAM founders
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