Comparative Proteomic Analysis Reveals That the Heterosis of Two Maize Hybrids is Related to Enhancement of Stress Response and Photosynthesis Respectively

Wang, Daoping; Mu, Yongying; Hu, Xiaojiao; Ma, Bo; Wang, Zhen; Zhu, Li; Xu, Jiang; Huang, Changling; pan, yinghong

doi:10.21203/rs.3.rs-29700/v4

Cited by 6 publications

(5 citation statements)

References 37 publications

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“…Carbon-fixation-related proteins had a mixed pattern of expression differences in the hybrid and overall were neither positively nor negatively correlated with plant height heterosis. Others report that hybrids are associated with either elevated levels of photosynthetic proteins (hybrid ZD909) or stress proteins (hybrid ZD808), but not both (33).…”

Section: Discussionmentioning

confidence: 99%

Plant height heterosis is quantitatively associated with expression levels of plastid ribosomal proteins

Birdseye

Boer

Bai

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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The use of hybrids is widespread in agriculture, yet the molecular basis for hybrid vigor (heterosis) remains obscure. To identify molecular components that may contribute to trait heterosis, we analyzed paired proteomic and transcriptomic data from seedling leaf and mature leaf blade tissues of maize hybrids and their inbred parents. Nuclear- and plastid-encoded subunits of complexes required for protein synthesis in the chloroplast and for the light reactions of photosynthesis were expressed above midparent and high-parent levels, respectively. Consistent with previous reports in Arabidopsis, ethylene biosynthetic enzymes were expressed below midparent levels in the hybrids, suggesting a conserved mechanism for heterosis between monocots and dicots. The ethylene biosynthesis mutant, acs2/acs6, largely phenocopied the hybrid proteome, indicating that a reduction in ethylene biosynthesis may mediate the differences between inbreds and their hybrids. To rank the relevance of expression differences to trait heterosis, we compared seedling leaf protein levels to the adult plant height of 15 hybrids. Hybrid/midparent expression ratios were most positively correlated with hybrid/midparent plant height ratios for the chloroplast ribosomal proteins. Our results show that increased expression of chloroplast ribosomal proteins in hybrid seedling leaves is mediated by reduced expression of ethylene biosynthetic enzymes and that the degree of their overexpression in seedlings can quantitatively predict adult trait heterosis.

show abstract

Section: Discussionmentioning

confidence: 99%

Plant height heterosis is quantitatively associated with expression levels of plastid ribosomal proteins

Birdseye

Boer

Bai

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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show abstract

“…Carbon fixation-related proteins had a mixed pattern of expression differences in the hybrid, and overall were neither positively nor negatively correlated with plant height heterosis. Others report that hybrids are associated with either elevated levels of photosynthetic proteins (hybrid ZD909) or stress proteins (hybrid ZD808) but not both 26 .…”

Section: Discussionmentioning

confidence: 99%

Plant trait heterosis is quantitatively associated with expression heterosis of the plastid ribosomal proteins

Birdseye

Bai

et al. 2021

Preprint

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The use of hybrids is widespread in agriculture yet the molecular basis for hybrid vigor (heterosis) remains obscure. To identify molecular components of the leaf that may contribute to the known higher photosynthetic capacity of maize hybrids, we generated paired datasets of the proteomes and transcriptomes from leaf tissues of maize hybrids and their inbred parents. Expression patterns in the hybrids were semi-dominant to overdominant for subunits of the digenomic protein complexes required for the light reactions of photosynthesis and for chloroplast protein synthesis; nuclear and plastid-encoded subunits were elevated similarly. These patterns were not mirrored in the nuclear transcriptomes. We compared growth of multiple hybrids with varying levels of heterosis to transcript and protein levels. Expression heterosis (hybrid/mid-parent expression levels) of chloroplast ribosomal proteins and of nuclear transcripts for the photosynthetic light reactions was positively correlated with plant height heterosis (hybrid/mid-parent plant height). Ethylene biosynthetic enzymes were expressed below mid-parent levels in the hybrids, and the ethylene biosynthesis mutant acs2/acs6 partially phenocopied the hybrid proteome, indicating that a reduction in ethylene biosynthesis may be upstream of the elevated expression of photosynthetic and ribosomal proteins in chloroplasts of hybrids.

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“…(2018) with several proteomic studies on heterosis revealed that the fraction of non-additive proteins in the hybrid varied depending on the genotype, tissue and stage of development, and they consider that multiple molecular mechanisms could lead to an expression of differential protein profile, which in turn could be contributing to heterosis. A constant in these breeding is that F1 encodes a great variety of proteins with respect to the parental inbred lines (Wang et al ., 2020). Therefore, identifying the participation of proteins in metabolic pathways may be important to clarify the mechanisms of heterosis.…”

Section: Discussionmentioning

confidence: 99%

Comparative proteomic analysis of hybrid maize MR2008 and its parental lines

et al. 2021

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Maize is one of the three staple foods in the world. The white variety represents 60% of the maize importation with a world consumption of 1125 million tons in 2019/2020. Currently, new technologies could contribute to the analysis of this seed, supporting quality control and improvement. This study aims to carry out the morphological and proteomic comparison between the hybrid MR2008 and its parental lines LUG03 and CML491 through mass spectrometry and bioinformatics analysis. Herein, we identified that 34.8% of the hybrid proteome differs from the parental proteome. Also, ontological and morphological analyses determined that the hybrid exhibits more characteristics related to CML491 than LUG03, for example, metabolic pathways and enzymes, such as anthocyanidin 3-O-glucosyltransferase (UniProt P16166). This analysis allowed the identification of dominant characters, metabolic pathways and confirms the utility of this methodology in agricultural practices, mainly in processes of selection and quality control of a crop.

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Comparative Proteomic Analysis Reveals That the Heterosis of Two Maize Hybrids is Related to Enhancement of Stress Response and Photosynthesis Respectively

Cited by 6 publications

References 37 publications

Plant height heterosis is quantitatively associated with expression levels of plastid ribosomal proteins

Plant height heterosis is quantitatively associated with expression levels of plastid ribosomal proteins

Plant trait heterosis is quantitatively associated with expression heterosis of the plastid ribosomal proteins

Comparative proteomic analysis of hybrid maize MR2008 and its parental lines

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