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Scientists characterize fertilizer uptake by maize in unprecedented detail, opening doors to improved yields

Admin by Admin
March 23, 2022
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Using a novel technique called scRNA-seq, scientists were able to identify and characterise the major cell types in the root-tip of the maize crop, along with their developmental pathways and many genes specific to each cell type that are key to driving various functions. Credit: Yongwen Qi from Guangdong Academy of Science

Maize, or corn, is cultivated globally, as food, feedstock, and a biofuel source, and is one of the most widely produced crops alongside wheat and rice. Today, the importance of maize as a grain is unrivaled and methods to increase crop yields, reduce farming costs, and ensure sustainable agriculture are critical.

Increases in maize yield have been shown to be linked to nitrogen fertilizer use. But it has also been seen that their uptake of nitrogen fertilizer from the soil is inefficient, at only about 40–65%. Understanding what causes this inefficiency is important for improving crop growth economically and sustainably (less fertilizer use). However, traditional techniques for tissue dissection and analysis are labor-intensive and lack precision, making it difficult for scientists to obtain clear insights into cell types and characteristics.

Recently, a novel technique called single cell RNA-sequencing (scRNA-seq) has changed the game in cellular-level tissue analysis. A versatile technique, it has been applied to samples of human tissue, mice, rice, peanut, and other plants, revealing key gene expression patterns and cell developmental pathways.

Now, in a collaboration between the Institute of Nanfan & Seed Industry, Guangdong Academy of Science, china, and College of Agriculture and Biology, Zhongkai University of Agriculture and Engineering, china, scientists have used this tool to characterize maize roots. “The application of scRNA-seq to identify cell type-specific genes responsible for nitrogen uptake and processing brings new hope for optimizing root nutrient uptake ability in crops including maize,” says Prof. Yongwen Qi, who led the collaboration.

In their study, the team analyzed over 7,000 cells from the root tips of seedlings grown on media with or without nitrate fertilizer. They identified and characterized 11 major cell types or tissues that were each present in starkly differing numbers. This reflected the high heterogeneity of maize root tips. Comparison of cells from seedlings grown in either media showed that across these cell types, there were 85 cell type-specific genes for nitrate-response, only some of them known for nitrate uptake and metabolism.

Further analysis revealed clues about the developmental pathways of various cells. For instance, it was found that root hair cells were derived from a subtype of the epidermal cell.

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The scientists also compared cell types among maize and rice roots to find genes that are common and those that are differentiated, gaining insights into genes that could have been evolutionarily conserved across crop species. They found 57 root hair, 216 endodermis, and 80 phloem genes that are conserved.

The genes characterized in this study could serve as a roadmap for researchers looking to find ways of accurately controlling gene expression and variations in specific cell types or tissues, in maize or other crops. “Although not all cell types were captured, our results are a valuable resource for investigating cell types and the response of maize crops to nitrate fertilizer. This work also provides an example for the exploration of cell heterogeneity in a special tissue of a plant. Further, the genes characterized in this study could be targets for further analyses to genetically improve crops of various species. We hope this study can provide ideas and methods for gene isolation, controlling gene expression and plant characteristics, and even precision breeding,” says Prof. Qi.

Through their findings, Prof. Qi’s team have paved the way for new explorations in biotechnology and crop breeding. Particularly, this study presents a significant step towards more efficient and economical, but sustainable, maize crop growth, for a more golden future.

The research was published in The Crop Journal.


Identifying a protective mechanism against the negative consequences of ammonium fertilization


More information:
Xuhui Li et al, Single-cell RNA sequencing reveals the landscape of maize root tips and assists in identification of cell type-specific nitrate-response genes, The Crop Journal (2022). DOI: 10.1016/j.cj.2022.02.004

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Cactus Communications

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Scientists characterize fertilizer uptake by maize in unprecedented detail, opening doors to improved yields (2022, March 22)
retrieved 22 March 2022
from https://phys.org/news/2022-03-scientists-characterize-fertilizer-uptake-maize.html

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