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May 20, 2025

Barley grain production linked to peptide-receptor system controlling inflorescence architecture

From left to right: mature barley plant; comparison between wild type and HvCLV1 mutant barley inflorescences; microscopic images of barley inflorescences in early development stages. The top-right image was made using a scanning electron microscope, while the image below it was obtained using a confocal microscope. It shows a barley inflorescence forming the fluorescent HvFCP1 reporter line. Credit: HHU/Isaia Vardanega
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From left to right: mature barley plant; comparison between wild type and HvCLV1 mutant barley inflorescences; microscopic images of barley inflorescences in early development stages. The top-right image was made using a scanning electron microscope, while the image below it was obtained using a confocal microscope. It shows a barley inflorescence forming the fluorescent HvFCP1 reporter line. Credit: HHU/Isaia Vardanega

Grasses have evolved a wide variety of inflorescences, in which the seeds are arranged in many different ways: Some types form complex, branched inflorescences with multiple seeds, while others—such as barley—have much simpler inflorescences. In barley, each individual grain forms on a short axis called a "rachilla."

These differences in inflorescence architecture are determined early on in the development of the plant, with the size, position and longevity of the meristems ultimately determining the form of the inflorescence.

A team of scientists headed by Professor Dr. Rüdiger Simon from the Institute of Developmental Genetics at HHU has now identified a which regulates the activity of distinct meristems in . In Nature Communications, they that a small peptide called HvFCP1, which is secreted by cells of the rachilla, interacts with a receptor called HvCLV1 localized on the and thus controls the growth of the meristems along the vertical and horizontal axes. This ultimately determines the inflorescence architecture.

The researchers also examined what happens when the genes responsible for the formation of HvFCP1 or HvCLV1 mutate. In these cases, the plants develop enlarged inflorescences and rachillae. The inflorescences of these barley mutants then display a similar architecture to the inflorescences of wheat—with the formation of multiple flowers (and later grains) from one rachilla.

The origin of crowned spikes and multi-floret spikelets. Credit: Nature Communications (2025). DOI: 10.1038/s41467-025-59330-z
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The origin of crowned spikes and multi-floret spikelets. Credit: Nature Communications (2025). DOI: 10.1038/s41467-025-59330-z

In their research, the authors of the study combined a gene function analysis at the with a detailed phenotypical characterization using scanning and fluorescence microscopy. Professor Simon explains, "The Center for Advanced Imaging (CAi) of the HHU is an outstanding facility enabling this kind of research."

The lead author of the study, Dr. Isaia Vardanega, says, "Our discovery now enables us to re-design the inflorescences of grasses. By gaining a more precise understanding of the stem cell system of barley, we can for example increase the number of grains and thus contribute to increased agricultural production."

Professor Simon adds, "This work lays the foundation for new, targeted breeding approaches. Our knowledge of the genetic regulation of the architecture of barley will make it possible to generate new, high-yield varieties more quickly by means of genome editing."

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More information: Isaia Vardanega et al, CLAVATA signalling shapes barley inflorescence by controlling activity and determinacy of shoot meristem and rachilla, Nature Communications (2025).

Journal information: Nature Communications

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A peptide-receptor signaling pathway involving HvFCP1 and HvCLV1 regulates meristem activity and inflorescence architecture in barley. Mutations in these genes lead to enlarged inflorescences and increased grain number, resembling wheat. Understanding this pathway enables targeted breeding and genome editing to enhance barley yield.

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