Scientists uncover voronoi pattern in chinese money plant leaves

Researchers have identified a natural geometric pattern known as a Voronoi diagram in the leaves of the Chinese money plant. The discovery reveals how the plant organizes its pores and veins using principles common in city planning and network design.

A team at Cold Spring Harbor Laboratory mapped the tiny pores and looping veins in Pilea peperomioides leaves. They found that the structures naturally divide space around central points in the same way Voronoi diagrams do in mathematics and computer science. Associate Professor Saket Navlakha led the work with former graduate student Cici Zheng and collaborator Przemysław Prusinkiewicz.

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Photorealistic close-up of a POMbrane crystalline membrane with 1nm pores for molecular filtration
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Nature-inspired “POMbranes” use uniform 1-nanometer pores for ultra-selective molecular filtration

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Researchers from India and Singapore report a crystalline membrane made from polyoxometalate clusters whose intrinsic openings are about 1 nanometer wide, enabling unusually sharp molecular separations that could help lower energy use in some industrial purification and water-reuse steps.

A new theory from scientists at Cold Spring Harbor Laboratory suggests that brain cells use their cellular family tree to organize into a complex organ. The model explains how a single starting cell can form a brain with roughly 170 billion precisely positioned neurons.

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Scientists at EPFL report that a transient shape change in mitochondria—known as “pearling,” in which the organelle briefly forms bead-like constrictions—can redistribute clusters of mitochondrial DNA (mtDNA) into more evenly spaced nucleoids. The work, published April 2, 2026 in Science, suggests the process is triggered by calcium influx into mitochondria and may help explain how cells maintain robust mtDNA organization, a feature implicated in a range of mitochondrial-related disorders.

La Trobe University researchers say dying cells can leave behind a residue containing newly identified extracellular vesicles that help direct immune clearance, but laboratory experiments suggest influenza viruses may also use the vesicles to help spread.

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Researchers at Harvard Medical School have uncovered a hidden map of smell receptors in mice noses, revealing neat stripes instead of random distribution. This structure aligns with brain mapping, challenging prior assumptions about olfaction. The findings, published April 28 in Cell, could aid treatments for smell loss.

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