Raquel
Senior 3D Artist
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Reactive Oxygen Species: NADPH Oxidase Activation

This scientific animation illustrates the molecular mechanisms behind reactive oxygen species (ROS) production via NADPH oxidase. Set in a detailed 3D cellular environment, the video visualizes the assembly and activation of NADPH oxidase at the cell membrane—an essential process in innate immunity.

NADPH: Powering Cellular Reactions

Lipid Bilayer & NADPH Oxidase -Cross-section of a phospholipid bilayer with embedded NADPH oxidase complex. Wireframe overlay reveals structural modeling of lipid heads, tails, and protein domains. Modeled in Maya | by Kel

Lipid Bilayer & NADPH Oxidase -Cross-section of a phospholipid bilayer with embedded NADPH oxidase complex. Wireframe overlay reveals structural modeling of lipid heads, tails, and protein domains.
Modeled in Maya | by Kel

Eukaryotic Cell - 3D model highlighting organelle topology and spatial layout. Includes nucleus, mitochondria, ER, and Golgi. Rendered in semi-wireframe for structural clarity. Modeled in Maya | by Kel

Eukaryotic Cell - 3D model highlighting organelle topology and spatial layout. Includes nucleus, mitochondria, ER, and Golgi. Rendered in semi-wireframe for structural clarity.
Modeled in Maya | by Kel

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