Dna helix 3D Models

Find the best Dna helix 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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Anonymous1776514871

Anonymous1774889171

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Anonymous1773206225

Create a clean and visually appealing 3D model of a DNA molecule in its double helix shape.

The model should include:

A twisted double helix structure.

Two strands forming the backbone (sugar and phosphate).

Base pairs in the center:

Adenine paired with Thymine

Cytosine paired with Guanine

Around 8–10 base pairs so the helix shape is clearly visible.

🎨 Visual Style:

Bright, clean, and easy to understand.

Different colors for each base:

Adenine: green

Thymine: red

Cytosine: blue

Guanine: yellow

Sugar: light gray or white

Phosphate: orange

Neutral background (white or soft blue).

Soft lighting with smooth shadows.

Slight glossy finish, like a school molecular model.

📐 Technical Details:

High resolution.

Slight diagonal angle for depth.

No labels or text.

Proportions should look realistic but simple.

Anonymous1760713726

Anonymous1771416664

Anonymous1770570873

Close-up macro of a single DNA helix segment, glass-like strands, inside-channel liquid glowing and pulsing, neon cyan core with mint highlights, tiny suspended particles catching light, glossy wet look, soft aqua gradient backdrop, dramatic rim light, bokeh highlights, ultra-detailed, cinematic composition, 3:1 horizontal for website hero.

Anonymous1770296079

A solid DNA double-helix sculpture inspired by the Watson–Crick model.

The DNA structure is built from thick, solid geometric components:
- Deoxyribose and phosphate groups as repeating structural blocks forming the backbone
- Nitrogenous base pairs (A–T and C–G) as rigid paired plates connecting the strands

The DNA is straight and vertically aligned,
designed as a central structural core.
Rough geometry, low to medium detail.
Single solid material.

3D printing ready:
Volumetric solid mesh.
No thin wires.
All parts physically connected.

Anonymous1769604823

Anonymous1768851998

Anonymous1767862977

Transform this flat 2D illustration into a detailed, three-dimensional image of the DNA virus

Anonymous1765381656

Anonymous1764585963

A single floating candle made entirely of layered papercraft. Cylindrical candle body built from stacked beige paper rings, visible paper edges, subtle folding lines, matte paper texture. Flame made from three layered paper cutouts in yellow and orange tones. Clean white background, studio lighting, no extra objects, no magic effects, no glow, no particles. Simple papercraft style for accurate 3D reconstruction.

Anonymous1736374304

Anonymous1755230019

This illustration shows a detailed structure of an enveloped virus. The outermost layer is a lipid envelope, represented by a smooth pink membrane. Embedded in this membrane are numerous surface spike proteins, shown as green, lollipop-shaped projections. These spikes play a key role in viral attachment and entry into host cells.

Beneath the envelope lies a layer of matrix proteins, illustrated as light-blue rounded units forming a continuous ring. These proteins provide structural support and help maintain the shape of the virus.

At the center of the particle is the viral nucleocapsid, shown as a hexagonal structure containing a tightly coiled strand of genetic material. The purple spiral inside represents the viral RNA or DNA genome, depending on the type of virus. The nucleocapsid protects the genetic material and ensures its delivery into the host cell.

Overall, the image highlights the key components of an enveloped virus:
**the envelope, surface spikes, matrix layer, nucleocapsid, and the viral genom

Anonymous1764282008

Recreate this exact DNA model from the reference image in clean, symmetric 3D form.
The 3D model must look identical in shape, proportions, and style to the DNA model shown, with smooth helical strands and precisely aligned base pairs between them.

The model will be 3D printed and used by teachers in class to explain DNA structure, so it must be:

Accurate and educational — clearly showing the double helix shape and base pairs.

Solid and printable — no thin, floating, or disconnected geometry.

Low-poly but detailed enough for smooth curves and structure.

Have a stable flat base or slightly extended legs to stand upright.

Use the same proportions and curve tightness as in the uploaded image.

Keep the style scientific and realistic, not artistic or exaggerated.

Make sure the final mesh is ready for 3D printing (closed manifold, no holes, and balanced thickness).

Anonymous1751124288

Create a realistic 3D model of a DNA double helix designed for 3D printing. The model should be clean, symmetric, and accurately represent the DNA structure, including two twisted strands connected by base pairs (like rungs on a ladder). The shape should have a smooth helical twist with visible spacing between turns to clearly show the double-helix pattern.

The model will be used by teachers to explain DNA structure to students, so it should be educational, visually clear, and durable when printed.

Make the model solid and printable with no thin or floating parts.

Ensure low-to-medium polygon count for easy 3D printing.

Add a stable flat base or stand so it can stand upright on a table.

Make the helix proportion accurate, with slightly taller legs/supports for clarity and balance.

The style should be scientific and realistic, not abstract.

The final model should look professional and smooth, suitable for classroom display.

Anonymous1751124288