
DNA/RNA
This RNA binding NTD protein model communicates the primary domains of the NTD protein and how it interacts with a short segment of RNA. The protein (blue, yellow and green) is shown in surface format and the RNA (orange and purple) is shown in cartoon format. The model includes embedded magnets that allow for disassembly of the domains, removal of the RNA and separation from the display base.
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DNA/RNA
This DNA binding model communicates the structural complementarity of double-stranded DNA (red and yellow) with a thymine-DNA glycosylase protein (blue). DNA binding protein. The version on the left is produced in alpha-carbon backbone format. The version on the right is produced in spacefill format. Both versions use embedded magnets to disassemble.
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DNA/RNA
This collection of nucleotide models communicate the variety of hairpin turn structures that can arise from standard A-T G-C base pairing. The top model was produced in cartoon format with a smooth gradient from red to blue. The bottom right model was produced in sticks format and colored by nucleotide chain. The bottom left and middle models were produced in a sticks format and colored by element.
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DNA/RNA
This collection of nucleosome models communicate the multi-domain structure of a nucleosome. Multiple histone chains (red, yellow, green and blue) that make up each nucleosome hold tightly to double-stranded DNA (white) wrapping around the histone core. The model on the left was produced in backbone format and the model on the right was produced in spacefill format.
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DNA/RNA
This Catabolite Gene Activator Protein (CAP) communicates the sequence specific complementarity of protein to DNA. The homodimer CAP protein (purple and green) uses embedded magnets to attach to the DNA segment (colored by element). ATP is also shown bound in the protein active sites.
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DNA/RNA
This large RNA polymerase model communicates the structure and function of multi-domain polymerase proteins. Each chain of the protein was produced in alpha-carbon backbone format and given a unique color (gray, white, yellow, pink, etc.). The DNA/RNA hybrid (light blue, dark blue and red) was produced in sticks format. The model includes embedded magnets that allow the polymerase proteins to split in half, revealing the DNA/RNA hybrid.
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DNA/RNA
This DNA model communicates the overall structure of double-stranded DNA and how small molecule adducts impact the iconic structure of DNA. Three adducts are shown (blue, purple and green) bound in various locations throughout the DNA helix (yellow). The model has embedded magnets that allow it to attach to a sturdy display base with a custom plaque.
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