Circles and curved lines.
it makes it do it by the shape in a microscope
a tight chain
Conformation is what determines a protein's unique set of functional and otherwise shapes.
The protein histone, and attendant proteins, spool the DNA tightly around their complexes and then further wind these complexes into tighter and tighter shapes. About two meters worth of DNA per cell is held in these histone complexes.
Eye and hair color and ear and nose shapes are examples of genetic traits determined by our DNA. These traits are influenced by a combination of genes from our parents that determine our physical appearance.
DNA. DNA.
it makes it do it by the shape in a microscope
a tight chain
They have different numbers and shapes of chromosomes, and the DNA is not the same.
Conformation is what determines a protein's unique set of functional and otherwise shapes.
The protein histone, and attendant proteins, spool the DNA tightly around their complexes and then further wind these complexes into tighter and tighter shapes. About two meters worth of DNA per cell is held in these histone complexes.
The tertiary structure of DNA refers to how the double helix is further organized and folded into complex three-dimensional shapes. It includes interactions between distant parts of the DNA molecule, such as bending, looping, and twisting, which are important for regulating gene expression and DNA packaging. Tertiary structure is crucial for DNA to function properly within the cell.
It's the different shapes of the DNA molecule. B would be more rectangular with more height than width whereas the other two would be more of a different shape.
Eye and hair color and ear and nose shapes are examples of genetic traits determined by our DNA. These traits are influenced by a combination of genes from our parents that determine our physical appearance.
The intricate folding patterns of origami can be applied to the structure of DNA by mimicking the way DNA molecules fold and interact with each other. By using origami principles, scientists can design and create DNA structures with specific shapes and functions, which can be useful in various applications such as drug delivery and nanotechnology.
Dna Pol three is a Dna copying bio-machine - similar more in function than in overall shapes and forms {and cofactors} to Dna Pol I and Dna Pol II - each has It's own special Role [ regarding Dna replication ( synthesis of two new Dna intertwined strands ) ] to perform.
DNA are double helical spiral molecules. Structure was discovered by Watson and Crick