This question was posed to me in my college biotechnology class this week. These are the answers that I have found. The only thing that a biotechnologist would use is the X-ray crystallography. Because it gives all the data needed to determine the size and shape of proteins.
I do hope that helped.
The shape of a protein allows it to perform its particular job.
because the shape of a protein allows it to perform its particular job
because the shape of a protein allows it to perform its particular job
the function of each protein is a consequence of its specific shape, which is lost when a protein becomes denatured.The shape of a protein determines its specific function within a cell. Denaturing a protein will alter its shape, thus it will no longer function.
a voltage-sensitive tubule protein changes shape due to an action potential
DNA determines a protein's shape by determining the sequence of the amino acids in a protein.
because the shape of a protein allows it to perform its particular job
because the shape of a protein allows it to perform its particular job
The shape of a protein allows it to perform its particular job
The shape of a protein allows it to perform its particular job.
The shape of a protein allows it to perform its particular job.
because the shape of a protein allows it to perform its particular job
because the shape of a protein allows it to perform its particular job
the function of each protein is a consequence of its specific shape, which is lost when a protein becomes denatured.The shape of a protein determines its specific function within a cell. Denaturing a protein will alter its shape, thus it will no longer function.
The amino acid gives the protein it's 3-dimensional shape
The protein that changes shape when calcium ion (Ca2+) binds to it, is the troponin. It is a regulatory protein that is a component of the thin filament.
Its function