Explain, in a protein water is removed by dehydration process to form peptide bond why why water is necessary to remove?
![SOLVED: How many water molecules would be produced from the dehydration reactions associated with making a protein that has a primary structure consisting of 200 amino acids and that has a quaternary SOLVED: How many water molecules would be produced from the dehydration reactions associated with making a protein that has a primary structure consisting of 200 amino acids and that has a quaternary](https://cdn.numerade.com/ask_previews/cf0dc1a2-a1ce-4183-a27a-a706bab13fa5_large.jpg)
SOLVED: How many water molecules would be produced from the dehydration reactions associated with making a protein that has a primary structure consisting of 200 amino acids and that has a quaternary
![Protein Hydration Thermodynamics: The Influence of Flexibility and Salt on Hydrophobin II Hydration | The Journal of Physical Chemistry B Protein Hydration Thermodynamics: The Influence of Flexibility and Salt on Hydrophobin II Hydration | The Journal of Physical Chemistry B](https://pubs.acs.org/cms/10.1021/acs.jpcb.7b12060/asset/images/medium/jp-2017-12060q_0007.gif)
Protein Hydration Thermodynamics: The Influence of Flexibility and Salt on Hydrophobin II Hydration | The Journal of Physical Chemistry B
![Peptide bond. Formation of amide bonds from two amino acids as a result of protein biosynthesis reaction. It is process is a dehydration synthesis reaction Stock Vector | Adobe Stock Peptide bond. Formation of amide bonds from two amino acids as a result of protein biosynthesis reaction. It is process is a dehydration synthesis reaction Stock Vector | Adobe Stock](https://as2.ftcdn.net/v2/jpg/03/45/75/25/1000_F_345752527_kqBjosFbfxjEQUvdKPAZaROqUxiPRef1.jpg)
Peptide bond. Formation of amide bonds from two amino acids as a result of protein biosynthesis reaction. It is process is a dehydration synthesis reaction Stock Vector | Adobe Stock
![The mechanism of dehydration in chromophore maturation of wild-type green fluorescent protein: A theoretical study - ScienceDirect The mechanism of dehydration in chromophore maturation of wild-type green fluorescent protein: A theoretical study - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0009261415003164-fx1.jpg)