Hereditary disease,minting protein

[Nathaniel Mik]

Homework Statement

Explain why a change in the essential protein can cause the deformation of the red blood cell.
Examine the process of manufacturing proteins and explain why the defective proteins are produced red blood cells.

Homework Equations

The Attempt at a Solution

 

[chemisttree]

We need a little bit more from you before we can help.
What do you mean by 'essential protein'?
What do you have as an answer so far?

 

[Blueshift5]

A hereditary disease is a genetic disorder that is passed down from parents to their offspring. These diseases are caused by mutations in our DNA that affect the production and functioning of essential proteins in our bodies. One such example is sickle cell anemia, where a mutation in the gene that codes for the protein hemoglobin results in the production of abnormal hemoglobin molecules. This leads to the deformation of red blood cells, which are responsible for carrying oxygen throughout the body.

Proteins are essential molecules that perform a variety of functions in our bodies, from building and repairing tissues to regulating chemical reactions. They are made up of long chains of amino acids that are joined together in a specific order determined by our DNA. This process of protein synthesis occurs in the ribosomes of our cells, where the genetic code is read and translated into the sequence of amino acids that make up a particular protein.

In the case of hereditary diseases, a mutation in the DNA sequence can result in a change in the amino acid sequence of a protein. This change can alter the structure and function of the protein, leading to defects in its production and ultimately affecting the cells and tissues that rely on it. In the case of sickle cell anemia, the mutated hemoglobin molecules form abnormal shapes that cause the red blood cells to become rigid and take on a sickle-like appearance. This can impair their ability to carry oxygen and lead to a range of symptoms and health complications.

In summary, a change in the essential protein can cause the deformation of red blood cells because proteins are crucial for the proper functioning of cells and tissues. A mutation in the genetic code can result in the production of defective proteins, leading to the manifestation of hereditary diseases. Understanding the process of protein synthesis and how mutations can affect it is essential in studying and treating these disorders.