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Chapter 21: Problem 15

The term paralog is often used in conjunction with discussions of hemoglobin genes. What does this term mean, and how does it apply to hemoglobin genes?

Short Answer

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Answer: A paralog is a gene that has evolved through duplication events, resulting in related genes within the same species. These paralogous genes can have similar or divergent functions due to the accumulation of sequence differences over time. In the case of human hemoglobin genes, multiple paralogous genes code for the alpha and beta chains that make up hemoglobin. These paralogs allow for the production of various hemoglobin types in response to different stages of development and physiological conditions, optimizing oxygen delivery and utilization within the body.

Step by step solution

01

Define Paralog

A paralog is a gene that has evolved through duplication events and, as a result, is related to another gene within the same species. Paralogs are a type of homologous genes that can have similar or divergent functions due to accumulation of sequence differences over time.
02

Introduction to Hemoglobin Genes

Hemoglobin is a protein in red blood cells that binds to and transports oxygen throughout the body. Hemoglobin is made up of four subunits, two alpha (α) chains and two beta (β) chains. In humans, there are multiple genes that code for these alpha and beta chains, which are organized into the alpha-globin and beta-globin gene clusters, respectively.
03

Paralogs in Hemoglobin Genes

The multiple genes coding for the alpha and beta chains in hemoglobin are paralogs. They have originated from duplication events of an ancestral globin gene and have evolved separately over time. Due to sequence divergence, these paralogous genes may produce slightly different protein variants with unique properties, such as different oxygen-binding affinities or responses to physiological conditions.
04

Role of Paralogs in Hemoglobin Function

The presence of paralogs allows for the production of various types of hemoglobin molecules during different stages of development and under different physiological conditions. This, in turn, helps to optimize oxygen delivery and utilization in the body. For example, fetal hemoglobin (HbF) has a higher affinity for oxygen than adult hemoglobin (HbA), which enables the efficient transfer of oxygen from the mother's blood to the developing fetus. This differential function is achieved by the slight variations in the amino acid sequences and properties of the alpha and gamma chains (a paralog to the beta chain) in HbF compared to the alpha and beta chains in HbA.

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