15.11 Minerals of Biological Significance | Biochemistry | Chemistry 12

Minerals are essential inorganic nutrients required for life, found in the body and in food in both organic and inorganic forms. Although they constitute only about 5% of the human body's mass, they are crucial for every mental and physical process and are vital for maintaining all physiological functions.

Types of Nutrients

Nutrients are broadly categorized based on the quantity required by the body.

Macronutrients are nutrients that the body needs in large amounts.
- Examples: Calcium ( $C a$ ), Phosphorus ( $P$ ), Magnesium ( $M g$ ), and Sulphur ( $S$ ).
Micronutrients (or trace elements) are nutrients that the body needs in smaller quantities.
- Examples: Iron ( $F e$ ), Zinc ( $Z n$ ), Copper ( $C u$ ), and Iodine ( $I$ ).

Sources of Important Minerals

Mineral	Common Dietary Sources
Iron ( $F e$ )	Red meat, egg yolk, whole wheat, fish, spinach, mustard
Calcium ( $C a$ )	Milk, cheese, egg yolk, beans, nuts, cabbage, green leafy vegetables
Phosphorus ( $P$ )	Egg yolk, cheese, milk, cabbage
Zinc ( $Z n$ )	Oysters, red meat, chicken, beans, nuts, dairy products, some seafood

Role of Important Minerals in Nutrition

Role of Iron ( $F e$ )

Iron is a critical mineral for maintaining healthy blood and preventing fatigue.

Oxygen Transport: Iron is a key component of hemoglobin, the protein in red blood cells that carries oxygen from the lungs to all body tissues. It is also part of myoglobin, which stores oxygen in muscle tissue.
Brain and Cell Function: It is essential for the growth and development of the brain in children and is necessary for the normal generation and function of various cells and hormones.
Deficiency: A lack of iron leads to iron-deficiency anemia, characterized by extreme fatigue, lightheadedness, and dizziness. This occurs because low iron levels reduce the oxygen-carrying capacity of the blood.
- High-risk groups: Children, pregnant or menstruating women, and individuals undergoing kidney dialysis.

Role of Calcium ( $C a$ )

Calcium is one of the most abundant minerals in the body, primarily associated with structural integrity.

Bones and Teeth: Approximately 99% of the body's calcium is stored in bones and teeth, providing them with strength and structure.
Physiological Processes: The remaining 1% is found in blood, muscle, and other tissues, where it plays vital roles in blood coagulation (clotting), muscle contraction, and regulation of normal heart rhythms and nerve functions.
Vitamin D Interaction: The body's ability to use calcium is dependent on Vitamin D. A deficiency in Vitamin D leads to decreased absorption of ionized calcium.
Deficiency: Calcium deficiency (often linked with Vitamin D deficiency) can cause serious bone conditions such as rickets (in children), osteomalacia (softening of bones in adults), and osteoporosis (brittle bones).

Role of Phosphorus ( $P$ )

Phosphorus is a versatile mineral involved in numerous biological processes.

Structural Role: It is a key component in the structure of bones, teeth, and cell membranes.
Energy Metabolism: Phosphorus is a fundamental part of ATP (Adenosine Triphosphate), the body's primary energy molecule.
Genetic Material: It forms the backbone of the building blocks of genes: DNA and RNA. Nucleic Acids→
Regulation: It helps in activating enzymes and maintaining the body's blood pH level.
Nerve and Muscle Function: It is vital for the proper functioning of nerves and muscles, including the heart.

Role of Zinc ( $Z n$ )

Zinc is the most important trace element for human health, with about $2 g$ present in the body.

Immune System: Zinc is crucial for the proper functioning of the immune system. Low zinc levels can increase the risk of infections like pneumonia.
Enzymatic Reactions: It enables the body to produce proteins and DNA.
Growth and Repair: Zinc promotes wound healing and is essential for child growth and development.
Other Functions: It plays a role in maintaining healthy skin and is important for prostate health and maintaining testosterone levels in males.

Other Significant Minerals

Magnesium ( $M g^{2 +}$ ): Essential for chlorophyll in plants and acts as a cofactor for over 300 enzymes in humans, particularly those involving ATP.
Iodine ( $I$ ): Essential for the synthesis of thyroid hormones.
Fluoride ( $F^{-}$ ): Added to water and toothpaste to prevent dental caries by strengthening tooth enamel.

Possible Questions and Answers

Q: What is the biological significance of minerals? A: Minerals are essential nutrients required for all mental and physical processes. They are critical for structural components (like bones), oxygen transport (iron in hemoglobin), energy production (phosphorus in ATP), immune function (zinc), and regulating physiological processes like muscle contraction and nerve signals (calcium).

Q: What problems are caused by a deficiency of calcium and phosphorus? A: A deficiency in calcium, often linked to low Vitamin D, can lead to conditions like rickets, osteomalacia, and osteoporosis, all of which involve weakened or brittle bones. A phosphorus deficiency can disrupt energy metabolism, nerve and muscle function, and compromise bone and teeth structure.

Q: Give the importance of the zinc mineral. A: Zinc is a vital trace mineral that supports the immune system, enables the synthesis of proteins and DNA, promotes wound healing, and is essential for proper growth and development in children. It also contributes to healthy skin and prostate function.

Types of Nutrients

Nutrients are broadly categorized based on the quantity required by the body.

Macronutrients are nutrients that the body needs in large amounts.
- Examples: Calcium ( $C a$ ), Phosphorus ( $P$ ), Magnesium ( $M g$ ), and Sulphur ( $S$ ).
Micronutrients (or trace elements) are nutrients that the body needs in smaller quantities.
- Examples: Iron ( $F e$ ), Zinc ( $Z n$ ), Copper ( $C u$ ), and Iodine ( $I$ ).

Sources of Important Minerals

Mineral	Common Dietary Sources
Iron ( $F e$ )	Red meat, egg yolk, whole wheat, fish, spinach, mustard
Calcium ( $C a$ )	Milk, cheese, egg yolk, beans, nuts, cabbage, green leafy vegetables
Phosphorus ( $P$ )	Egg yolk, cheese, milk, cabbage
Zinc ( $Z n$ )	Oysters, red meat, chicken, beans, nuts, dairy products, some seafood

Role of Important Minerals in Nutrition

Role of Iron ( $F e$ )

Iron is a critical mineral for maintaining healthy blood and preventing fatigue.

Oxygen Transport: Iron is a key component of hemoglobin, the protein in red blood cells that carries oxygen from the lungs to all body tissues. It is also part of myoglobin, which stores oxygen in muscle tissue.
Brain and Cell Function: It is essential for the growth and development of the brain in children and is necessary for the normal generation and function of various cells and hormones.
Deficiency: A lack of iron leads to iron-deficiency anemia, characterized by extreme fatigue, lightheadedness, and dizziness. This occurs because low iron levels reduce the oxygen-carrying capacity of the blood.
- High-risk groups: Children, pregnant or menstruating women, and individuals undergoing kidney dialysis.

Role of Calcium ( $C a$ )

Calcium is one of the most abundant minerals in the body, primarily associated with structural integrity.

Bones and Teeth: Approximately 99% of the body's calcium is stored in bones and teeth, providing them with strength and structure.
Physiological Processes: The remaining 1% is found in blood, muscle, and other tissues, where it plays vital roles in blood coagulation (clotting), muscle contraction, and regulation of normal heart rhythms and nerve functions.
Vitamin D Interaction: The body's ability to use calcium is dependent on Vitamin D. A deficiency in Vitamin D leads to decreased absorption of ionized calcium.
Deficiency: Calcium deficiency (often linked with Vitamin D deficiency) can cause serious bone conditions such as rickets (in children), osteomalacia (softening of bones in adults), and osteoporosis (brittle bones).

Role of Phosphorus ( $P$ )

Phosphorus is a versatile mineral involved in numerous biological processes.

Structural Role: It is a key component in the structure of bones, teeth, and cell membranes.
Energy Metabolism: Phosphorus is a fundamental part of ATP (Adenosine Triphosphate), the body's primary energy molecule.
Genetic Material: It forms the backbone of the building blocks of genes: DNA and RNA. Nucleic Acids→
Regulation: It helps in activating enzymes and maintaining the body's blood pH level.
Nerve and Muscle Function: It is vital for the proper functioning of nerves and muscles, including the heart.

Role of Zinc ( $Z n$ )

Zinc is the most important trace element for human health, with about $2 g$ present in the body.

Immune System: Zinc is crucial for the proper functioning of the immune system. Low zinc levels can increase the risk of infections like pneumonia.
Enzymatic Reactions: It enables the body to produce proteins and DNA.
Growth and Repair: Zinc promotes wound healing and is essential for child growth and development.
Other Functions: It plays a role in maintaining healthy skin and is important for prostate health and maintaining testosterone levels in males.

Other Significant Minerals

Magnesium ( $M g^{2 +}$ ): Essential for chlorophyll in plants and acts as a cofactor for over 300 enzymes in humans, particularly those involving ATP.
Iodine ( $I$ ): Essential for the synthesis of thyroid hormones.
Fluoride ( $F^{-}$ ): Added to water and toothpaste to prevent dental caries by strengthening tooth enamel.