Blood Constituents | Animal Husbandry & Veterinary Science Optional for UPSC PDF Download

Blood Constituents

  • Blood as Connective Tissue:
    • Blood is a unique connective tissue with fluid matrix and formed elements.
    • Formed elements include cells and fragments serving various functions.
  • Plasma:
    • Fluid phase of blood, straw-colored and transparent.
    • Comprises 35-50% of blood, species-dependent.
    • Approximately 90% water and 10% dissolved substances.
    • Includes inorganic ions (Na, K, Ca), plasma proteins (albumins, globulins, fibrinogen), and other organic substances.
    • Contains hormones, enzymes, pigments, vitamins, and dissolved gases.
  • Formed Elements:
    • Erythrocytes: Red blood cells.
    • Leukocytes: White blood cells, further classified into agranulocytes (lymphocytes, monocytes) and granulocytes (neutrophils, eosinophils, basophils).
    • Platelets (thrombocytes): Cell fragments in mammals; in avian species, thrombocytes are complete cells.
  • Chemical Composition of Blood Plasma:
    • Water: Dominates the composition.
    • Gases: Oxygen, carbon dioxide, nitrogen.
    • Proteins: Albumin, globulin, fibrinogen.
    • Carbohydrates: Glucose, lactate, pyruvate.
    • Lipids: Fat, lecithin, cholesterol.
    • Non-Protein Nitrogenous Substances: Amino acids, urea, uric acid, creatine, creatinine, ammonium salts.
    • Inorganic Substances: Sodium, potassium, calcium, magnesium, chloride, sulfate, phosphate, iron, manganese, cobalt, copper, zinc, iodine.
  • Note:
    • Blood plasma composition is similar in different mammals with quantitative variations.
    • Plasma plays a crucial role in transporting nutrients, gases, and waste products throughout the body.

Functions of Blood

  • Oxygen and Carbon Dioxide Transport:
    • Vital role in transporting oxygen and carbon dioxide for pulmonary and cellular respiration.
  • Buffer Systems:
    • Blood contains buffer systems (carbonates, phosphates, hemoglobin, proteins) crucial for maintaining pH balance.
  • Nutrient Transport:
    • Acts as a pathway for transporting all food substances, emphasizing its importance in nutrition.
  • Excretory Function:
    • Removes metabolic waste products, contributing to the body's cleansing process.
  • Fluid Balance Maintenance:
    • Ensures balance between blood-vascular system, tissue fluid space, intracellular fluid space, and lymphatics.
    • Important for heat regulation and transport of various materials.
  • Regulatory Function:
    • Regulates body temperature through fluid content.
    • Facilitates transport of hormones, serving a regulatory role.
  • Protective Device:
    • Blood provides protection through its cells and suspended materials (antibodies, antitoxins).
    • Essential for the immune system.

Question for Blood Constituents
Try yourself:
Which of the following is NOT a function of blood?
View Solution

Plasma Protein Components

  • Albumin:
    • About half of plasma protein, maintains osmotic pressure.
    • Regulates fluid balance and transports hormones, metabolites, and drugs.
  • Alpha-Globulins:
    • Contribute to osmotic pressure and serve as carriers for substances like copper, hemoglobin, thyroxin.
    • Contains enzymes and factors related to blood clotting.
  • Beta-Globulins:
    • Contribute to osmotic pressure.
    • Transport substances like iron, lipoproteins, and coagulation factors.
  • Gamma-Globulins:
    • Include immunoglobulins for the immune system.
    • Blood group globulins.

Erythrocytes (Red Blood Cells)

  • Anucleated, biconcave disk carrying oxygen as oxyhemoglobin and transporting carbon dioxide as carboxyhemoglobin.
  • Primary function is oxygen delivery to tissues.
  • Found as round cells in most mammals but oval in Camelidae (Camel, Llama).

Granulocytes

  • Definition:
    • White blood cells (leukocytes) with specific granules and lobed nuclei.
    • Function within blood vessels and tissues for protection.
  • Neutrophils:
    • Primary function: Phagocytosis of particles, bacteria, and microorganisms.
    • Crucial in immune response and defense against infections.
  • Eosinophils:
    • Function not fully understood.
    • Increase during allergies, parasitic infections, and antibody/antigen reactions.
    • Phagocytic but to a lesser extent than neutrophils.
  • Basophils:
    • Obscure function, possibly involved in histamine and heparin release in the bloodstream.
  • B Lymphocytes (B Cells):
    • Responsible for producing antibodies (immunoglobulins) in response to antigens.
    • Form the basis for humoral antibody immunity in the blood.
  • T Lymphocytes (T Cells):
    • Responsible for cell-mediated immunity.
    • May produce lymphokines.
  • Monocytes:
    • Phagocytic cells that transform into macrophages in tissues.
  • Platelets (Thrombocytes):
    • Essential for hemostasis (cessation of bleeding).
    • Mediate vasoconstriction due to serotonin presence.
    • Assist phagocytosis as opsonins and may interact with viral particles.

Question for Blood Constituents
Try yourself:
What is the primary function of erythrocytes (red blood cells)?
View Solution

Blood Cell Formation (Hematopoiesis)

  • Continuous Process:
    • Ongoing formation of blood cells.
    • Essential nutrients, including vitamins B12 and folic acid, are required for erythrocyte maturation.
  • Vitamins in Hematopoiesis:
    • B12 and folic acid act as coenzymes in nucleic acid synthesis.
    • Other vitamins supporting hematopoiesis include pyridoxine, riboflavin, nicotinic acid, pantothenic acid, thiamine, biotin, and ascorbic acid.
  • Nutrients and Minerals:
    • Essential for blood protein synthesis.
    • Required minerals: iron, copper, and cobalt.
  • Blood Cell Replacement:
    • About 1% of red blood cells replaced daily, assuming a 120-day lifespan.
    • Adequate oxygen supply stimulates hematopoiesis.
    • Erythropoietin, released from tissues, plays a role in stimulating blood cell maturation.

Red Bone Marrow (Myeloid Tissue)

  • Definition:
    • Hemopoietic tissue responsible for producing blood cells.
    • Commonly known as myeloid tissue.
  • Cell Production:
    • Erythrocytes (red blood cells), granulocytes, and platelets are formed in red bone marrow.
    • Agranulocytes develop in both red bone marrow and lymphatic organs.
  • Theories of Blood Cell Formation:
    • Monophyletic theory: Supports separate stem cells for agranulocytes and granulocytes/erythrocytes.
    • Polyphyletic theory: Suggests different stem cells for erythrocytes/granulocytes, lymphocytes, and monocytes.
    • Monophyletic theory widely accepted.

Hemoglobin Synthesis and Chemistry

  • Hemoglobin Definition:
    • Pigment in erythrocytes composed of a protein (globin) and a pigment (heme).
    • Heme contains iron, giving hemoglobin its red color.
  • Biosynthesis of Hemoglobin:
    • Begins in erythroblasts and continues in later cell development stages.
    • Reticulocytes, with RNA in their fragmented nucleus, can synthesize hemoglobin.
    • Amino acid glycine and acetate combine to form a four-carbon compound, uniting with additional glycine to create pyrrole.
    • Four pyrrole molecules form protoporphyrin, which combines with iron to produce heme.
    • Four heme molecules unite with globin to form the complete hemoglobin protein.

Hemoglobin

  • Molecular Weight:
    • Hemoglobin's molecular weight ranges from 66,000 to 69,000 in most species.
    • Iron content in hemoglobin is 0.334 percent.
  • Differences in Hemoglobins:
    • Fetal and adult hemoglobins vary in amino acid compositions, electrophoretic mobilities, solubilities, UV absorption spectra, and oxygen dissociation curves.

Plasma Proteins

  • Production, Classification, and Properties:
    • Identified plasma proteins include albumin, globulin (α, β, γ), and fibrinogen fractions.
    • Liver produces plasma albumin, fibrinogen, and most globulins; extrahepatic globulins are formed in lymph nodes and reticuloendothelial system.
    • Severe liver damage or prolonged protein deficiency reduces plasma protein synthesis, affecting blood coagulation time.
  • Equilibrium and Osmotic Pressure:
    • Plasma proteins, amino acids, and tissue proteins are in equilibrium.
    • Colloidal and non-diffusible proteins maintain colloid osmotic pressure, opposing hydrostatic blood pressure to prevent excess fluid passage and edema.
    • Albumins contribute significantly to colloid osmotic pressure.
  • Functions of Plasma Proteins:
    • Maintain normal blood pressure.
    • Influence erythrocyte suspension stability.
    • Regulate blood acid-base balance.
    • Provide antibodies.
    • Affect solubility of carbohydrates and other substances.
    • Transport substances bound to plasma proteins.

Blood Coagulation

  • Purpose:
    • Blood clotting is a natural process preventing excessive blood leakage from vascular wall breaks.
  • Biochemical Mechanism:
    • Involves a complex sequence of protein-protein interactions.
    • Plasma proteins circulate as inactive proenzymes, activated sequentially for clot formation.
    • Blood coagulation depends on intrinsic and extrinsic mechanisms.

Question for Blood Constituents
Try yourself:
Which vitamins are required for erythrocyte maturation?
View Solution

The document Blood Constituents | Animal Husbandry & Veterinary Science Optional for UPSC is a part of the UPSC Course Animal Husbandry & Veterinary Science Optional for UPSC.
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FAQs on Blood Constituents - Animal Husbandry & Veterinary Science Optional for UPSC

1. What are the main constituents of blood?
Ans. The main constituents of blood are plasma, red blood cells, white blood cells, and platelets.
2. What are the functions of blood?
Ans. The functions of blood include transportation of oxygen and nutrients to the body tissues, removal of waste products, regulation of body temperature, maintenance of pH balance, and protection against infections.
3. What are the plasma protein components found in blood?
Ans. The plasma protein components found in blood include albumin, globulins, and fibrinogen. Albumin helps maintain osmotic pressure and transports various substances. Globulins are involved in immune response and transport of lipids. Fibrinogen plays a crucial role in blood clotting.
4. What are granulocytes and what is their function?
Ans. Granulocytes are a type of white blood cells that contain granules in their cytoplasm. They include neutrophils, eosinophils, and basophils. Their function is to fight against infections and allergens by phagocytosis or releasing chemical mediators.
5. Where does blood cell formation occur and what is the process called?
Ans. Blood cell formation, also known as hematopoiesis, occurs in the red bone marrow or myeloid tissue. It is the process by which blood cells are produced from hematopoietic stem cells.
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