1. a, b and d
2. b, c and e
3. a, c and e
4. b, d and e
b, d and e
1. Kwashiorkor
2. Scurvy
3. Anaemia
4. Rickets
Kwashiorkor
1. Oesophagus
2. Ileum
3. Duodenum
4. Pyloric stomach
Duodenum
1. Pinocytic vesicles
2. Microvilli
3. Zymoben granules
4. Phagocytic vesicles
Microvilli
1. help in regulating metabolism
2. are exclusively synthesized in the body of a living organism
3. are conjugated proteins
4. enhance oxidative metabolism
help in regulating metabolism
1. Zymogen cells
2. Peptic cell
3. Oxyntic cells
4. None of these
Oxyntic cells
1. Vit B1
2. Vit A
3. Vit D
4. Vit C
Vit C
1. The rate of enzyme reaction is directly proportional to the substrate concentration
2. Presence of an enzyme inhibitor in the reaction mixture
3. Formation of an enzyme-substrate complex
4. At higher substrate – concentration the pH increases
Presence of an enzyme inhibitor in the reaction mixture
1. Secretion – Source – Target - Action Gastrin - Stomatch lining - Oxyntic cells - Production of HCl
2. Secretion – Source – Target - Action Inhibin - Sertoli cells – Hypothalamus - Inhibition of secretion of gonadotropin
3. Secretion – Source – Target - Action Enterokinase – Duodenum - Gall bladder - Release of bile juice
4. Secretion – Source – Target - Action Arial Natriuretic factor (ANF) - Sino atrial node(SAN) M - cells of Atria- Juxta-glomerular apparatus (JGA) - Inhibition of release of renin
Secretion – Source – Target - Action
Gastrin - Stomatch lining - Oxyntic cells - Production of HCl
1. Maltose to glucose at pH greater than 7
2. Maltose to glucose at pH lesser than 7.0
3. Maltose to alcohol
4. Starch to maltose at pH higher than 7.0
Maltose to glucose at pH greater than 7