1. Rennin
2. Gastrin
3. Secretin
4. Somatomedin
Gastrin
1. a, b and c are correct but d is wrong
2. a and c are correct but b and d are wrong
3. a and b are correct but c and d are wrong
4. a is correct while b, c and d are wrong
5. a, c and d are correct but b is wrong
a and c are correct but b and d are wrong
1. Gall bladder
2. Liver
3. Pancreas
4. Intestinal tracts
5. Salivary glands
Intestinal tracts
1. Liver
2. Pancreas
3. Lung
4. Kidney
Liver
1. Conversion of casein into paracasein
2. Conversion of pepsinogen into pepsins
3. Conversion of trypsinogen into trypsin
4. Stimulation of the gastic glands to secrete gastic juice
5. Conversion of trypsin into trypsinogen
Conversion of trypsinogen into trypsin
1. Stomach : FatsMicelles
2. Duodenum : TriglyceridesMonoglycerides
3. Small intestine : Starch Disaccharide
4. Small intestine : Proteins Amino acids
Small intestine : Starch Disaccharide
1. Gastric juice will be deficient in chymosin
2. Gastric juice will be deficient in pepsinogin
3. In the absence of HCl secretion, inactive pepsinogen is not converted into the active enzyme pepsin
4. Enterokinase will not be released from the duodenal mucosa and so trypsinogen is not converted to trypsin
In the absence of HCl secretion, inactive pepsinogen is not converted into the active enzyme pepsin
1. Jaundice
2. Diarrhea
3. Vomiting
4. Indigestion
Indigestion
1. transfer RNA
2. messenger RNA
3. DNA sequence
4. ribosome
DNA sequence
1. Erythromycin
2. Neomycin
3. Streptomycin
4. Tetracyclin
Tetracyclin