Chitin, a complex polysachharide is found in:
1. Plant cell wall
2. The exoskeleton of arthropods and cell walls of most fungi
3. Bacterial cell wall
4. Cartilage and other connective tisuue

Given below is the structure of a monosaccharide. The homopolymer of this monosaccharide is used in:

1. Storage of carbohydrates in plants
2. Storage of carbohydrates in animals
3. Making the medium for microbial culture
4. Formation of the structure of the plant cell wall

Given below is the structure of a lipid. The excess of this compound in human blood can lead to:

1. Alzheimer’s disease
2. Phenylketonuria
3. Atherosclerosis
4. Rheumatoid arthritis

Shown below is a level of structural organization of a protein. Which of the following proteins attains its final form as this structure

1. Keratin

2. Fibroin

3. Tropo-collagen

4. Myoglobin

The following diagram depicts the structure of a:

1. Nucleoside

2. Nucleotide

3. Nitrogen containing Monosaccharide

4. Glycoprotein

The chitinous exoskeleton of arthropods is formed by the polymerisation of–
1. D- glucosamine
2. N- acetyl glucosamine
3. Lipoglycans
4. Keratin sulphate and chondroitin sulphate

Look at the graph given below. The reaction rate, of the reaction, can be increased beyond point C by:

1. increasing the amount of substrate
2. adding more water
3. increasing the temperature
4. decreasing enzyme concentration

What level of protein organization structure explains the 3-D shape of an enzyme?

Given below is a schematic metabolic pathway. In an experiment, the concentration of enzyme 1 was increased but the concentration of enzymes 2 and 3 were kept constant. What would happen to the rate of production of D?

1. it would go down
2. it would go up
3. it would stay the same
4. it would stop

The graph shown below shows the effect of a certain factor on the rate of a reaction catalyzed by an enzyme. The X-axis would show the said factor and that will be: