1. Right atrio-ventricular value
2. Left atrio-ventricular value
3. Eustachian value
4. Spiral value
Left atrio-ventricular value
1. Hypothyroidism
2. Acromegaly
3. Gigantism
4. Grave's disease
Grave's disease
1. Number of genes of a specific trait that exist within a population.
2. The probability that two randomly selected individuals in the habitat belong to the same species
3. Relative abundance of each species.
4. The relaxation between randomly selected individulas of the same species in a habitat
Relative abundance of each species.
1. RNA polymerase allows the transcription of structural genes to synthesize a polycistronic m-RNA
2. Many genes have stretches of nitrogen bases that code for amino acids and are called 'exons'
3. Heterogenous nuclear RNA (hn RNA) is synthesized from split genes
4. The bases that do not code for amino acids are called 'introns'
RNA polymerase allows the transcription of structural genes to synthesize a polycistronic m-RNA
1. Adenohypophysis: It produces ACTH
2. Adrenal cortex : It produces aldosterone
3. Adrenal medulla: It produces epinephrine
4. Pars nervosa : It produces ADH
Adrenal cortex : It produces aldosterone
1. Microglial cells
2. Histiocytes
3. Lymphocytes
4. Kupffer cells
Kupffer cells
1. IAIO (father) and IBIO (mother)
2. IAIB (father) and IBIB (mother)
3. IAIO (father) and IBIO (mother)
4. IBIO (father) and IAIO (mother)
I<sup>A</sup>I<sup>O</sup> (father) and I<sup>B</sup>I<sup>O</sup> (mother)
1. All RBC of females
2. All RBC of males
3. Some neutrophils of females
4. Some neutrophils of males
Some neutrophils of females
1. Only (S) is true but not (R)
2. Both (S) and (R) are true but (R) is not the correct explanation to (S)
3. Both (S) and (R) are true but (R) is the correct explanation to (S)
4. Both (S) and (R) are not true
Both (S) and (R) are true but (R) is the correct explanation to (S)
1. 0.80
2. 0.64
3. 0.48
4. 0.32
0.48