Growth hormone brings about all of the following EXCEPT
a. growth of cartilage.
b. growth of bone.
c. increased muscle mass.
d. adjusts the rate of glucose uptake by cells.
e. growth of breast tissue.
E
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The route followed by a sperm from production to fertilization in a flowering plant is:
A. A sperm cell, enclosed in a pollen grain with another sperm, is produced in the pistil that explosively ejects it into the air where it is transported to a stigma from which it passes through a pollen tube that grows down the style to the ovary, enters the ovule and joins with the egg cell. B. A sperm cell, enclosed in a pollen grain with another sperm, is produced in the anther, transported to a stigma where it passes through a pollen tube that grows down the style to the ovary, enters the ovule and joins with the egg cell. C. A sperm cell, enclosed in a pollen grain with another sperm, is produced in the filament, transported to a stigma where it passes through a pollen tube that grows down the style to the ovary, enters the ovule and joins with the egg cell. D. A sperm cell, enclosed in a pollen grain with another sperm, is produced in the anther, transported to the peduncle where it passes through a pollen tube that grows down the style to the ovary, enters the ovule and joins with the egg cell. E. A sperm cell is produced in the anther, transported to a stigma where it becomes enclosed, along with another sperm cell into a pollen grain that grows down the style to the ovary, enters the ovule and joins with the egg cell.
What is recombinant DNA?
A. DNA that is circular B. DNA that can no longer replicate C. DNA that comes from plasmids D. A segment of DNA containing sequences from two different sources
Eukaryotic cells spend most of their cell cycle in which phase?
A) interphase B) prophase C) metaphase D) telophase
Narrow-sense heritability is defined as:
a. the total genetic variation divided by the total phenotypic variation. b. the total additive genetic variation divided by the total phenotypic variation. c. the total dominance genetic variation divided by the total phenotypic varia-tion. d. the total additive genetic variation divided by the total dominance variation. e. the total epistatic genetic variation divided by the total dominance variation.