Answer:
During mitosis, a cell duplicates all of its contents, including its chromosomes, and splits to form two identical daughter cells. ... The other type of cell division, meiosis, ensures that humans have the same number of chromosomes in each generation.
Explanation:
Answer:
All living things share a common code-DNA
Explanation:
Enzymes are proteinous substances, which like every other proteins are encoded by a genes. In the expression of these genes, a set of codons (three nucleotide base) called GENETIC CODE is used. ONE of the characteristics of this genetic code is that it is NEARLY UNIVERSAL meaning that the same genetic code is used by virtually all known living organism.
According to this question, lactase enzyme, which helps digest lactose sugar in organisms, is the same in different organisms. This is due to the fact that all living things share a common code-DNA e.g AUG codes for methionine in all organisms, hence, when these DNA undergoes expression, it yields the same products in different organisms.
It is the biosphere, which is all the ecosystems of the earth
In biosphere, it is the total organismic life and their entire species on which how they interact with the co-organisms. While biodiversity, is the different and varied living organisms and creatures across the ecosystem or the biosphere, on which is the composed the biotic environment. This may include now the hierarchy and organization among the species of the autotrophs and heterotrophs.<span> </span>
Answer:
Interkinesis
Explanation:
Meiosis i is the first cell division, where the parent cell divides into two cells. Each of these cells undergoes a second division in meiosis ii, to form a total of four daughter cells.
Between meiosis i and ii there is a rest period. This is called interkinesis. No DNA replication occurs in this stage (unlike in interphase). What does happen is that the nuclear envelopes temporarily reform between telophase I of meiosis I and prophase II of meiosis II Not all organisms have the interkinesis stage, some proceed directly to meiosis II after meiosis I
