The answer is pink will be the color
Answer: C by breaking down rock in to small pieces
Explanation:
They use anaerobic cellular respiration to produce NAD+ from NADH.
Answer:
c. Either anaphase I or II of meiosis
Explanation:
During anaphase I homologous chromosomes separate, and they end up at opposite poles of the cell each having 2 chromatids, thus producing two daughter cells each with half the original chromosome number.
The two daughter cells resulting from meiosis I enter meiosis II, and during anaphase II the chromatids separate to opposite poles of the cells, producing a total of four daughter cells with half the original chromosome number and only one chromatid per chromosome.
- If something goes wrong during <u>anaphase I</u> one pair of the homologous chromosomes will migrate together to one pole of the cell, and after going through meiosis II there will be 4 daughter cells, two of them having an extra chromosome and two of them lacking one.
- If something goes wrong during <u>anaphase II</u>, the homologous chromosomes have separated but the chromatids of one of the chromosomes will migrate together, producing a total of 4 daughter cells: 2 normal, one with an extra chromosome and one lacking a chromosome.
Answer:
Option D is the correct option. All of the cells in the embryo would be capable of attaching to one another regardless of the cell type.
Explanation:
Cadherins are molecules that allow cell adhesions. Various number of cells bind together using this molecule for proper functioning.
If all the cells in a frog embryo expressed the same kind of cadherin molecule then all the cells in the embryo would adhere together. Neither will the embryo be able to develop properly nor will it have a proper structure. Most probably, it would lead to the death of the embryo.
