No because the chromosomes are already duplicated
No. DNA replication does not occur during interkinesis. Interkinesis is a breif rest period between meiosis I and meiosis II. In some species, daughter cells do not form, and meiosis II follows right after meiosis I.
No. Because at this point, the first division of meiosis is complete. The cell now rests for a bit before beginning the second meiotic division. During this period, called interkinesis, the nuclear membrane in each of the two cells reforms around the chromosomes. In some cells, the spindle also disintegrates and the chromosomes relax (although most often, the spindle remains intact).
During interphase, the cell grows and copies its chromosomes in preparation for cell division. There are three parts of interphase: The G1 phase involves the growth of the cell. The S phase is where chromosomes are copied. In G2 phase, two centrosomes have formed. The cell finishes up its preparatory actions and continues to grow.
The period between cell divisions is known as the cell cycle. It consists of interphase, where the cell grows and carries out its normal functions, followed by mitosis or meiosis, where the cell divides into two daughter cells. The length of the cell cycle can vary among different cell types and organisms.
The major parts of the cell cycle are interphase and mitotic phase. Interphase consists of G1 phase, S phase (DNA synthesis), and G2 phase. Mitotic phase includes mitosis (nuclear division) and cytokinesis (cell division).
there are 24 in a cellular division interphase, so in a normal satisfactory interphase, the conclusion comes out to be 48.
The three main parts of interphase are G1 phase, S phase, and G2 phase. During G1 phase, the cell grows and performs its normal functions. In S phase, the cell replicates its DNA. Finally, in G2 phase, the cell prepares for cell division.
During interphase, the cell grows and copies its chromosomes in preparation for cell division. There are three parts of interphase: The G1 phase involves the growth of the cell. The S phase is where chromosomes are copied. In G2 phase, two centrosomes have formed. The cell finishes up its preparatory actions and continues to grow.
This is called interphase. It includes three parts: G 1: post-mitotic phase S : DNA replication phase G 2: pre-mitotic phase .the answer is INTERPHASEInterphase !interphase baby
Interphase occurs before mitosis begins. It is separated into the Gap1, synthesis and Gap 2 phases. The G phases involve just cell growth. In the S phase, DNA replicates and therefore chromosomes replicate in preparation for mitotic division.
In the G1 and G2 parts of interphase, the cell is not dividing.
The period between cell divisions is known as the cell cycle. It consists of interphase, where the cell grows and carries out its normal functions, followed by mitosis or meiosis, where the cell divides into two daughter cells. The length of the cell cycle can vary among different cell types and organisms.
Interphase and Mitosis. During Interphase the cell grows,replicates DNA and prepares to divide. During Mitosis the cell splits into two identical daughter cells. Each equip with the exact same chromosomes.I've got the same home work packet, http://wiki.answers.com/Q/What_are_the_2_main_parts_of_the_cell_cycle_and_what_is_happening_to_the_cell_in_each_stage
The major parts of the cell cycle are interphase and mitotic phase. Interphase consists of G1 phase, S phase (DNA synthesis), and G2 phase. Mitotic phase includes mitosis (nuclear division) and cytokinesis (cell division).
there are 24 in a cellular division interphase, so in a normal satisfactory interphase, the conclusion comes out to be 48.
Interphase is the longest of the cell cycle. Interphase, the busiest phase of the cell cycle, is divided into three parts.
The three main parts of interphase are G1 phase, S phase, and G2 phase. During G1 phase, the cell grows and performs its normal functions. In S phase, the cell replicates its DNA. Finally, in G2 phase, the cell prepares for cell division.
Chromosomal mutationAneuploidyAneuploidy occurs when a cell has the wrong number of chromosomes either due to an extra or missing chromosome. This type of problem can occur during the anaphase part of M phase. Through a process called nondisjunction the chromosome pairs may not separate properly causing one of the daughter cells to receive both copies of a chromosome and the other daughter cell receives no copies of that chromosome. Therefore, one daughter cell will have an extra chromosome and the other daughter cell will have a missing chromosome. Also, this problem can occur if there is a lag during anaphase. When the pairs of chromosomes separate to each side of the cell, a chromosome may travel too slow which would cause it to not be incorporated into the new cell. This new cell would be missing a chromosome. DeletionChromosome Deletions occur when the cell is missing a portion of a chromosome. This type of problem can occur during S phase if there is a problem during DNA replication or other parts of interphase if the DNA is damaged. DuplicationChromosome Duplications occur when a cell has a repeated portion of a chromosome which causes the cell to have extra information. This type of problem can occur during S phase if there is a problem during DNA replication. InversionChromosome Inversions occur when a piece of a chromosome breaks and that piece is reattached in the opposite orientation. This type of problem can occur during interphase if the DNA is exposed to damage that causes DNA breakage. InsertionChromosome Insertions occur when a piece of a chromosome that had broken reattaches in a location where this genetic material is not typically found. This type of problem can occur during interphase if the DNA is broken and then repaired by attaching to a different location. TranslocationThere are two types of translocations: reciprocal and robertsonian. A reciprocal translocation occurs when two nonhomologous chromosomes break and then switch genetic material. A robertsonian translocation occurs when two chromosomes break on the p arm near the centromere and then the two q arms attach together while the p arms are lost. Either of these types of translocation can occur at any point during the cell cycle.
Schedule enables you to list weekdays or hours when the site link is available for replication to happen in the give interval. Interval is the re occurrence of the inter site replication in given minutes. It ranges from 15 - 10,080 mins. The default interval is 180 mins.