Which of the following mechanisms ensures that daughter cells end up with exactly one copy of each chromosome after cell division?
Group of answer choices
a Crossing over
b Random separation of homologous chromosomes
c Tension build up on sister chromatids
d Breakdown of the nuclear envelope
answer : b
During meiosis, the pairs of homologous chromosome are divided in half to form haploid cells, and this separation, or assortment, of homologous chromosomes is random. This means that all of the maternal chromosomes will not be separated into one cell, while the all paternal chromosomes are separated into another.
The Principle of Independent Assortment describes how different genes independently separate from one another when reproductive cells develop. Independent assortment of genes and their corresponding traits was first observed by Gregor Mendel in 1865 during his studies of genetics in pea plants. Mendel was performing dihybrid crosses, which are crosses between organisms that differ with regard to two traits. He discovered that the combinations of traits in the offspring of his crosses did not always match the combinations of traits in the parental organisms. From his data, he formulated the Principle of Independent Assortment.
We now know that this independent assortment of genes occurs during meiosis in eukaryotes. Meiosis is a type of cell division that reduces the number of chromosomes in a parent cell by half to produce four reproductive cells called gametes. In humans, diploid cells contain 46 chromosomes, with 23 chromosomes inherited from the mother and a second similar set of 23 chromosomes inherited from the father. Pairs of similar chromosomes are called homologous chromosomes. During meiosis, the pairs of homologous chromosome are divided in half to form haploid cells, and this separation, or assortment, of homologous chromosomes is random. This means that all of the maternal chromosomes will not be separated into one cell, while the all paternal chromosomes are separated into another. Instead, after meiosis occurs, each haploid cell contains a mixture of genes from the organism's mother and father.
Another feature of of independent assortment is recombination. Recombination occurs during meiosis and is a process that breaks and recombines pieces of DNA to produce new combinations of genes. Recombination scrambles pieces of maternal and paternal genes, which ensures that genes assort independently from one another. It is important to note that there is an exception to the law of independent assortment for genes that are located very close to one another on the same chromosome because of genetic linkage.
Which of the following mechanisms ensures that daughter cells end up with exactly one copy of...
The choices are mitosis, meiosis, both or neither. - two identical daughter cells are formed - sister chromatids are separated - homologous chromosomes are separated - nuclear envelope dissolves during prophase - cytokinesis occurs simultaneously with teleophase - DNA replication occurs during early prophase - Final product is 4 different daughter cells - final product is 4 diploid daughter cells - Final product is 2 diploid daughter cells - Final product is two haploid daughter...
Compare mitosis and meiosis by filling in the chart below. Meiosis Mitosis Characteristic Are daughter cells genetically identical or different from the parent? Involves how many cell divisions? Produces how many daughter cells? Produces haploid or diploid cells? Produces what type of cell? Sister chromatids or homologous chromosomes separate? What are the functions of the cells produced? 05 Answer the following Explain how segregation of chromosomes during meiosis can generate four types of gametes (assume four chromosomes, two homologous pairs)...
Match the following terms to the correct definition
Match the following terms to the correct definition. 1. term used to describe the double stranded chromosomes present after DNA replication alleles A. cell division that results in the formation of B 4 cells each containing haploid number of chromosomes crossing over division of the cytoplasm type of cell division that results in the formation of 2 daughter cells genetically identical to parent cell pairing of homologous sister chromatids during prophase I...
2. Which of the following occurs during mitosis but not during meiosis I? a. The chromosomes are pulled to opposite poles of the spindle apparatus. b. The chromatids of each chromosome are separated. c. The nuclear envelope breaks down. d. Both synapsis and crossing over take place. e. The diploid number of chromosomes is reduced to the haploid number.3. Table 1 shows the stage and number of cells and chromosomes per cell at the end of the stage in a 2n - 24 organism. u...
Multiple answer: select all that apply. Which of the following charecteristics of cell division are specific to MEIOSIS? [mark all correct answers] a. Chromosomes condense and are visible. b. Sister chromatids line up at the metaphase plate C. Homologous pairs (or tetrads) line up at the metaphase plate. d. Homologous chromosomes form tetrads and where the two homologs touch, synapsis occurs. e. Sister chromatids are pulled to opposite ends of the cell. f. Homolgous pairs of chromosomes are pulled to...
The amount of DNA in a G2 somatic cells is? (assuming the haploid cell of this organism is 3n)? a. 3n b. 12n C. 6n d. 1n e. On QUESTION 2 Which of the following statements about mammalian mitosis is NOT true? a. homologous chromosomes pair up at prophase b. daughter nuclei are genetically identical to the parent nucleus c. nuclear envelope breakdown coincides with onset of prometaphase d. onset of anaphase is inhibited until all chromosomes are aligned at...
Fill in the blank: 11. A cell with a diploid number of 20, undergoes meiosis. This will produce daughter cells, each with __ _ chromosomes. 12. Crossing over occurs during this phase: 13. Tetrads line up along the equator during this phase: 14. At the end of meiosis I, daughter cells are created. These daughter cells are ( diploid | haploid ). 15. Meiosis creates what type of cell: Fill in the Blank with the proper phase of Meiosis (Interphase...
Ford File Edit View Insert Format Tools Table Window Help . AutoSaver S E B 13 Cell Division Meiosis Online Lab mme Insert Draw Design Layout References Mailings Review > Share Times New... 11 AA AA EEE PasteB TV ab X X AD av 21 Com - A. Styles Styles 2. Organize the following statements in the proper order of Interphase and Meiosis. Identify the first step with the number (1) and continue numbering in the correct sequence. a b....
Format Ford . me File Edit View Insert AutoSave @ S Insert Draw Design X Times New. 11 B IV X Layout A A Tools Table Window Help E G . 13 Cell Division Meiosis Online Laba References Mailings Review > Share Com A A A 3 Ą D a 211 Paste X A Styles Styles 2. Organize the following statements in the proper order of Interphase and Meiosis. Identify the first step with the number (1) and continue numbering...
Q2.10. Complete the diagram below by dragging each label to its correct location. When you have placed all labels, click Check Answer to get feedback. Any labels that are incorrectly placed will move me diagram Q2.11. The image to the right shows 2 pairs of homologous chromosomes in a cell. Which of the following daughter cells could NOT be produced by normal meiosis? Q2.12. When are sister chromatids (in/from the same chromosome) equivalent to each other? Q2.13. If a person is homozygous for the...