Q 3.1 (Explain) Q 4.1 (Completing the Table) 3. 1 pt In questions 1 and 2, the g
ID: 205269 • Letter: Q
Question
Q 3.1 (Explain) Q 4.1 (Completing the Table) 3. 1 pt In questions 1 and 2, the genome contains only two pair of homologous chromosomes. How many different types of gametes are possible at the end of meiosis? Explain 4. 2 pts Complete the table below Cell Cycle Stage Number of chromosomes in a human cell Number of chromatids in Number of cells ahuman cell present in each phase Interphase Gi G2 Meiosis Prophase I Metaphase I AnaphaseI Telophase I Cytokinesis I End of Meiosis I (separate cells) Prophase II Metaphase Anaphase I Telophase II Cytokinesis II End of Meiosis II (separate cells)Explanation / Answer
Answer:
3.1). 4 types of gametes
Ex: AaBb = produces 4 types of gametes, AB, Ab, aB & ab
4.1)
Cell cycle stage
Number of chromosomes in a human cell
Number of chromatids in a human cell
Number of cells present in each phase
Interphase
G1
46
92
1
S
46
92
1
G2
46
92
1
Meiosis
Prpophase I
46
92
1
Metaphase I
46
92
1
Anaphase I
46
92
1
Telophase I
46
92
1
Cytokinesis I
23
46
1
End of meiosis I (separate cells)
23
46
2
Prophase II
23
46
2
Metaphase II
23
46
2
Anaphase II
23
23
2
Telophase II
23
23
2
Cytokinesis II
46
46
2
End of meiosis II (separate cells)
23
46
4
Cell cycle stage
Number of chromosomes in a human cell
Number of chromatids in a human cell
Number of cells present in each phase
Interphase
G1
46
92
1
S
46
92
1
G2
46
92
1
Meiosis
Prpophase I
46
92
1
Metaphase I
46
92
1
Anaphase I
46
92
1
Telophase I
46
92
1
Cytokinesis I
23
46
1
End of meiosis I (separate cells)
23
46
2
Prophase II
23
46
2
Metaphase II
23
46
2
Anaphase II
23
23
2
Telophase II
23
23
2
Cytokinesis II
46
46
2
End of meiosis II (separate cells)
23
46
4
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