The following cell undergoing mitosis, is at:
1. | Early prophase | 2. | Late prophase |
3. | Transition to metaphase | 4. | Early metaphase |
Which of the following options gives the correct sequences of events during mitosis?
(1) Condensation → nuclear membrane disassembly → crossing over → Segregation → telophase
(2) Condensation → nuclear membrane disassembly → arrangement at equator → centromere division → Segregation → telophase
(3) Condensation → crossing over → nuclear membrane disassembly → Segregation → telophase
(4) Condensation → arrangement at equator → centromere division → Segregation → telophase
During cell growth, DNA synthesis takes place in
(1) S-phase
(2) -phase
(3) -phase
(4) M-phase
Which of the following is not a characteristic feature during mitosis in somatic cells
1. Disappearance of nucleolus
2. Chromosome movement
3. Synapsis
4. Spindle fibres
Spindle fibres attach on to
1. Kinetochore of the chromosome
2. centromere of the chromosome
3. Kinetosome of the chromosome
4. telomere of the chormosome
In meiosis crossing over is initiated at
1. leptotene
2. Zygotene
3. diplotene
4. pachytene
Arrange the following events of meiosis in correct sequences
I. Crossing Over
II. Synapsis
III. terminalisation of chaismata
IV. Disapperance of nucleolus
(1) II, I, IV, III
(2) II, I, III, IV
(3) I, II, III, IV
(4) II, III, IV, I
During which phase(s) of cell cycle, the amount of DNA in a cell remain at 4C level if the
initial amount is denoted as 2C?
1. G0 and G1
2. G1 and S
3. Only G2
4. G2 and M
The complex formed by a pair of synapsed homologous chromosomes is called
1. equatorial plate
2. Kinetochore
3. bivalent
4. axoneme
A stage in cell division is shown in the figure. Select the answer which gives correct
identification of the stage with its characteristics.
1. Telophase - Nuclear envelope reforms, Golgi complex reforms
2. Late anaphase - Chromosomes move away from equatorial plate, Golgi complex not
present
3. Cytokinesis - Cell plate formed, mitochondria distributed between two daughter cells
4. Telophase - Endoplasmic reticulum and nucleolus not reformed yet