Telophase is characterised by the reappearance of nuclear membrane.
BIOXI10: CELL CYCLE AND CELL DIVISION
335888
The complete disintegration of nuclear envelops in a cell cycle marks the
1 Start of prophase of mitosis
2 Start of metaphase of mitosis
3 End of anaphase of mitosis
4 End of metaphase of mitosis
Explanation:
The complete disintegration of the nuclear envelope marks the initiation of the second phase of mitosis, i.e. metaphase. By this stage, condensation of chromosomes is completed and these can be observed clearly under the microscope.
BIOXI10: CELL CYCLE AND CELL DIVISION
335889
Given diagram represents metaphase of mitosis, chromosomes are arranged at the equator which are made up of -
1 Two sister chromatids
2 Two non-sister chromatids
3 Two homologous chromosomes
4 Two non-homologous chromosomes
Explanation:
Metaphasic chromosome is made up of two sister chromatids, which are held together by the centromere.
BIOXI10: CELL CYCLE AND CELL DIVISION
335891
A stage of mitosis is shown in diagram. Which stage is it and what are its characteristics?
1 Telophase – Spindle fibers attached to kinetochores, centromeres split and chromatids separate
2 Metaphase – Chromosomes moved to spindle equator, chromosomes made up of two sister chromatids
3 Anaphase – Centromeres split and chromosomes separate and start moving away
4 Late prophase – Chromosomes move to spindle equator
Explanation:
It is identified as Metaphase, in which Chromosomes move to spindle equator. Chromosomes made up of two sister chromatids.
Telophase is characterised by the reappearance of nuclear membrane.
BIOXI10: CELL CYCLE AND CELL DIVISION
335888
The complete disintegration of nuclear envelops in a cell cycle marks the
1 Start of prophase of mitosis
2 Start of metaphase of mitosis
3 End of anaphase of mitosis
4 End of metaphase of mitosis
Explanation:
The complete disintegration of the nuclear envelope marks the initiation of the second phase of mitosis, i.e. metaphase. By this stage, condensation of chromosomes is completed and these can be observed clearly under the microscope.
BIOXI10: CELL CYCLE AND CELL DIVISION
335889
Given diagram represents metaphase of mitosis, chromosomes are arranged at the equator which are made up of -
1 Two sister chromatids
2 Two non-sister chromatids
3 Two homologous chromosomes
4 Two non-homologous chromosomes
Explanation:
Metaphasic chromosome is made up of two sister chromatids, which are held together by the centromere.
BIOXI10: CELL CYCLE AND CELL DIVISION
335891
A stage of mitosis is shown in diagram. Which stage is it and what are its characteristics?
1 Telophase – Spindle fibers attached to kinetochores, centromeres split and chromatids separate
2 Metaphase – Chromosomes moved to spindle equator, chromosomes made up of two sister chromatids
3 Anaphase – Centromeres split and chromosomes separate and start moving away
4 Late prophase – Chromosomes move to spindle equator
Explanation:
It is identified as Metaphase, in which Chromosomes move to spindle equator. Chromosomes made up of two sister chromatids.
Telophase is characterised by the reappearance of nuclear membrane.
BIOXI10: CELL CYCLE AND CELL DIVISION
335888
The complete disintegration of nuclear envelops in a cell cycle marks the
1 Start of prophase of mitosis
2 Start of metaphase of mitosis
3 End of anaphase of mitosis
4 End of metaphase of mitosis
Explanation:
The complete disintegration of the nuclear envelope marks the initiation of the second phase of mitosis, i.e. metaphase. By this stage, condensation of chromosomes is completed and these can be observed clearly under the microscope.
BIOXI10: CELL CYCLE AND CELL DIVISION
335889
Given diagram represents metaphase of mitosis, chromosomes are arranged at the equator which are made up of -
1 Two sister chromatids
2 Two non-sister chromatids
3 Two homologous chromosomes
4 Two non-homologous chromosomes
Explanation:
Metaphasic chromosome is made up of two sister chromatids, which are held together by the centromere.
BIOXI10: CELL CYCLE AND CELL DIVISION
335891
A stage of mitosis is shown in diagram. Which stage is it and what are its characteristics?
1 Telophase – Spindle fibers attached to kinetochores, centromeres split and chromatids separate
2 Metaphase – Chromosomes moved to spindle equator, chromosomes made up of two sister chromatids
3 Anaphase – Centromeres split and chromosomes separate and start moving away
4 Late prophase – Chromosomes move to spindle equator
Explanation:
It is identified as Metaphase, in which Chromosomes move to spindle equator. Chromosomes made up of two sister chromatids.
Telophase is characterised by the reappearance of nuclear membrane.
BIOXI10: CELL CYCLE AND CELL DIVISION
335888
The complete disintegration of nuclear envelops in a cell cycle marks the
1 Start of prophase of mitosis
2 Start of metaphase of mitosis
3 End of anaphase of mitosis
4 End of metaphase of mitosis
Explanation:
The complete disintegration of the nuclear envelope marks the initiation of the second phase of mitosis, i.e. metaphase. By this stage, condensation of chromosomes is completed and these can be observed clearly under the microscope.
BIOXI10: CELL CYCLE AND CELL DIVISION
335889
Given diagram represents metaphase of mitosis, chromosomes are arranged at the equator which are made up of -
1 Two sister chromatids
2 Two non-sister chromatids
3 Two homologous chromosomes
4 Two non-homologous chromosomes
Explanation:
Metaphasic chromosome is made up of two sister chromatids, which are held together by the centromere.
BIOXI10: CELL CYCLE AND CELL DIVISION
335891
A stage of mitosis is shown in diagram. Which stage is it and what are its characteristics?
1 Telophase – Spindle fibers attached to kinetochores, centromeres split and chromatids separate
2 Metaphase – Chromosomes moved to spindle equator, chromosomes made up of two sister chromatids
3 Anaphase – Centromeres split and chromosomes separate and start moving away
4 Late prophase – Chromosomes move to spindle equator
Explanation:
It is identified as Metaphase, in which Chromosomes move to spindle equator. Chromosomes made up of two sister chromatids.
