Plant Mitosis Cell Cycle Interphase Mitosis Cytokinesis IMPORTANCE

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Plant Mitosis

Plant Mitosis

Cell Cycle • Interphase • Mitosis • Cytokinesis

Cell Cycle • Interphase • Mitosis • Cytokinesis

IMPORTANCE • 1. Growth • 2 Tissue Repair • Means of asexual reproduction for

IMPORTANCE • 1. Growth • 2 Tissue Repair • Means of asexual reproduction for single celled eukaryotes. • 3 Keeps chromosome number constant.

Eukaryotic Cell Cycle • 1. Most of cell cycle consists of the interphase •

Eukaryotic Cell Cycle • 1. Most of cell cycle consists of the interphase • 2. Mitosis describes nuclear division

INTERPHASE • 1. Cell prepares for mitosis • 2. Chromosomes duplicate. • (Chromosomes consist

INTERPHASE • 1. Cell prepares for mitosis • 2. Chromosomes duplicate. • (Chromosomes consist of two DNA molecules.

Eukaryotic Cell Cycle • Most of cell cycle consists of the interphase. • Mitosis

Eukaryotic Cell Cycle • Most of cell cycle consists of the interphase. • Mitosis describes nuclear division.

STAGES OF MITOSIS • 1. Prophase • 3. Anaphase • 2. Metaphase • 4.

STAGES OF MITOSIS • 1. Prophase • 3. Anaphase • 2. Metaphase • 4. Telophase

PROPHASE • 1. Granular chromatin condenses into chromosomes. • 2. Nuclear membrane disappears. •

PROPHASE • 1. Granular chromatin condenses into chromosomes. • 2. Nuclear membrane disappears. • 3. Nucleolus disappears. • 4. Chromosomes continue to condense. • 5. Spindle appears. • 6. Centrioles move toward poles

METAPHASE Chromosomes become aligned at the equator of the spindle.

METAPHASE Chromosomes become aligned at the equator of the spindle.

ANAPHASE • 1. Chromatids separate. • 2. Two identical groups formed. • 3. Separated

ANAPHASE • 1. Chromatids separate. • 2. Two identical groups formed. • 3. Separated chromatids move to opposite poles of the cell.

TELOPHASE • 1. Chromosomes lose their identity and become granular. • 2. Nuclear membrane

TELOPHASE • 1. Chromosomes lose their identity and become granular. • 2. Nuclear membrane reappears. • 3. In plant cells the cell plate appears.

Daughter Cell • The cytoplasm becomes divided (a process called cytokinesis) and wall formation

Daughter Cell • The cytoplasm becomes divided (a process called cytokinesis) and wall formation produces two daughter cells.

CRITICAL THINKING • Human red blood cells develop in the bone marrow from stem

CRITICAL THINKING • Human red blood cells develop in the bone marrow from stem cells, and lose their nucleus before maturing and being released into the bloodstream. While this gives a cell that can be densely packed with hemoglobin molecules, what are the consequences as for as the longevity & its ability to replicate?

CRITICAL THINKING • Lacking DNA coding, the red blood cells will not themselves •

CRITICAL THINKING • Lacking DNA coding, the red blood cells will not themselves • be able to replicate • and we must rely on the stem cells in the bone marrow to continue red blood cell production. In addition, the red blood cells will be limited in life span and unable to make substantial DNAcoded repairs.