cell division creates duplicate offspring in unicellular organisms (asexual reproduction) provides...
TRANSCRIPT
CHAPTER 12THE CELL CYCLE
Cell division creates duplicate offspring in unicellular organisms (Asexual Reproduction)
Provides for growth, development, and repair in multicellular organisms (Sexual Reproduction)
The cell cycle extends from the creation of a new cell by the division of its parent cell to its own division into two cells
CELL DIVISION RESULTS IN GENETICALLY IDENTICAL DAUGHTER CELLS The process of recreating a cell
necessitates the EXACT duplication and equal division of the DNA
Each diploid eukaryote has a characteristic number of chromosomes in each somatic cell
Reproductive cells, or gametes, have half that number of chromosomes.
Diploid: Haploid:Mosquito 6Frog 26Corn 20
CHROMOSOMES Each c’some is a
very long DNA molecule with associated proteins. This DNA-protein complex is called chromatin.
DISTRIBUTION OF CHROMOSOMES DURING EUKARYOTIC CELL DIVISION Before cell division, a
cell copies its DNA and each c’some densely coils and shortens.
Duplicated c’somes consist of 2 identical sister chromatids.
A duplicated c’some has a centromere where the chromatids are most closely attached.
The sister chromatids separated during mitosis (division of the nucleus)
Then the cytoplasm divides during cytokinesis, producing 2 separate, genetically equivalent daughter cells.
PHASES OF THE CELL CYCLE Cell cycle (or life of the
cell) lasts for about 20 hours
There are 2 main stages in the cycle of the eukaryotic organism
The cell cycle consists of the mitotic (M) phase, which includes mitosis and cytokinesis, and interphase, during with the cell grows and duplicates its c’somes
INTERPHASE Usually lasting 90% of the cell cycle Includes the G1 phase, the S phase, and
the G2 phase Gap 1 (G1) phase- growth period of the
cell S (synthesis) phase- period when DNA
replication occurs Gap 2 (G2) phase- cell prepares for
division
MITOSIS Mitosis- equal division of genetic
information (chromosomes) between the two new cells (division of the nucleus)
4 phases of M: prophase, metaphase, anaphase, and telophase
PROPHASE1. Prophase- nuclear envelope disintegrates; nucleolus disappears; and, the chromatin fibers coil and fold into visible
In cells that have centrioles, such as animals’ cells, the centrioles replicate
Filaments called asters develop & radiate from the centrioles
The asters lengthen and become connected to the centromeres
The asters are now called spindle fibers
METAPHASE Chromatids become aligned at the
center of the cell or at its equator Centrioles have migrated to opposite
sides of the cell, called the poles
ANAPHASE The centromeres separate and the
daughter chromosomes begin to migrate to opposite poles
This migration occurs as a result of a shortening of the spindle fibers.
TELOPHASE Begins when all chromosomes reach the
2 poles Spindle fibers begin to disappear and
the nuclear membranes begin to reappear
Chromosomes begin to disappear as the chromatin material disperses through the new nuclei
CYTOKINESIS Cytokinesis begins during telophase In animal cells the cytoplasm begins to
pinch inward In plant cells, a partition called a cell
plate begins to form and divides the cytoplasm
MEIOSIS One special type of cell reproduction is
for organisms that produce offspring by sexual reproduction
Special reproductive cells must be produced by each parent. These are the cells that unite to form the new cell.
SEX CELLS Gamete- special type of reproductive
cell that contains only one set of chromosomes (sperm & egg)
A special reproductive process that cells use to produce gametes is called meiosis (reduction division)
FIRST CELL DIVISION: MEIOSIS I Prophase I- nuclear membrane
disappears. The homologous chromosomes (made up of 2 chromatids) pair up next to each other.
At this time, genetic material can be exchanged by a process called crossing over.
METAPHASE I Homologous chromosomes move to the
equator of the cell
ANAPHASE I Homologs of each pair go to opposite
poles (chromatids remain attached at the centromeres)
TELOPHASE I 2 daughter cells results but the
chromosome number has not been halved which results in a second division…Meiosis II