Cell division processes
Includes mitosis and meiosis, producing new cells.
Mitosis stages
Prophase, metaphase, anaphase, telophase.
Meiosis stages
Prophase I & II, metaphase I & II, anaphase I & II, telophase I & II.
Interphase activities
DNA replication, cell growth, protein synthesis.
Chromosome behavior
Condensation, alignment, separation during cell division.
Cytokinesis differences
Animal: cleavage furrow; Plant: cell plate formation.
Crossing-over significance
Increases genetic variation in gametes.
Haploid vs diploid
Haploid: n, single set; Diploid: 2n, pairs of chromosomes.
Slide examination techniques
Staining and microscopy to observe mitosis stages.
Model simulation of meiosis
Uses beads and magnets to demonstrate chromosome pairing and separation.
Karyokinesis — definition?
Nuclear division during cell division.
Mitosis — purpose?
To produce identical diploid daughter cells.
Meiosis — purpose?
To produce haploid gametes for reproduction.
Interphase — key activity?
DNA replication during S phase.
Chromosomes — structure?
DNA and proteins, with sister chromatids joined at centromere.
Crossing-over — occurs?
During prophase I of meiosis.
Haploid cells — example?
Sperm and egg cells.
Diploid cells — example?
Somatic (body) cells.
Slide examination — key feature?
Chromosomes stained as visible bodies in dividing cells.
Meiosis model — purpose?
To demonstrate homolog pairing, crossing-over, and reduction division.
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1. What is the correct sequence of the stages of mitosis?
2. Who is credited with describing the fundamental differences in cytokinesis between plant and animal cells?
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