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Completion of meiosis I

Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.

Daughter cells <p>Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.</p>

Daughter cells

Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.

Chromosomes <p>Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.</p>

Chromosomes

Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.

Sister chromatids <p>Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.</p>

Sister chromatids

Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.

Nuclear envelope <p>Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.</p>

Nuclear envelope

Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.

Centrosomes <p>Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.</p>

Centrosomes

Cytokinesis in meiosis I results in the formation of two daughter cells, each with a single set of chromosomes (haploid, 1N). The nuclear envelope has reformed and chromosomal DNA may decondense somewhat, but quickly recondenses. Cells rapidly progress into prophase of meiosis II without passing through a second S phase.

Main Slide Daughter cells Chromosomes Sister chromatids Nuclear envelope Centrosomes