4 chromatids
In Prophase I of meiosis, a tetrad is formed between 2 homologous chromosomes and their replicates. Small pieces are exchanged between the chromosomes and the tetrad breaks up. Then things happen as usual. So really the only difference is that there's genetic recombination.
In prophase I of meiosis, two pairs of homologous chromosomes would consist of four chromosomes total. These chromosomal pairs are similar in size, shape, and genetic content. During prophase I, homologous chromosomes will undergo synapsis to form a structure called a tetrad.
Synapsis and the formation of tetrads occur during the prophase I stage of meiosis. This is when homologous chromosomes pair up to form a structure called a tetrad, which allows for genetic recombination between the chromosomes.
prophase 1
you put the lime in the coconut
Prophase 1
Spindle fibers form during the prophase stage of meiosis 1.
Maternal and paternal homologous chromosomes pair during meiosis in the phase called prophase I. This pairing is known as synapsis and is essential for the exchange of genetic material through a process called crossing over.
Bivalents or Tetrad of homologous chromosomes consisting of four synapsed chromatids that become visible during the Pachytene stage of meiotic prophase or A four-part structure that forms during the prophase of meiosis and consists of two homologous chromosomes, each composed of two sister chromatids.
Meiosis 1: Prophase 1, Metaphase1, Anaphase 1, Telophase 1. Meiosis 2: Prophase 1, Metaphase 2, Anaphase 2, Telophase 2. Makes 4 daughter cells that contain 4 chromosomes each.
Prophase 1 is the phase of meiosis ll when the homologous pairs combine. It is also when centrioles seperate, spindle fibers are formed, the nuclear envelope disappears, and the chromosomes become visible.
No, crossing over occurs during prophase 1 of meiosis, not prophase 2.