Question

3. Define Meiosis .Give the different sub stages of prophase i​

Answer 1

Answer:

Meiosis is a special type of cell division of germ cells in sexually-reproducing organisms used to produce the gametes, such as sperm or egg cells. It involves two rounds of division that ultimately result in four cells with only one copy of each paternal and maternal chromosome.

Prophase 1 of Meiosis is the first stage of meiosis and is defined by five different phases; Leptotene, Zygotene, Pachytene, Diplotene and Diakinetic (in that order)

Explanation:

Answer 2

Meiosis is the type of cell division that results in four daughter cells each with half the number of chromosomes of the parent cell.

Meiosis is the type of cell division that results in four daughter cells each with half the number of chromosomes of the parent cell.Mitotic cell division is equational in nature while meiosis is a reduction division. Meiosis 1 separates the pair of homologous chromosomes and reduces the diploid cell to haploid. It is divided into several stages that include, prophase, metaphase, anaphase and telophase.

The different stages of meiosis 1 can be explained by the following phases :

The different stages of meiosis 1 can be explained by the following phases :Prophase 1

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1Telophase

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1TelophaseProphase 1

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1TelophaseProphase 1(1) Leptotene – The chromosomes begin to condense and attain a compact structure during leptotene.

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1TelophaseProphase 1(1) Leptotene – The chromosomes begin to condense and attain a compact structure during leptotene.(2) Zygotene – In zygotene, the pairing of homologous chromosomes starts a process known as chromosomal synapsis, accompanied by the formation of a complex structure called synaptonemal complex. A pair of synapsed homologous chromosome forms a complex known as bivalent or tetrad.

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1TelophaseProphase 1(1) Leptotene – The chromosomes begin to condense and attain a compact structure during leptotene.(2) Zygotene – In zygotene, the pairing of homologous chromosomes starts a process known as chromosomal synapsis, accompanied by the formation of a complex structure called synaptonemal complex. A pair of synapsed homologous chromosome forms a complex known as bivalent or tetrad.(3) Pachytene – At pachytene stage, crossing over of non-sister chromatids of homologous chromosomes occurs at the recombination nodules. The chromosomes remain linked at the sites of crossing over.

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1TelophaseProphase 1(1) Leptotene – The chromosomes begin to condense and attain a compact structure during leptotene.(2) Zygotene – In zygotene, the pairing of homologous chromosomes starts a process known as chromosomal synapsis, accompanied by the formation of a complex structure called synaptonemal complex. A pair of synapsed homologous chromosome forms a complex known as bivalent or tetrad.(3) Pachytene – At pachytene stage, crossing over of non-sister chromatids of homologous chromosomes occurs at the recombination nodules. The chromosomes remain linked at the sites of crossing over.(4) Diplotene – Diplotene marks the dissolution of the synaptonemal complex and separation of the homologous chromosomes of the bivalents except at the sites of cross-over. The X-shaped structures formed during separation are known as chiasmata.

The different stages of meiosis 1 can be explained by the following phases :Prophase 1Metaphase 1Anaphase 1TelophaseProphase 1(1) Leptotene – The chromosomes begin to condense and attain a compact structure during leptotene.(2) Zygotene – In zygotene, the pairing of homologous chromosomes starts a process known as chromosomal synapsis, accompanied by the formation of a complex structure called synaptonemal complex. A pair of synapsed homologous chromosome forms a complex known as bivalent or tetrad.(3) Pachytene – At pachytene stage, crossing over of non-sister chromatids of homologous chromosomes occurs at the recombination nodules. The chromosomes remain linked at the sites of crossing over.(4) Diplotene – Diplotene marks the dissolution of the synaptonemal complex and separation of the homologous chromosomes of the bivalents except at the sites of cross-over. The X-shaped structures formed during separation are known as chiasmata.(5) Diakinesis – Diakinesis is marked by the termination of chiasmata and assembly of the meiotic spindle to separate the homologous chromosomes. The nucleolus disappears and the nuclear envelope breaks down.