Asexual reproduction yields two identical organisms (with exception of mutations) Sexual reproduction merges the genes of the two parents Result: two versions of each chromosome ◦ Called homologous chromosomes Organism is diploid (2n=46) All somatic cells are diploid
All can be lined up based on size, creates a karyotype
First 22 are autosomes Chromosome 23 is the sex chromosome Haploid (n=23) sex cells merge to create a zygote in sexual reproduction Meiosis creates these sex cells (gametes) The overall process is the sexual life cycle
Homologous chromosomes Chromosomes replicate Meiosis I Meiosis II Homologous chromosomes separate Sister chromatids separate Interphase I of Meiosis
Similar to mitosis, chromatin replicates Centrioles replicate, proteins form around to make the centrosomes ◦ Also called the microtubule organizing centre ◦ Collectively, with microtubules, is called mitotic spindle
Longest part of meiosis Chromatin condenses, chromosomes become visible ◦ Homologous chromosomes come pair up, forming a tetrad – called synapsis ◦ The chromatids can overlap, called a chiasmata All other features are similar to mitosis
Almost identical to metaphase in mitosis, with the tetrad exception
Sister chromatids remain attached, tetrads separate (cells are now haploid)
Homologous chromosomes are at opposite poles of cell ◦ Each end is now haploid Cytokinesis takes place simultaneously Some cells proceed to interphase II, others directly to prophase II No cells replicate chromatin again
Spindle forms again, chromosomes move towards equator
Closely resembling mitosis, metaphase plate is formed
Sister chromatids finally separate
Mitotic spindle breaks down, nucleus reforms around two daughter nuclei
Some of the processes can go awry If anaphase I or II does not proceed correctly, the chromosomes may not be shared evenly This is called nondisjunction More of a problem if it occurs during meiosis I Can take place in mitosis, but not as much of a concern
An abnormal chromosome number is called aneuploidy If faulty gamete succeeds in fertilization, the offspring with have health consequences If a gamate with an extra chromosome fertilizes, the zygote is trisomic (2n+1) If the gamete has a chromosome missing, the zygote is monosomic (2n-1) Ex. Extra chromosome 21 – Down syndrome
If the extra chromosome is an X in a male (XXY), called Klinefelter syndrome The individual will have male sex organs, but the testes will be abnormally small, and he will be sterile As well, femine characteristics such as breast enlargement is common
Final example is Turner syndrome Example of monosomy X Individuals are classified X0, and are female However, sex organs do not mature at adolescence and secondary sex characteristics fail to develop
Also possible for anaphase I or II to completely fail and all chromosomes move to one cell Referred to as polyploidy Could have three chromosome sets (triploidy, 3n) or four (tetraploidy, 4n)