Diversity The universe rules from rigid matter to living organisms, from observable phenomena to complex thought processes, from ideas to concrete manufactured products. It is the characteristic that characterizes everything we can think about and the existence of a life with a genetic diversity. The billions of living species are living the earth, each representing the manifestations of a cosmic plan. This coordinates the emergence and growth of all forms of life through the electoral pressure of development. What distinguishes the diversity of species is the uniqueness of every individual of any kind with its own characteristics. All humans are different in all their physical and mental characteristics. Blue eyes, brown hair, blond skin and short stature are all manifestations of genetic diversity. And the same for behavioral traits such as learning, memory, mood, or bad.
The first systematic study of these differences was done on fruit fly rather than on humans. The rate of reproduction of this insect is rapid so that genetic changes occur quickly and all fruit flies appear to be similar. But it is not. It exposes, like all species, a wide range of phenotypic traits.
What determines the difference between species is that as human beings, DNA molecules may be longer than the DNA molecules of animals and plants. The genetic legacies of the bacteria are 4.7 million pairs of bases, yeast 15 million, fruit fly 155 million, human beings 3000 million. There are many exceptions to this rule. Many of the lower species have DNA molecules that are longer than molecules
Human DNA; the DNA of the mouse is like humans, the corn is 5000 million, while the flower is 9,000 million. These exceptions are contradictory and are not directly related to the complexity of the organism. The phenotype is caused by genetic variations.
These differences between DNA molecules are distributed randomly along the molecule, which may be caused by mutations of "substituting one nucleus with another" or deleting one or more neutrons. These variations, which can be compared with markers along the DNA chain, are called "genetic markers".
The first systematic study of these differences was done on fruit fly rather than on humans. The rate of reproduction of this insect is rapid so that genetic changes occur quickly and all fruit flies appear to be similar. But it is not. It exposes, like all species, a wide range of phenotypic traits.
What determines the difference between species is that as human beings, DNA molecules may be longer than the DNA molecules of animals and plants. The genetic legacies of the bacteria are 4.7 million pairs of bases, yeast 15 million, fruit fly 155 million, human beings 3000 million. There are many exceptions to this rule. Many of the lower species have DNA molecules that are longer than molecules
Human DNA; the DNA of the mouse is like humans, the corn is 5000 million, while the flower is 9,000 million. These exceptions are contradictory and are not directly related to the complexity of the organism. The phenotype is caused by genetic variations.
These differences between DNA molecules are distributed randomly along the molecule, which may be caused by mutations of "substituting one nucleus with another" or deleting one or more neutrons. These variations, which can be compared with markers along the DNA chain, are called "genetic markers".
