The inheritance of genes is prescribed by law; their effect, however, can and is often modified by epigenetics.

Epigenetics shows the variable program for adapting genes to the environment and is also heritable. It has an influence on the genes by switching them on and off, which is caused by the respective targets*.

Genetics describes the duplication of genes from the chromosomes and their task of transferring them to the respective cells as unchanged as possible. The genes are located with their respective sections in the DNA of the chromosomes and determine the human body plan.

However, one cannot say that the genes control humans in an uncontrollable manner, because one has to take epigenetics into account, which can produce variable patterns. You are not at the mercy of genes. As I said, this is ensured by epigenetics, which is also inherited and is based on various goals and their midpoints.

Almost all chromatin patterns, which are made up of DNA and histones (proteins), can be changed. Individual genes can change to the histones by docking chemical groups, i. H. turn them on or off.

For a long time, researchers assumed that genetic material and its functions cannot be inherited through environmental influences.

This view is on the way to being put into perspective.

And: It is pointed out again and again that Darwin's theory of the development of life is not sufficient for explaining the complexity of living beings, because much more time would have been needed for it.

Epigenetics could close this gap: goals emerge or adapt.

If this change is vital and lasting, then it is inherited. Living beings would therefore adapt many times faster than is the case with Darwin's theory.

Since everything is driven by goals*, this could explain the relative speed of evolution: it's not just about Darwin's natural selection or mutation in DNA, it's also about how successfully goals are achieved in life. This creates epigenic structures that can be inherited in the above sense.