The DNA pass on genes from one generation to the other through chromosomes of the male and female gametes during sexual reproduction and through its nucleus of somatic cells in vegetative reproduction.
That is called inherited trates!
fitness
Heredity material is the genes which are made up of DNA. The passage of genes from parent to offspring results in the genetic make up of every cell in the human body. The genes determine the traits of an organism.
Inversion
Plasmids are circles of DNA. These have genes that can be transferred from one bacteria that has it to another. These genes can code for a protein that one cell normally doesn't code for. This done by a process called bacterial conjugation.
The main disadvantage of binary fission is the passing of defects and disease directly to the offspring. Another disadvantage of binary fission is the chance of evolution being low, as no recombination of genes occurs in this process.
Genes passing by sexual or asexual reproduction.
Known as 'hereditary' conditions capable of being transmitted from parent to offspring through the genes
There are many things that happen with the passing of traits from one generation to another. It is known as giving a hereditary trait.
The genes transfer the biological information. If you mean passing genes on to the next generation, it would be the genes in the gametes.
genes
Animals compete because they need to ensure their genes are passed on to the next generation. The animals with the best genes/adaptions are more likely to survive and successfully mate therefore passing their genes on. The process of which the strongest (or just best suited to the environment) genes survive on to the next generation is called natural selection.
transformation is the process in which one strain of bacteria is changed by a gene or genes from another strain of bacteria
fitness
That is called inherited trates!
Selection is the process.
they(Japanese people)suffered from radiation cancer(from the nuclear bomb)and their next genaration suffered too from genetic nucleric genes