They are shared and used by every living thing on earth and many whole sequences of DNA show close correlation, or exact sequence. One can actually follow the mutation trail from a common ancestor to the descendents that branch off from this ancestor.
Only evolutionary theory explains this as the creationist explanation, many separate creations and linear progressions of organisms, can not explain the shared and variant sequence trail.
Actually, it is the strongest evidence for evolution. Without one fossil we would know from the DNA evidence that evolution has occurred and is occurring. It is in the DNA of organisms that we see the strongest evidence for common ancestry. The products of those genes are sometimes highly conserved down the ages. Ribosomes, the workbenches on which proteins are made, differ hardly at at between you and pets.
The two types are Dna, and fossils
Biological molecules are considered evidence for evolution include a. DNA b. amino acids c. porteins d. all of the above Answer: D. All of the above
The morphological evidence which is shown in fossils to modern animals supports evolution because some dinosaurs, for instance, had feathers and we can obviously see that trait today in birds. The biochemical evidence, which comes in the form of DNA comparison and amino acid similarities, shows that we related closely to monkeys and pigs, which suggests that we have close ancestors to these animals.
It's mutability and it's heritability. It changes and these changes, in the germ line, are inherited by your progeny, The change in allele frequency over time in a population of organisms; evolution.
The theory says we may have been because of evolution evidence and close DNA
Fossils show evidence of evolution by showing a picture to the past and through some methods how DNA of one animal may be similar to that of a modern animal.
Fossils show evidence of evolution by showing a picture to the past and through some methods how DNA of one animal may be similar to that of a modern animal.
Fossils, patterns of early development, similar body structures, DNA, and protein structures.
DNA
We can look at DNA to see that all organisms are related, just like people can take a DNA test to see whether they are related to a particlar person.
DNA
The study of: (i) Cladistics: regional biodiversity, race circles, and geographical isolation; (ii) Genetics: DNA, chromosomes, viral insertions, common mutations; and (iii) Paleontology: fossils. These are some of the types of evidence for evolution.
Actually, it is the strongest evidence for evolution. Without one fossil we would know from the DNA evidence that evolution has occurred and is occurring. It is in the DNA of organisms that we see the strongest evidence for common ancestry. The products of those genes are sometimes highly conserved down the ages. Ribosomes, the workbenches on which proteins are made, differ hardly at at between you and pets.
The study of fossils, comparative anatomy, embryology, genetics, and biogeography can provide evidence of evolution. These fields help researchers understand how species have changed over time and how they are related to one another through common ancestors.
All species have the same genetic code.
The two types are Dna, and fossils