If organisms have similar genes, then they are closely related.
Similarities in genes between humans and yeasts indicate that they share a common ancestor because these similarities suggest that the genes have been passed down from a common evolutionary origin. Genes that perform similar functions in both organisms provide evidence of a shared genetic and evolutionary history. The more similar the genes are, the more closely related the organisms are believed to be.
The presence of similar genes in very dissimilar organisms implies a common ancestor. This suggests that these organisms share a common evolutionary history and have inherited these genes from a common ancestor. The concept is known as homology.
The presence of similar DNA sequences in genes of very dissimilar organisms implies a common ancestry or evolutionary relationship. These similarities suggest that these organisms share a common ancestor and have inherited these sequences through evolution.
They exist because all these genes have descended from the genes of common ancestors.
If different organisms have similar genes, it often indicates a shared evolutionary ancestry, suggesting that they diverged from a common ancestor at some point in their evolutionary history. This genetic similarity can also reflect conserved functions essential for survival, as these genes may perform critical biological roles. Additionally, it may highlight evolutionary adaptations that have been retained across species due to their advantages in specific environments. Overall, such genetic similarities provide insight into evolutionary relationships and the mechanisms of evolution.
Similarities in genes between humans and yeasts indicate that they share a common ancestor because these similarities suggest that the genes have been passed down from a common evolutionary origin. Genes that perform similar functions in both organisms provide evidence of a shared genetic and evolutionary history. The more similar the genes are, the more closely related the organisms are believed to be.
The presence of similar genes in very dissimilar organisms implies a common ancestor. This suggests that these organisms share a common evolutionary history and have inherited these genes from a common ancestor. The concept is known as homology.
Fossil evidence showing a shared evolutionary history between the two species. Genetic similarities, such as shared DNA sequences or homologous genes, indicating a common genetic ancestry. Similar embryonic development patterns or anatomical structures that suggest a shared evolutionary origin.
Many of their genes are the same.
ancestor
Homozygous: genes are similar Hetrozygous: genes are not similar
The presence of similar DNA sequences in genes of very dissimilar organisms implies a common ancestry or evolutionary relationship. These similarities suggest that these organisms share a common ancestor and have inherited these sequences through evolution.
It implies that the organism shares a common ancestor.
It implies that the similar Genes are very, very Ancient.Edit: No, it doesn't. The genes can be fairly new, despite the organisms being very dissimilar. It implies that the organisms share a common ancestor, not that they're ancient. Please do not reply to questions if you have no idea what you're talking about.
Both worms and humans share a common ancestor, and many essential genes have been conserved throughout evolution to carry out basic biological functions. Despite the differences in complexity and morphology between worms and humans, many genes are required for common processes such as development, metabolism, and cellular functions. Therefore, a similar number of genes are necessary to ensure the survival and function of both organisms.
They use dna for sure and they may or may not use similar specification of genes
Paralogous genes are genes that arise from a gene duplication event within the same species, leading to multiple copies of a gene with similar functions. They can evolve new functions over time. Orthologous genes, on the other hand, are genes that are derived from a common ancestor through speciation, leading to genes with similar functions in different species. They typically retain the same function across different species.