2.6 How do we know evolution has occurred? Genetic evidence.

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Figure 2.7 A double helix strand

All organisms have DNA and other fundamental features

All living organisms share certain fundamental features due to our descent from a single common ancestor that lived over three billion years ago. These shared features are called universal homologies, and include our cellular organization (all living things are made of cells), our use of the molecule ATP to do work at the cellular level, and our common genetic code. The genetic code is a set of rules governing how the subunits of a gene (the nucleotides) correspond to the subunits of a protein (amino acids). Biologists use an understanding of the genetic code to study evolutionary relationships among different groups of organisms. They do this by comparing the proteins that are produced, or by looking for differences in the genes themselves. Genetic analyses may clarify differences between or within populations or identify similarities between or within populations. Genetic comparisons can also highlight which genes have been maintained over time. For example, a gene essential to sperm production is present in all sperm-producing animals—from sea anemones to leeches to humans. These animals share a common ancestor that lived 600 million years ago; thus, this highly conserved sperm-producing gene must have been pretty important during animal evolution.

Content on this page was originally published in The Evolution and Biology of Sex by Sehoya Cotner & Deena Wassenberg and has been expanded and updated by Katherine Furniss & Sarah Hammarlund in compliance with the original CC-BY-NC 4.0 license.

 

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Introduction to the Evolution & Biology of Sex Copyright © by Katherine Furniss and Sarah Hammarlund is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License, except where otherwise noted.

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