Gene activity and digit structure define fingerprint pattern
Fingerprint formation is initiated by a specialised molecular process, influenced by the anatomy of the developing hand, research shows.
Scientists have discovered how fingerprints are formed, and how their unique characteristics are shaped, in a novel multidisciplinary study.
Fingerprint ridges, and their characteristic arches, loops and whorls, are formed by a combination of molecular signalling and the anatomy of developing fingers, research shows.
The many variables involved in the process give rise to the unique patterns found in each person, which aid our grip and help us experience textures.
Findings from the study, led by researchers at the Roslin Institute, part of the Royal (Dick) School of Veterinary Studies. could aid understanding of health disorders, including congenital conditions, which affect development of structures including skin, hair and sweat glands.
Unending variation
Scientists shed light on fingerprint formation by examining the roles of genes involved in the process using stem cell-derived organoids and mouse models in the lab.
The initial stages of fingerprint formation, which create undulations in the outer layer of the developing skin, are similar to those that occur when hair follicles begin to form, driven by a key set of genes, the team discovered.
These ridges form as a series of waves that spread from distinct sites of the developing finger to form the fingerprint pattern. As these patterns form they are influenced by many factors including the length of the fingers, the shape of the fingertips, and localised activity of genes. The result of this is an infinite variety of fingerprint patterns that can be produced.
The research, published in the journal Cell, was carried out in collaboration with colleagues in the UK, the Czech Republic and China.
Insight from this work could help understand how structures of the skin, such as sweat glands and hair follicles, fail to form in individuals affected by disorders such as hypohidrotic ectodermal dysplasia.
Our findings show that distinctive, individual fingerprint patterns are formed by a molecular process driven by gene activity, and shaped by variations in the individual anatomy of our fingers. It is only through collaboration with mathematicians and engineers that this work was possible, highlighting the power of multidisciplinary science.
Related links
About the Royal (Dick) School of Veterinary Studies
The Royal (Dick) School of Veterinary Studies is a one-of-a-kind centre of excellence in clinical activity, teaching and research. Our purpose-built campus, set against the backdrop of the beautiful Pentland Hills Regional Park, is home to more than 800 staff and almost 1400 students, all of whom contribute to our exceptional community ethos.
The School comprises:
The Global Academy of Agriculture and Food Systems
The Hospital for Small Animals
The Jeanne Marchig International Centre for Animal Welfare Education
We represent the largest concentration of animal science-related expertise in Europe, impacting local, regional, national and international communities in terms of economic growth, the provision of clinical services and the advancement of scientific knowledge.