Walter Sutton

American geneticist
verifiedCite
While every effort has been made to follow citation style rules, there may be some discrepancies. Please refer to the appropriate style manual or other sources if you have any questions.
Select Citation Style
Feedback
Corrections? Updates? Omissions? Let us know if you have suggestions to improve this article (requires login).
Thank you for your feedback

Our editors will review what you’ve submitted and determine whether to revise the article.

Also known as: Walter S. Sutton, Walter Stanborough Sutton
Quick Facts
In full:
Walter Stanborough Sutton
Also called:
Walter S. Sutton
Born:
1877, Utica, New York, U.S.
Died:
November 10, 1916, Kansas City, Kansas
Also Known As:
Walter S. Sutton
Walter Stanborough Sutton

Walter Sutton (born 1877, Utica, New York, U.S.—died November 10, 1916, Kansas City, Kansas) was a U.S. geneticist who provided the first conclusive evidence that chromosomes carry the units of inheritance and occur in distinct pairs.

Sutton worked under Clarence E. McClung, one of the investigators who elucidated the chromosomal basis for sex determination, at the University of Kansas (M.A., 1901), and later (1907) he completed medical training at Columbia University. In 1909 he began the practice of surgery in Kansas City, Kansas, and Kansas City, Missouri; he continued to practice until his death.

While a student at Columbia, he wrote two papers that greatly affected the history of genetics. Published in 1902 in the Biological Bulletin, “On the Morphology of the Chromosome Group in Brachystola magna” provided the earliest detailed demonstration that the somatic chromosomes (those in cells other than sex cells) of a grasshopper occur in definite, distinguishable, and different pairs of like (or homologous) chromosomes. The paper ended with the hypothesis that chromosomes carry the units of inheritance and that their behaviour during division of the chromosomes of sex cells (meiosis) is the physical basis of the Mendelian law of heredity. Sutton developed this hypothesis in “The Chromosomes in Heredity” (1903) and concluded that chromosomes contain hereditary units and that their behaviour during meiosis is random. His work formed the basis for the chromosomal theory of heredity.

Illustrated strands of DNA. Deoxyribonucleic acid, biology.
Britannica Quiz
Genetics Quiz
This article was most recently revised and updated by Encyclopaedia Britannica.