Nav: Home

Robert Krumlauf elected to the National Academy of Sciences

May 04, 2016

KANSAS CITY, MO - The Stowers Institute for Medical Research is pleased to announce that Scientific Director and Investigator Robert Krumlauf, Ph.D., has been elected a member of the National Academy of Sciences (NAS) for his distinguished and continuing achievements in original scientific research. Membership in the NAS is considered one of the highest honors given to a scientist in the United States. Krumlauf will be inducted into the NAS next April during its 154th annual meeting in Washington, D.C.

Krumlauf joins R. Scott Hawley, Ph.D., as the second Stowers investigator elected to the society of distinguished scholars. Founded in 1863, the NAS includes more than 200 living Nobel laureates and such historic figures as Alexander Graham Bell, Albert Einstein, Thomas Edison, Barbara McClintock, and Orville Wright.

A world-renowned developmental biologist, Krumlauf was among the first to insert genes into the mouse genome to create "transgenic" mice that mimic human development. His seminal work involves a set of genes called homeobox genes, which control the layout of a developing embryo. Krumlauf found that mammalian homeobox genes cluster next to one another on the chromosome and that the order of genes on the chromosome matches the order of their expression in the embryo. Today, he also studies the molecular and cellular pathways that govern the patterning of the nervous system, the establishment of the basic body plan, and craniofacial development of vertebrate embryos, particularly how these processes are altered or affected in human diseases.

Krumlauf received his B.E. in chemical engineering from Vanderbilt University and his Ph.D. in developmental biology from Ohio State University. He joined the Stowers Institute in 2000 from England's National Institute for Medical Research at Mill Hill, London, now a part of the Francis Crick Institute, where he was head of the Division of Developmental Neurobiology. Krumlauf holds secondary faculty appointments at the University of Missouri at Kansas City Dental School and the University of Kansas Medical Center Department of Anatomy and Cell Biology. He is also a Fellow of the American Academy of Arts and Sciences.

"The Stowers Institute is proud of Robb's accomplishments not only as a world-class researcher but also as our scientific director," says David Chao, president and CEO of the Stowers Institute for Medical Research. "Those of us who have had the privilege of working closely with Robb have seen firsthand the amazing breadth and depth of his scientific knowledge and research; his selfless dedication to mentoring, training and education; and his unwavering commitment to the Institute and its members. We are delighted that the members of the esteemed National Academy of Sciences have now honored Robb with his election to its membership."

Krumlauf views his election to the NAS as a tribute to the many mentors and institutions that have supported him during his career. "I am delighted and feel truly honored to be elected to this prestigious scientific society. I believe it recognizes the contributions and research of all the wonderful people I have been fortunate to work with over many years."
About the National Academy of Sciences

The National Academy of Sciences is a private, nonprofit honorific society of distinguished scholars engaged in scientific and engineering research, dedicated to the furthering of science and technology and to their use for the general welfare. The NAS has served to "investigate, examine, experiment, and report upon any subject of science or art" whenever called upon to do so by any department of the government. For more information, or for the full list of newly elected members, visit

About the Stowers Institute for Medical Research

The Stowers Institute for Medical Research is a non-profit, basic biomedical research organization dedicated to improving human health by studying the fundamental processes of life. Jim Stowers, founder of American Century Investments, and his wife Virginia opened the Institute in 2000. Currently the Institute is home to nearly 500 researchers and support personnel, over 20 independent research programs, and more than a dozen technology development and core facilities. Learn more about the Institute at and about its graduate program at

Stowers Institute for Medical Research

Related Genes Articles:

Insomnia genes found
An international team of researchers has found, for the first time, seven risk genes for insomnia.
Genes affecting our communication skills relate to genes for psychiatric disorder
By screening thousands of individuals, an international team led by researchers of the Max Planck Institute for Psycholinguistics, the University of Bristol, the Broad Institute and the iPSYCH consortium has provided new insights into the relationship between genes that confer risk for autism or schizophrenia and genes that influence our ability to communicate during the course of development.
The fate of Neanderthal genes
The Neanderthals disappeared about 30,000 years ago, but little pieces of them live on in the form of DNA sequences scattered through the modern human genome.
Face shape is in the genes
Many of the characteristics that make up a person's face, such as nose size and face width, stem from specific genetic variations, reports John Shaffer of the University of Pittsburgh in Pennsylvania, and colleagues, in a study published on Aug.
Study finds hundreds of genes and genetic codes that regulate genes tied to alcoholism
Using rats carefully bred to either drink large amounts of alcohol or to spurn it, researchers at Indiana and Purdue universities have identified hundreds of genes that appear to play a role in increasing the desire to drink alcohol.
Reading between the genes
For a long time dismissed as 'junk DNA,' we now know that also the regions between the genes fulfill vital functions.
The silence of the genes
Research led by Dr. Keiji Tanimoto from the University of Tsukuba, Japan, has brought us closer to understanding the mechanisms underlying the phenomenon of genomic imprinting.
Why some genes are highly expressed
The DNA in our cells is folded into millions of small packets, like beads on a string, allowing our two-meter linear DNA genomes to fit into a nucleus of only about 0.01 mm in diameter.
Activating genes on demand
A new approach developed by Harvard geneticist George Church, Ph.D., can help uncover how tandem gene circuits dictate life processes, such as the healthy development of tissue or the triggering of a particular disease, and can also be used for directing precision stem cell differentiation for regenerative medicine and growing organ transplants.
Controlling genes with light
Researchers at Duke University have demonstrated a new way to activate genes with light, allowing precisely controlled and targeted genetic studies and applications.

Related Genes Reading:

Best Science Podcasts 2019

We have hand picked the best science podcasts for 2019. Sit back and enjoy new science podcasts updated daily from your favorite science news services and scientists.
Now Playing: TED Radio Hour

Jumpstarting Creativity
Our greatest breakthroughs and triumphs have one thing in common: creativity. But how do you ignite it? And how do you rekindle it? This hour, TED speakers explore ideas on jumpstarting creativity. Guests include economist Tim Harford, producer Helen Marriage, artificial intelligence researcher Steve Engels, and behavioral scientist Marily Oppezzo.
Now Playing: Science for the People

#524 The Human Network
What does a network of humans look like and how does it work? How does information spread? How do decisions and opinions spread? What gets distorted as it moves through the network and why? This week we dig into the ins and outs of human networks with Matthew Jackson, Professor of Economics at Stanford University and author of the book "The Human Network: How Your Social Position Determines Your Power, Beliefs, and Behaviours".