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Dr. Stover graduated from Saint Joseph’s University with a B.S. degree in Chemistry and was awarded the Molloy Chemistry Award at graduation. He received a Ph.D. degree in Biochemistry and Molecular Biophysics from the Medical College of Virginia and performed his postdoctoral studies in Nutritional Sciences at the University of California at Berkeley. Patrick Stover was elected into the National Academy of Sciences in 2016. In 2014, he was elected as a Fellow of the American Association for the Advancement of Science. He also he received the SUNY Chancellor’s Award for Excellence in Scholarship and Creative Activities and the Osborne and Mendel Award for outstanding recent basic research accomplishments in nutrition from the American Society for Nutrition.

In 2012, he received a MERIT award from NIH’s National Institute of Diabetes and Digestive and Kidney Diseases and in 1999, he received the E.R.L. Stokstad Award in Nutritional Biochemistry from the American Society for Nutritional Sciences. In 1996, Patrick Stover received the Presidential Early Career Award for Scientists and Engineers from President Clinton, the highest honor bestowed by the U.S. government on outstanding scientists and engineers beginning their independent careers, and he has been selected as an Outstanding Educator four times by Cornell Merrill Presidential Scholars. He also serves as Editor for the Annual Review of Nutrition.

How did you first get involved in nutritional biochemistry and research? What made you interested in the field of nutrition science?

I caught the research bug through an undergraduate research experience at Saint Joseph’s University. Dr. Nelson’s research group was funded by the Naval Air Development Center and focused on the design, synthesis and function of synthetic prostaglandin oligomers as anti-ischemic agents. Studying the role and biological function of small nutrients became my passion and drove my interest in metabolism and biochemistry. I then studied enzymology and folate metabolism for my doctoral research under the mentorship of Dr. Verne Schirch at the Medical College of Virginia. This experience naturally led to an interest in nutrition and my migration to the University of California at Berkeley, when I studied folate nutrition and metabolism in the research group of Dr. Barry Shane.

When and why did you first join ASN? What value does ASN continue to provide you?

I joined ASN much later than I should have. I had regularly attended Experimental Biology and participated in ASN programming since graduate school but was most active in ASBMB. I joined ASN in1999 shortly after I was tenured as an associate professor, initially due to my interest in graduate education. I joined the Graduate Nutrition Education Committee and rose to rank of chair when we published what I believe is still a very important resource for all nutrition graduate programs: J Nutr.2002 Apr;132(4):779-84. ASN became my academic and professional home over the years—where I see old and meet new colleagues and collaborators, where my students present their research findings, where I developed leadership skills, and where I give time and treasure back to the nutrition community.

What aspects of ASN membership have you found most useful, professionally for you, your faculty and students? What other aspects of your membership do you find useful as your career has progressed?

All science is now a “social” science—collaboration is critical to address most important research questions. No one can succeed in a vacuum. Understanding how to forge meaningful and constructive partnerships through collaboration is essential to success, and ASN offers numerous opportunities to bring scientists together in an environment that promotes the exchange of ideas. Importantly, ASN also actively promotes mentoring opportunities for students and junior scientists, which has been invaluable for my students.

What aspects of your research do you foresee being most important for ASN members?

My bias is that nutrition, in all its dimensions, behaves as a complex dynamic system, and system approaches are needed to provide solutions to the problems we seek to solve. Hence, many of my current collaborators are those expert in systems biology and computer science.

Can you tell us more about your new position and what you hope to accomplish?

Perhaps the greatest challenge of our time is harmonizing agriculture, food systems, human health and environmental health. This is essential to address skyrocketing diet-related health care costs, environmental deterioration, and to ensure sustainability of our agriculture systems. Texas, as a national leader in agricultural production, coupled with its Healthy Texas A&M AgriLife Extension initiative, will be a model for aligning healthy and profitable agriculture with healthy people and healthy environments. As Vice Chancellor and Dean of Agriculture and Life Sciences at Texas A&M University and System, I have the privilege of working with the talented faculty, academic staff, students, state-wide agencies and stakeholders to be a national model for excellence in meeting the one-health challenge through research, teaching, Extension and service.

Is there anything else you’d like to tell ASN members, especially students and postdocs?

For the students and trainees, do what you love and you’ll love what you do! Strive to become a world-class expert in your field and enjoy as many colleagues as you can. Share your ideas with others, and they will share openly with you. Give back to the community that has given so much to you…perhaps through the ASN Foundation!

 

The Stover research group investigates the chemical, biochemical, genetic and epigenetic mechanisms that underlie the relationships between one-carbon metabolism and human pathologies including neural tube defects, cardiovascular disease and cancer. Specific interests include the regulation of folate-mediated one-carbon metabolism and genome expression and stability, the molecular basis of the fetal origins hypothesis, development of mouse models to elucidate mechanisms of folate-related pathologies, and translational control of gene expression.

 

Student Blogger

By Allison Dostal, PhD, RD

Dept. of Medicine, University of Minnesota Medical Center, Division of Gastroenterology, Hepatology, and Nutrition

ASN’s immediate Past President Patrick J. Stover, PhD, has been elected as a new member of the National Academy of Sciences (NAS) in recognition of his achievements for original science and research in nutrition. In addition to his important work with ASN and the NAS, he directs Cornell University’s Division of Nutritional Sciences and maintains an active research program. Through all of these accomplishments, Dr. Stover hasn’t lost sight of the many pitfalls, challenges, and chance happenings that have led him to the successful career he has today. In this interview, Dr. Stover discusses his trajectory from graduate student to ASN’s 2015-2016 president and NAS member and offers valuable insights that both young and established scientists can take to heart.

“Relationships are so important in science. They’re absolutely critical.”

Planning a career after completion of a PhD takes considerable, thought, effort, and not a small amount of stress. And yet, there’s no denying the power of chance and serendipity. For Dr. Stover, attendance of a summer conference in Vermont just one week before defending his dissertation forever changed his career focus. “They had messed up room assignments – I was supposed to room with my PhD advisor, and instead I ended up rooming with chair of nutrition at Berkeley, Barry Shane. My intention was to do a postdoc in crystallography and catalytic antibodies, because my PhD is in biochemistry. But I got that room assignment, and Barry and I just got along so well that week. I kept trying to find my thesis to do my thesis corrections, but he kept taking it with him because he wanted to read it. I changed my postdoc plans and went to Berkeley in nutrition. That’s really how I got introduced to nutrition – through that gratuitous error in roommate assignments.”

When asked what he believed his greatest career accomplishment to be, Dr. Stover immediately responded, “Oh, that’s easy. The greatest accomplishment is finding and working with some absolutely wonderful collaborators and mentors. This also includes students. The successes have always been finding the right people to work with that enable you to address the important questions, of both scientific importance but also public health importance.”

Stover was trained as a metabolic biochemist when he first started his faculty position, with an interest in folate metabolism. He soon realized that the most important questions that matched his interests were related to fundamental mechanisms of the role of folate in birth defect prevention. “We knew it worked; we didn’t know why it worked. And going out and finding people who were experts in embryonic development or an expert in cancer, and being able to work with…people who were experts in these other areas who didn’t know about or weren’t familiar with the science that I knew, [we were able to] put those two together and solve interesting problems and learn new techniques.”

“All good research starts with an interesting, important question.”

This concept is “absolutely paramount” for young scientists to understand as they enter a research career, Stover says. Along with this, “You really have to love what you do. You have to love asking these questions and love doing research.” After having this foundation and investment in the work of discovery, the next step is ensuring that one has the proper training, tools, and collaborators to be able to address the important question at hand.

“You have to collaborate. You don’t have to know everything, but you have to know what you don’t know and who you need to work with to be successful.”

Dr. Stover acknowledged that today, a lot of the important questions that many of us are interested in require multidisciplinary approaches and collaborative work, because these problems require different perspectives, tools, and techniques.

He also mentioned that throughout the years, ASN’s Graduate Nutrition Education Committee had written pieces about the importance of being an expert in something, but also having a broad knowledge base. “You have to be deep in what your expertise is – your disciplinary expertise and your technical expertise. But that’s not enough to address many of the important public health problems and the important scientific questions we have.”

Dr. Stover also recognized the increasing importance of communicating our science to other researchers and the general public. “A lot of us increasingly have to be well aware that what we’re interested in, and what excites us, has to be effectively communicated to external audiences so that they’re excited to support our work, [and to] the federal government so they’re excited to fund our work”.

Many of the issues Stover has had to navigate as a scientist are not unlike those that concern young investigators today. When discussing the biggest challenge that he’s had to face in his career, he emphasized the difficult transition from focused researcher to faculty member. “As academic faculty…we get our positions because we’ve been good at research. And then we get these faculty positions and we get put in offices, and we get asked to teach, and we get asked to manage personnel, and get asked to manage budgets and do some administration, for which we are utterly unqualified and untrained for, for the most part. I think being an assistant professor is really, really tough.” He noted vast improvements in career training tools since he first became an assistant professor in 1994, highlighting ASN’s workshops on effective teaching, mentoring, and skill sets needed for professional development.

As he continues to amass accolades and respect for his scientific career, Dr. Stover shows no sign of slowing down. When asked about the nutrition science-related goals he would like to achieve, he offered insight for both his own research program and for ASN. “In my own work, we continue to be really interested in the molecular basis of pathology related to folate metabolism, because we’re very interested in how folate requirements differ among individuals and how those affect important endpoints like genome stability and gene expression.” He also spoke about improving nutritional approaches to address diseases such as neuropathy, cancers, and neural tube defects, all of which are tied into folate’s role in human health. “We want to provide an engineering approach to understand how these things work and how nutrition throughout the life cycle can be used to improve the quality of life and wellness of life.”

He also intends on having a broader impact. Stover acknowledged that the number of ASN members elected into the National Academy of Sciences is very small, despite the excellent work produced by nutrition researchers that belong to ASN. “We need to get more outstanding nutrition scientists into greater visibility. I want to really work for that as well.

This interview has been condensed and edited.