Black’s career balances teaching and research
When was a postdoc at the University of California, Irvine, two undergrads helped him with projects on long-chain fatty acid transport that succeeded due to their combined efforts. The research was published in the Journal of Biological Chemistry (papers are and ), and that one-on-one interaction with students became the foundation of Black’s teaching philosophy.
In honor of a career shaped by that philosophy, Black will receive the ͵͵ and ͵͵ Biology’s 2020/2021 ASBMB Award for Exemplary Contributions to Education.
Black was teaching biochemistry at the University of Tennessee in 1992 when the dean of medical education assigned him to develop a molecular cell biology program for medical students.
“This was in a time when there were more discipline-based classes being taught in the medical curriculum,” Black said. His course used a multidisciplinary approach, something new in those days, and the medical students and the biochemistry department honored him with the Golden Apple Award for excellence in teaching.
At the University of Nebraska–Lincoln, Black developed a new approach to biochemistry education using experiential learning and critical thinking skills. “His mission at UNL has been to develop a biochemistry program of inclusive excellence,” wrote in his letter nominating Black for the award.
Black bucks tradition with a specialized approach to designing biochemistry courses informed by basic research. He introduced a second-year course on scientific writing and analysis of scientific discourse and continues to receive positive feedback from students.
Black is passionate about inclusion in academia. “It is essential that we have inclusive excellence,” he said, “and it is extremely important that in the STEM disciplines there is a balance between men, women, minorities and individuals from communities marginalized by the scientific community.”
As chair of the UNL biochemistry department, he is close to his goal of a department with comparable numbers of male and female faculty. He is proud that his lab is enriched by students from many demographic and racial backgrounds.
Lipid metabolism and its practical applications
Paul BlackPaul Black’s lab has done seminal studies addressing fatty acid uptake into the cell. His team purified and characterized the bacterial fatty acid transport protein FadL and, working with a Harvard group, crystallized the protein and verified it was a fatty acid-responsive channel. They discovered fatty acid transport protein 1, FAT1p, which plays a role in getting fatty acids into yeast. Recent work with the Wistar Institute shows increased expression of FATP2 (an ortholog of FAT1p) in certain cancers, where it appears to regulate arachidonic acid uptake.
Beginning with a $2.4 million Department of Energy grant, Black’s team has addressed triglyceride synthesis in green algae for bioproducts and biofuels. By understanding the carbon–nitrogen balance during growth, they showed this system was also effective in removing nitrate from groundwater.
The aim is to mitigate a broad spectrum of health issues caused by high nitrate levels in groundwater prior to use for municipal drinking water.
Enjoy reading ASBMB Today?
Become a member to receive the print edition four times a year and the digital edition monthly.
Learn moreGet the latest from ASBMB Today
Enter your email address, and we’ll send you a weekly email with recent articles, interviews and more.
Latest in People
People highlights or most popular articles
Meet Robert Helsley
The Journal of Lipid Research junior associate editor studies chronic liver disease and was the first in his family to attend college.
Exploring life’s blueprint: Gene expression in development and evolution
Meet Julia Zeitlinger and David Arnosti — two co-chairs of the ASBMB’s 2025 meeting on gene expression, to be held June 26-29, in Kansas City, Missouri.
ASBMB names 2025 fellows
͵͵ and ͵͵ Biology honors 24 members for their service to the society and accomplishments in research, education, mentorship, diversity and inclusion and advocacy.
When Batman meets Poison Ivy
Jessica Desamero had learned to love science communication by the time she was challenged to explain the role of DNA secondary structure in halting cancer cell growth to an 8th-grade level audience.
The monopoly defined: Who holds the power of science communication?
“At the official competition, out of 12 presenters, only two were from R2 institutions, and the other 10 were from R1 institutions. And just two had distinguishable non-American accents.”
In memoriam: Donald A. Bryant
He was a professor emeritus at Penn State University who discovered how cyanobacteria adapt to far-red light and was a member of the ͵͵ and ͵͵ Biology for over 35 years.