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For biotechnology and biomanufacturing to help us achieve our societal goals, the United States needs to invest in foundational scientific capabilities. We need to develop genetic engineering technologies and techniques to be able to write circuitry for cells and predictably program biology in the same way in which we write software and program computers; unlock the power of biological data, including through computing tools and artificial intelligence; and advance the science of scale-up production while reducing the obstacles for commercialization so that innovative technologies and products can reach markets faster.

About AIR

Established in 1946, the American Institutes for Research (AIR) is a nonpartisan, not-for-profit organization that conducts behavioral and social science research and delivers technical assistance both domestically and internationally in the areas of education, health and the workforce. AIR's work is driven by its mission to generate and use rigorous evidence that contributes to a better, more equitable world. With headquarters in Arlington, Virginia, AIR has offices across the U.S. and abroad. For more information, visit www.air.org.

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Ashu Desai is one of the founders of Make School, a university replacement for computer science. Ashu built his first iPhone app in high school which sold 50,000 copies. He attended UCLA to study computer science before dropping out to join Y Combinator and found Make School in hopes of improving computer science education.

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Pharmaceutical, device, and biotechnology companies frequently collaborate with basic scientists and physicians within an academic medical center to help advance science and improve patient care. These relationships are important in achieving scientific breakthroughs and in establishing the effectiveness and safety of promising new therapies. In order to assure objectivity in clinical research and patient care, the Northwestern University Feinberg School of Medicine (Feinberg), Northwestern Memorial HealthCare, Children's Hospital of Chicago Medical Center, and the Shirley Ryan AbilityLab have adopted integrity policies that require research and clinical faculty (in full-time, part-time, and unpaid/voluntary categories) to report compensated and uncompensated external industry relationships. Patients are encouraged to discuss these disclosures with their physician as well as to inquire as to how these relationships are overseen by Feinberg. To learn more about our Disclosure and Professional Integrity Policy, and the conflict of interest policies of our joint affiliate survey partners, please go to our Office for Regulatory Affairs Policies page.

Ashu grew up in India and currently resides in the Bay Area with his wife, who is also a software engineer, and their daughter. He is a science and technology fan, during his spare time he loves exploring new tech and reading a lot of science fiction. As an avid traveler, his goal is to visit 50 countries and he is nearly halfway there.

Ashu: No, I don't think I would. My first passion is still definitely computer science. The one thing that is problematic with physics is it moves very slowly. Personally I need to see impact. I want my work to have an immediate purpose. Which I seriously doubt is going to happen in the world of physics. It's a very, very slow process. Things change in physics over tens of years while things change in computer science in one week.

Ashu: I think the most important thing is perseverance. To actually solve any problem or to learn any domain you need a certain level of perseverance. You should also have a curiosity to learn and you should question everything. And you need to focus on these fundamentals. Most people focus on technology. They look at all the systems out there. There is Kafka, there is Spark, there is this, there is that. There are hundreds, even thousands of projects, tools and systems that are out there. It is easy to get lost amongst all these projects... you begin to lose your perspective on computer science fundamentals.

Ashu: Anyone who's interested in how the brain works or how computer science and mathematics relates to life... there is a book called Gdel, Escher, Bach. It's mostly about the ubiquity of recursion. Recursion is everywhere in your life.

Steven Li: You began building software from an early age and you continued to pursue that passion by studying Computer Science at MIT before dropping out. Given all the different paths you could have taken, how did you decide to spend a 10+ year journey building software for the life sciences?

I grew up programming and studied Computer Science, but got excited by the possibilities and impact of Biology. I wanted to pursue a career in biotech. It was the contrast between working in science and software that led to Benchling.

In my life as a software engineer, I had powerful, rapidly evolving, user-friendly tools that helped me work seamlessly with other developers. We could build apps with friends and bring them to the world overnight. In software, the default is collaboration. In contrast, in the Biology lab, where I was doing arguably more impactful and complex work, all we had at our disposal were Excel spreadsheets and paper notebooks. Working together was hard. Software might have been eating the rest of the world, but it had failed science.

Our vision has evolved with the needs of our customers over the last decade. We started off serving scientists in academia and today work with some of the largest Fortune 500 R&D organizations in the world. We expanded from applications beloved by end-users to a mission-critical source of scientific truth for large teams. Every company we work with is doing unique science and our platform is truly configurable for each customer so the same product can be used for everything from RNA therapeutics to lab-grown meats.

The NIH, in partnership with USAID, the CDC, the EPA and the Clean Cooking Alliance, launched a Clean Cooking Implementation Science Network (ISN) to advance the science of uptake and scale-up of clean cooking technology in the developing world. Sustained, near-exclusive use of clean cooking technology is understood to be key to improving multiple important health outcomes by reducing exposure to household air pollution.

To meet its objectives, the Clean Cooking ISN aims to foster collaboration among researchers and implementers. Since 2016, the Network has undertaken projects designed to advance the science of clean cooking implementation at scale.

I have always believed that as a journalist I have the ability and freedom to express my feelings and thoughts and to reach a wider audience, whilst having a positive impact on the life of my community. I also held the view that I needed to acquire knowledge in other related disciplines if I were to be relevant in my practice of journalism. That is the consideration that pushed me to have a first and post graduate degree in private law and international law respectively and another post graduate degree in political science.

Deshpande, Hoagland, and King will talk about their experiences at a presentation at noon on Feb. 19 at the Fralin Biomedical Research Institute. The session will also provide an overview of the 2019 commercialization fellows program, which is accepting applications from graduate students and postdoctoral associates engaged in health sciences and technology study or research until 5 p.m. Feb. 25.