What’s common between scientists and improv artists? Both delve into unchartered territories, develop novel ideas and concepts, encounter situations that demand quick thinking, and often excel in collaborative settings. What sets them apart is how the audience perceives them. While improv artists captivate audiences, the scientists usually alienate them. The following conversation between two great personalities explains this dichotomy very well.

Albert Einstein to Charlie Chaplin, ‘What I most admire about your art, is your universality. You don’t say a word, yet the world understands you’.

To which Chaplin replied, ‘True, but your glory is even greater. The world admires you, even though they don’t understand a word of what you say’.

Today scientists more than ever need to explain their work to a wider audience, as misinformation spreads rapidly. However, communicating science comes with its own set of challenges. Many researchers are apprehensive about presenting their findings, even to their peers, let alone engaging with the general public. Furthermore, scientific language is not always accessible to non-scientific audiences, including members from grant-awarding bodies, media professionals, and students. What scientists need today are lessons in audience engagement from artists’ playbook. Scientists can effectively use improvisation tools to enhance their communication skills and approach creative ways to bridge the gap between science and society.

Stumbling upon improv

I faced communication challenges during my postdoctoral research. After moving to Pittsburgh, USA following my PhD, I quickly realised that, as a molecular biologist, my scientific presentations didn’t always resonate with my peers in evolutionary biology. Breaking this communication barrier was a struggle. Fortunately, improvisation tools came to my rescue. I joined classes at the Steel City Improv Theatre (SCIT) and discovered that improv held the answers to my communication challenges.

Surprisingly, my co-improvisers weren’t expert actors! They came from various professions, including doctors, managers, and restauranteurs who came to learn improv to become better communicators.

What is improv and how can scientists benefit from it?

Improv is a series of unscripted actions and dialogues performed in the moment, called scenes. These performances can be your everyday situations often amplified for a reaction such as laughter. Improv comes with a set of rules. For example, in a scene, when you and your partners take centre stage with your own ideas, as soon as someone starts the conversation, you assertively align to their ideas and proceed to build upon them. This is one of the rules called ‘YES-AND’. This principle encourages a supportive environment and helps develop a connection with your collaborator. It in no way means there is no scope to say no when one tries to adapt YES-AND in real situations. In fact, the idea of YES-AND is to be more receptive to others and make conversations listener centred.

The other rule of improv ‘DISCOVER THE GAME’ assists in identifying 'Easter eggs' in the conversation that can unlock new possibilities in your discussion. For instance, consider yourself as a new researcher pitching your experimental setup to your research committee. As the committee asks questions and gives comments, it is helpful to pay attention to their words, and incorporate their comments in your presentation. This will help you to gain support and elevate your proposal. Nevertheless, improvising your talk at the last minute or thinking swiftly when you are in the spotlight can be intimidating. Improv exercises help achieve that comfort-level and confidence to handle such situations with ease. Additionally, improv encourages you to maintain eye contact, be fully present in the moment, and builds confidence, all of which are essential for effective communication.

Improv for scientists is not a new concept; it was initiated in 2009 when award-winning American actor Alan Alda partnered with the Centre for Communicating Science at Stony Brook University, New York, where he taught scientists unique ways to give engaging talks. His improvisational techniques equipped researchers to break away from the traditional, jargon-filled presentations and embrace more accessible communication methods that involved articulating complex scientific concepts in a clear and relatable manner.

Getting started with improv

Improv workshops have become a common feature in universities across the USA. For Indian research institutes, however, improv is still new and an unexplored domain. A few improv groups in India are collaborating with schools and colleges to introduce more young minds to the idea of improv. It is also being introduced in festivals such as IIT Bombay’s Mood Indigo. A common misconception about improv, which may deter scientists from embracing it, is the idea that it must be funny. Scientists could be concerned that using improv techniques in their work will trivialise or ridicule their research.

The objective of teaching improv to scientists is not to turn them into comedians, but rather to make them mindful of their audience and become effective communicators.

Engaging in improv is not just confined to communicating science effectively; it can be instrumental in stimulating out-of-box thinking and finding creative ways to tackle roadblocks in research journeys. The rules of improvisation offer valuable insights into enhancing networking within your academic circles, including colleagues and supervisors. Improv clubs have notably proliferated in numerous cities across India, offering courses to enthusiasts. Alternatively, you can sign-up for ‘Improv for Scientists’ virtual sessions with The Experimentalist.

Consider taking improv lessons and, subsequently, establishing an improv club within your research institute to perform improv with your fellow scientists. Improv is a community building artform and has the potential to transform our approach to networking, making it particularly appealing to scientific community.

Imagine sending a care package to a friend, filled with snacks, books, and perhaps a handwritten note. Well, our cells do something similar with Extracellular vesicles (EVs). They fill these vesicles with bioactive cargo and send them off to other cells in the body. EVs are tiny messengers in our bodies, delivering crucial information, but without postage stamps. These dynamic vesicles play a vital role as a communication system across all cell types, ensuring that our cells stay connected and function harmoniously.

During cell biology class, we learn about various organelles like mitochondria, the powerhouse of the cell; lysosomes, the suicide bags; and ribosomes, also known as protein factories. But amidst all that, one tiny term may have gone unnoticed: extracellular vesicles (EVs). Interestingly, EVs are a treasure trove of science information and offer a realm of thrilling possibilities!

The ‘Golden Snitch’ of Cell Biology

What's amazing about EVs is that they aren't limited to just one function or one species. They exist in all three domains of life: Archaea, Bacteria, and Eukarya. EV research covers a wide range of origins and organisms, from bacterial EVs to those found in the brain, milk, embryos, algae, and more.

The discovery of EVs happened by chance and lacked a cohesive understanding, leaving plenty of room for further research. However, there's undeniable evidence that these vesicles are now being extensively used to revisit and solve various biological mysteries. They were once considered biologically inactive waste-disposal systems, and sadly, they were left out of our textbooks for decades.

But things have changed. With significant advancements in science, EVs, once seen as mere waste sacs, are now recognised as the cellular Morse code. The story of EVs is an exciting one, showing us that there's still so much to learn and explore in the world of biology.

Excitement and challenges of being an EV researcher

I have always longed for the thrill of discovery, and the opportunity presented itself when I plunged into the fascinating world of EV research. Through my doctoral project, I am delving deep into the intricate world of Extracellular vesicles derived from Glioblastoma (GBM), an incredibly aggressive brain tumor. It's like stepping into a whole new dimension, offering a fresh perspective and a unique vantage point to confront the formidable challenge of Glioblastoma.

Imagine EVs as a postal system within our cells, carrying packages of information from one cell to another. The content of these vesicles depends on their source.

Imagine EVs as a postal system within our cells, carrying packages of information from one cell to another. The content of these vesicles depends on their source. In the case of cancer, EVs are hijacked by cancer cells to deliver harmful cargo, like receiving a package marked with an 'X'. My project aims to decipher the contents packed into EVs by these hijacked cells, in the hopes of finding answers to this puzzle.

Despite my initial excitement for the field, being an EV researcher has come with its challenges. I've had to troubleshoot isolation and characterisation techniques and face a certain degree of skepticism towards this emerging field. But, the growing momentum in EV research, particularly its potential to unravel the mysteries of Glioblastoma, has solidified my motivation. Despite the obstacles, EV research is increasingly seen as a biological Cryptex, holding the key to unlocking new understandings in the field.

Love at first ZOOM

When I started my PhD, I was eager to discuss my research with other scientists, but COVID-19 made it difficult. Then, I stumbled upon a networking event called "Coffee catch-up" hosted by a group called Student Network on Extracellular Vesicles (SNEV). Even though it was early in the morning, I joined the Zoom call and was able to connect with other young EV researchers from around the world. We discussed everything from troubleshooting protocols to tips and tricks of the field. This experience reminded me of the importance of scientific discourse, collaboration, and community, especially during a time when we were physically isolated from each other.

As a life science researcher, I wanted to expand my experiences beyond the lab and build a network of like-minded peers. I found this opportunity by working as a core team member for SNEV. This experience opened avenues for me to explore exciting research and engage with future Indian EV researchers.

Support from the community

Research isn't something that can be managed alone; it requires a community of support. The field of extracellular vesicles (EVs) lacked consensus and support until the International Society of Extracellular Vesicles (ISEV) was founded in 2012. ISEV's mission is to promote, train, and provide collaborative opportunities to the diverse group of researchers studying these diverse vesicles. EV chapters from different countries, such as the German Society of EVs, Austrian Society of EVs, and Italian Society of EVs, exist to cultivate a network of EV scientists. However, this concept has yet to be fully adapted in India.

In India, EVs hold great promise for understanding diseases and solving biological mysteries. They have already helped scientists learn more about stem cells, the relationship between our gut and brain, how plants interact with pathogens, and much more. Even though there are some pockets of EV research happening in India, we haven't fully tapped into their potential yet. There are two key reasons: firstly, the necessary equipments are not easily accessible, and secondly, researchers face limited opportunities to collaborate and discuss their findings.

With faculty recruitment challenges across institutes and universities, and insufficient scientist positions across the country, faculty fellowship programs are a means for early-career scientists to continue, or return, to work in India. These programs, such as the Ramalingaswami Re-entry Fellowship, DST INSPIRE Fellowship, and DBT India Alliance Early Career Fellowships, provide seed funding and a fellowship (to cover salary) to scientists looking to establish their independent research groups. With support for a substantial time period (at least five years), faculty fellowships provide opportunities for scientists and institutes/universities to engage in mutually beneficial collaborations. Still, an early-career scientist navigating the ecosystem in this role faces the well-known challenges of being an independent investigator and the unique considerations of being a faculty fellow (as opposed to permanent faculty hired by an institute or university).

Based on my experience and learnings across five years, I share a few important considerations relevant to early-career colleagues looking to start as faculty fellows in India. These considerations could also be helpful for institutes/universities looking to engage with faculty fellows and funding agencies when they consider revising or reimplementing these programs.

1. Choosing a host institute: Faculty fellowship programs are typically open for applications once or twice a year, so it may be necessary to start looking for potential host institutes a year in advance. It is essential to visit the institute and facilities, give a research talk, and interact with colleagues (maybe even over a few days) to establish if the research you intend will be well-supported. It may also be the time to assess the overall work culture at the potential institute and the conditions of hosting the fellowship, which may include additional teaching and institutional responsibilities.

2. Office and laboratory space: A critical aspect of these initial conversations would be negotiating office and laboratory space. Most established institutes with running research faculties will have a shortage of space. Given this, it is necessary to understand the space arrangement, whether dedicated or shared, including the ability to access common research facilities at the institute, to facilitate the proposed research.

3. Designation in the academic hierarchy: While negotiation of lab/office space and other institutional privileges may vary depending on the institute, faculty fellowships provide a clear academic designation (for example, the Ramalingaswami fellowship states the designation as Scientist D, Assistant Professor). This is important to consider since personal time off (leave) and, if provided, medical benefits and accommodations are dependent on this designation.

4. Start-up grant and subsequent funding: The research component of the faculty fellowship is often considered the start-up grant for the scientist fellow. While a faculty fellow may receive additional institute funding, applying for extramural grants would be essential for growing the research program. It is best to do this early because some grants will need a specified tenure duration at the time of the application. Many grants are open to faculty fellows, including short-term collaborative and travel exchanges. Also, the ‘Assistant Professor' designation implies that the scientist is eligible to apply for independent extramural funding, but it is advisable to clarify the same with the potential host institution.

5. Temporary, tenure-track or permanent: Faculty fellowships provide an opportunity for mutual evaluation between the scientist and host institute, but a ‘permanent position’ may not be a given. It can be due to various reasons, ranging from the lack of an available position in the institute to finding a more suitable candidate, particularly important when government-supported institutes host faculty fellows. In any case, these conversations are best had early and followed up on regularly, during which faculty fellows could consider the fellowship as a quasi ‘tenure track’ period, and build a strong portfolio of work for future applications.

6. Mentoring PhD students: Given that mentoring PhD researchers is both a big responsibility and a long-term commitment, faculty fellows should consider the ramifications of not having a regular position after the duration of the fellowship or having to move institutes. It can have massive consequences for the PhD researcher, in terms of the continuity of their degree, as well as limit the mobility of the early-career scientist. In light of this, faculty fellows can consider building research groups with research fellows (supported via grants), and Masters and undergraduate students. Alternatively, co-advisor arrangements with like-minded colleagues can be an option.

7. Teaching responsibilities: Often, faculty fellows contribute to the teaching program at institutes and universities focused on undergraduate education. As no stipulated time is allotted to non-research duties in certain fellowships, this is typically negotiable between the scientist and the host institute. Again, this is a conversation best had early.

8. Administrative and infrastructure-related responsibilities: In most Indian institutes, faculty members perform substantial duties related to the overall running of the institute. This will mean time away from research duties for faculty fellows, which the explicit mandate of the fellowship, and should be considered in the context of building a strong body of research work for future applications. Taken together, the roles and expectations from faculty fellows in teaching, administrative and infrastructure-related duties are rather nebulous, and unfortunately, can be a source of consternation.

9. Engaging with the wider science ecosystem in India: Being an early-career and non-regular faculty in India, given the rather ‘grey zone’ one falls into, can be a challenging track. It can help to reach out to colleagues across the ecosystem, both for professional opportunities and overall perspective. Being a part of larger initiatives and discussions related to science in our country can help foster a sense of belonging and connectedness to the ecosystem. This can also lead to informal mentoring and helpful guidance from colleagues across the country.

10. Staying open to diverse career opportunities: Faculty fellowships enable early-career scientists to launch independent academic careers, but they can also help them better understand the ecosystem and the diverse roles one can play within it. This is important for scientists, including women scientists, with limited geographic flexibility to seek regular positions and two-body challenges. A tenure as a faculty fellow can lead to roles in science education, communication, administration, grants and project management, and human resource training, to name a few.

On a personal note, securing the Ramalingaswami fellowship was the turning point in my decision to return to India. It has enabled my independent career in India across multiple fronts, including building a young and dynamic research group, teaching undergraduates at a state university, and engaging school students with science across India. It provided me with an opportunity to work and contribute to an ecosystem that I deeply care about. Faculty fellow programs are a gain for scientists, host institutes, and the larger science ecosystem in India. With a few thoughtful considerations, they can continue to be a ‘win-win-win’ situation!

2022 has drawn to an end! The past two years were unprecedented in grinding to a halt all in-person engagements. This led to a massive re-evaluation of IndiaBioscience's practices and systems, offering us a rare opportunity to leverage a hunger for scientific content and access diverse digital communities. As for many of you, 2022 was an exploration of how to balance the pendulum between past norms of engagement and the new expansive digital arena that we had built, without letting the pendulum swing too far in either direction.

Here, I would like to take you on a trip to look back on how the year 2022 unfolded for IndiaBioscience.

Without missing a beat, we continued to host our annual flagship event- the Young Investigators’ Meeting (YIM). Despite uncertainty regarding whether in-person events would be possible, we were certain that YIMs would take place as scheduled. Erring on the side of caution we decided to conduct the YIM and subsequent PDF Satellite Meeting in a virtual format. This unique experience allowed us to re-evaluate the core of the meeting stripped of all the issues related to travel and logistics. The IndiaBioscience Team and the Organising Committee (Felix Bast, Megha, Mohit Kumar Jolly and Shantala Hari Dass) had to think creatively about creating virtual interactive platforms. Perhaps we might have hit upon a formula that works. This gives us food for thought on how we can continue to host virtual events that still foster meaningful interactions. You can catch up on the talks at YIM 2022, here.

Did you know that IndiaBioscience is on the cusp of turning 15? Over the years we have gleaned many a glimpse into the issues faced by the life science (research) community in India through candidate discussions with independent researchers, participating in meetings/ conferences, etc. We reached a tipping point where we wanted a comprehensive way to be able to critically assess and discuss this. As a first-of-a-kind activity for IndiaBioscience, we launched a nationwide survey to understand the critical needs and issues of independent scientists in Indian science academia. Over 500 researchers took the time to fill out this extensive questionnaire- thank you! To bring to the foreground a sometimes underrepresented part of our community, we launched a podcast series, ‘Radio PDF’ a space where the post-doctoral community in India can talk about their research, career and life beyond.

In 2022, we had multiple initiatives that facilitated life science researchers across the career stage to hone their skills. Over this period, Crafting Your Career (CYC) workshops continued both offline and online. In total, we conducted six sessions this year with an overwhelming response from the community. In partnership with ASAPBio and Open Access India, we organised a virtual workshop on 'Research assessment and preprints in India'. Over the last few years, we have consistently tried to conduct small group e- workshops which include a component of practice and individualised feedback. This is an attempt to provide skill-building opportunities for people who might not be able to attend in-person sessions due to reasons such as geography, work schedules etc. With Cactus Communications, we have launched and conducted the ‘WriteRight series in Research Communication'- an intensive, small-group workshop on research communication for PhD students and Postdoctoral Fellows in the life sciences in India.

We passionately believe that science should be taken out of research labs. We rolled out the third edition of the IndiaBioscience Outreach Grant(IOG)in 2022 to help strengthen and integrate outreach activities as part of research programs. To expose undergraduate students to some of the exciting problems that scientists in the city are trying to solve and to take the life sciences beyond what they read in their textbooks, we organised a one-day seminar series on “Emerging Trends in Life Sciences” at and with NMKRV College, Bengaluru. To make such discussions about the stories behind research with stellar scientists from across the world more accessible, we (together with Ignite Life Science Foundation and Cactus Communications) launched the ‘IN CONVERSATION with IGNITE’ webinar. These are insightful, candid, insightful conversations between two scientists sans any jargon, presentations etc. Our purpose in the area of education is to be a bridging platform between researchers and educators- a space to discuss and highlight pedagogical tools and innovations in the teaching of life sciences at the undergraduate level. This past year, we hosted webinars for educators and researchers exploring digital education through the lens of NEP 2020 and ‘bioethics’ in the Indian context.

IndiaBioscience launched some useful resources for the community this year. We published a booklet, ‘On the Road to Excellence - Funding opportunities for Life Science Researchers in India’. This resource focuses on the funding opportunities available for life science researchers in India to pursue research and related activities. It covers national and international fellowships, grants, awards and special schemes in addition to travel and meeting/event support. We continued to publish 1-2 articles every week- these cover news pieces based on recent discoveries by the Indian scientific community, columns, opinions and articles relevant to life science professionals.

As we kickstart our 2023, this was just a sneak peek of what we achieved last year. Reflecting on our activities in the past year, we are appreciative and thankful for the support we have received from each of you. We hope you will stay connected with us, continue to support us, and be our brand ambassadors. In return, we hope to work with you to advance and evolve the life science ecosystem.

We wish you a happy, fulfilling and successful New Year 2023.

Stay engaged to enable change!