"Revolutionizing Biotech: How AI is Transforming the Industry"

Meta Description: Discover how Artificial Intelligence (AI) is transforming the biotech industry, accelerating innovation, and driving breakthroughs in personalized medicine, drug discovery, and more. Unlocking the Secrets of Biotech: How AI is Revolutionizing the Industry Biotech, a field that was once limited by manual processes and slow data analysis, is now experiencing a revolutionary…

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Dr Parwinder Kaur is an award-winning scientist, a passionate leader and positive role model as a mother, and a professor in science for the next generation of diverse scientists to pursue their passion for science and discovery. She leads cross-disciplinary biotechnology research investigating Earth’s biodiversity and natural environments to ensure sustainable futures. She uses her expertise to reach people in new ways, connecting them with their surroundings. Through her diverse research teams, such as ExPlanta, she harnesses STEM to achieve maximised impact. In doing so, she believes this will help us tackle the bigger issues we as society are facing, bringing about solutions through fresh thinking rather than following usual norms. She has been recognised for her substantial contributions to biotechnology and scientific excellence by the prestigious “Science and Innovation Award” by the Australian Academy of Sciences in 2013, won the Microsoft's AI for Earth award for 2019 and WA Innovator of the Year (finalist) in 2022. Dr Kaur is a passionate science communicator, an entrepreneur in the biotechnology sector, an active mentor for gender equity, a Superstar of STEM, a Women in Technology WA Role Model, GirlsXTech international ambassador working to close the gender gap in technology and Diversity in STEM expert panel appointment with the Office of the Hon Ed Husic MP, Minister for Industry and Science, Australia.

In our conversation, we speak about biotechnology and genetics for conservation, and creating sustainable solutions through interdisciplinary innovation (amongst a whole host of other things).

Watch this episode on YouTube. Listen to it on Spotify, Stitcher, Apple Podcasts, Google Podcasts, Breaker, Castbox, Overcast, Pocket Casts, RadioPublic, or RSS.

Show Notes

[00:01:11] Parwinder's journey to molecular biology and the study of DNA. [00:02:10] Growing up surrounded by different cultures and faiths. [00:03:23] Parwinder's chemistry teacher opening the door to science as an avenue to answer her questions. [00:04:28] Changing perspectives over time. The relationship between Ayurveda and epigenetics. [00:06:16] Tools don't make the science, but they sure can make things go faster. [00:06:47] Work that took Parwinder 7 years, now can be done in 7 days, because of tools. [00:08:00] The knowledge needs to progress and we can help that along by making it more accessible to get a wider range of perspectives. [00:08:38] Diversity is an important factor in innovation. [00:11:07] How Parwinder's cultural and religious background inspires her science. [00:13:18] There is enough old knowledge validated with science to suggest that we just need better tools or methods to get there as well. [00:13:47] Investigating different faiths revealed to her that there are many common beliefs about the origin of life. [00:14:35] Epigenetics. It's all connected. [00:15:13] The road to understanding DNA in a three-dimensional space. [00:19:35] We need to think bigger as well. Many of the problems we're trying to solve globally also must be viewed in multiple dimensions. [00:24:32] Parwinder's work touches on so many different areas, what has been achieved could not have been done without multidisciplinary collaboration. [00:25:53] Comparatively, Australia is less restrictive than India with respect to disciplinary boundaries. [00:28:14] The system doesn't favour multidisciplinary approaches that may take longer. [00:28:58] It's hard to inspire students to solve the problems around us if we can't allow them to explore a broader range of disciplines to find the solutions. [00:33:17] Funding and KPIs can be bound to a limited scope. [00:33:28] Obstacles to remote collaboration, and being a scientist in the most isolated city in the world. [00:37:49] Remote collaboration with a medicine lab outside KPIs has lead to initiatives like DNA Zoo. [00:41:55] Promoting Australia for its biodiversity and Perth for its Pawsey supercomputer. [00:45:38] DNA Zoo. [00:45:57] What can we learn about the superpowers of other species. [00:47:24] Conservation has to factor in genetics as well as environment. [00:48:47] The rate of innovation in genetics just for humans. Why not also for animals? [00:49:36] With technological advancements, sequencing costs are significantly more accessible. [00:52:55] It's about helping people connect the dots. Making the content public domain because this is bigger than just publishing papers. [00:55:22] Open data because not having access to the knowledge is inefficient and making it accessible allows more people to take a shot at it. [00:56:57] Data is our next bio-economy. [00:58:21] Methane from cows. [00:59:54] The factors that contribution to methane emission. [01:00:22] "You are what you eat". Let's look at diet. [01:00:49] Clovers and their simplicity and impact, and secondary discoveries in science. [01:03:00] Japanese research on red clovers and their applications. [01:04:27] A serendipitous conversation about kombucha. [01:05:44] From a joke to a commercial opportunity in synthetic biology. [01:07:29] Giving her students another option for a career path in entrepreneurism. [01:10:57] Bonus Question 1: What hobby or interest do you have that is most unrelated to your field of work? [01:12:41] Bonus Question 2: Which childhood book holds the strongest memories for you [01:15:17] Bonus Question 3: What advice you would give someone who wants to do what you do? Or what advice should they ignore?

Learn More About Parwinder

Twitter: @dr_parwinder ExPlanta: https://www.explanta.com.au/ DNA Zoo: https://www.dnazoo.org/ LinkedIn: https://www.linkedin.com/in/dr-parwinder-kaur-715745199/

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Research Technician in Plant & Microbial Synthetic Biology University of Georgia The Dundas Lab at University of Georgia-Athens is hiring a Research Technician in plant & microbial synthetic biology! #syntheticbiology #microbiomes See the full job description on jobRxiv: https://jobrxiv.org/job/university-of-georgia-27778-research-technician-in-plant-microbial-synthetic-biology/?feed_id=75673 #microbiome #plant_biology #synthetic_biology #ScienceJobs #hiring #research

Navigating the Antibiotics Renaissance: Trends in the Market 2024-2033

The Antibiotics Market is undergoing a renaissance as new strategies and technologies redefine the landscape from 2024 to 2033. Despite longstanding challenges such as antimicrobial resistance and a dwindling pipeline of novel antibiotics, innovative approaches are revitalizing the market.

Advancements in genomic sequencing, machine learning, and synthetic biology are enabling the discovery of novel antimicrobial agents and the optimization of existing antibiotics. Additionally, the emphasis on precision medicine and personalized treatment regimens is driving the development of targeted therapies that minimize collateral damage to the microbiome, thus mitigating resistance.

#AntibioticsMarket #AntimicrobialResistance #PrecisionMedicine #DrugDiscovery #InfectiousDiseases #Microbiome #GenomicSequencing #SyntheticBiology #PersonalizedTherapies #DrugOptimization #MachineLearning #Biotechnology #InnovationInHealthcare #FutureofMedicine #HealthcareTrends

𝐆𝐞𝐧𝐨𝐦𝐞 𝐄𝐝𝐢𝐭𝐢𝐧𝐠 𝐚𝐧𝐝 𝐂𝐑𝐈𝐒𝐏𝐑 𝐓𝐞𝐜𝐡𝐧𝐨𝐥𝐨𝐠𝐲: The development of the CRISPR-Cas9 system has revolutionized #geneticengineering and gene editing. Researchers are using this technology to modify genes in organisms

𝐒𝐲𝐧𝐭𝐡𝐞𝐭𝐢𝐜 𝐁𝐢𝐨𝐥𝐨𝐠𝐲: #syntheticbiology involves designing and constructing biological systems or organisms with novel functions or capabilities. This field has led to the creation of synthetic microbes for various applications

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#SyntheticBiology #Bioinformatics: new deep learning model uses genomic and transcriptomic data to generate non-coding DNA regulatory sequences. The model could help to control gene expression regulation in any desired organism, condition or tissue - https://t.co/mQr4Jbo44q https://t.co/MUPfqB14OI

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Synthetic Biology

Bacteria for better health? A team of students genetically engineered E. coil bacteria to treat two common skin ailments caused by a build-up of excess keratin. For their #iGEM2018 project, the students utilized several genes from a fungus that could encode the three different enzymes needed to break down keratin. They incorporated the fungi genes into a plasmid—a short strand of DNA— that they inserted into E. coli bacteria that had been engineered to secrete the enzymes through its outer double-membrane. They suspended the bacteria in an alginate gel, adjusting the amount of nutrients and catalyst chemicals in the solution so the bacteria secrete the right amount of enzymes over time. Their aim is to use this gel to produce a topical patch for patients. “Most of the current treatments for Keratosis pilaris and Actinic keratosis involve cutting off the condition, freezing it, or burning it off with acid, and they all seem very invasive to the human body. We’ve come up with a natural method to treat the affliction,” said Aaron Hodges, A.B. ’21, a biomedical engineering concentrator. “We wanted to develop a treatment that is more comfortable for patients.”⠀ #Harvard #HarvardSEAS #LifeatSEAS #students #project #geneticengineering #syntheticbiology #health #bacteria #igem2018 @igem_hq https://www.instagram.com/p/Bpo4yrgnzKo/?utm_source=ig_tumblr_share&igshid=1n0l6g4n5jqcu