WeScience Podcast

Summary In this episode, Dr. Amy Wilson shares her journey as an ovarian cancer researcher, discussing her motivations and challenges, the complexities of ovarian cancer, and the challenges faced in the field. She highlights the importance of immunotherapy, the role of leader cells in chemoresistance, and the potential of drug repurposing. Dr. Wilson also emphasizes the need for better communication between scientists and the community, the significance of research foundations in funding, the importance of patient involvement in science, and the challenges that women face in heathcare system. The conversation concludes with a call to action for participation in Frocktober, a campaign to raise awareness for ovarian cancer. Keywords: Ovarian cancer, immunotherapy, drug repurposing, cancer research, women's health, ovarian cancer foundation, leader cells, science communication, hereditary cancer, research funding. Takeaways: Curiosity drives scientific inquiry from a young age. Personal experiences can shape one's career path in science. Ovarian cancer is often diagnosed at a late stage, complicating treatment.Immunotherapy has not been as successful in ovarian cancer as in other cancers.Leader cells contribute to chemotherapy resistance and disease recurrence.Drug repurposing can be a cost-effective strategy in cancer treatment.Effective science communication is crucial for public understanding.Research foundations play a vital role in funding innovative cancer research.Collaboration between scientists and the community enhances research impact.Diversity in science is essential for addressing health inequities.Chapters:00:00 Introduction to Ovarian Cancer Research01:39 Curiosity drives Science03:21 Link between Music and Science06:30 Transitioning to Ovarian Cancer Research09:07 Understanding Ovarian Cancer12:16 Types and Prognosis of Ovarian Cancer14:53 Inherited Ovarian and Breast Cancer16:55 Postdoctoral Research on Leader Cells20:12 Mechanisms of Metastasis and Treatment Resistance 23:40 Immunotherapy Challenges in Ovarian Cancer27:43 Drug Repurposing in Cancer Treatment30:56 Lessons from Failures in Research32:50 Impact of Research on Community and Transition to Advocacy34:58 Navigating Research Challenges35:56 The Critical Role of Research Foundations39:13 Bridging the Gap Between Research and Patients 41:15 Communicating Science Effectively43:16 Communicating Science through Social Media and Frocktober45:28 Advocacy and the Importance of Community49:31 Key Factors for Success in Her Scientific Career50:51 Challenges Faced by Women in Science51:36 Passion for Women's Health Advocacy55:00 Advice for Junior Scientists56:23 Frocktober: Raising Awareness for Ovarian CancerMusic: “Wescience Podcast Intro” Artist: Wescience Podcast Composer: Carlos Aya Bonilla © 2025 Carlos Aya — All rights reserved.Available in Youtube, Spotify, Apple Podcasts, Instagram and Tik Tok with @WeSciencePodcast handle. Website: www.drcarlosayabonilla.com

Summary In this episode, Dr. Amy Wilson shares her journey as an ovarian cancer researcher, discussing her motivations and challenges, the complexities of ovarian cancer, and the challenges faced in the field. She highlights the importance of immunotherapy, the role of leader cells in chemoresistance, and the potential of drug repurposing. Dr. Wilson also emphasizes the need for better communication between scientists and the community, the significance of research foundations in funding, the importance of patient involvement in science, and the challenges that women face in heathcare system. The conversation concludes with a call to action for participation in Frocktober, a campaign to raise awareness for ovarian cancer. Keywords: Ovarian cancer, immunotherapy, drug repurposing, cancer research, women's health, ovarian cancer foundation, leader cells, science communication, hereditary cancer, research funding. Takeaways: Curiosity drives scientific inquiry from a young age. Personal experiences can shape one's career path in science. Ovarian cancer is often diagnosed at a late stage, complicating treatment.Immunotherapy has not been as successful in ovarian cancer as in other cancers.Leader cells contribute to chemotherapy resistance and disease recurrence.Drug repurposing can be a cost-effective strategy in cancer treatment.Effective science communication is crucial for public understanding.Research foundations play a vital role in funding innovative cancer research.Collaboration between scientists and the community enhances research impact.Diversity in science is essential for addressing health inequities.Chapters:00:00 Introduction to Ovarian Cancer Research01:39 Curiosity drives Science03:21 Link between Music and Science06:30 Transitioning to Ovarian Cancer Research09:07 Understanding Ovarian Cancer12:16 Types and Prognosis of Ovarian Cancer14:53 Inherited Ovarian and Breast Cancer16:55 Postdoctoral Research on Leader Cells20:12 Mechanisms of Metastasis and Treatment Resistance 23:40 Immunotherapy Challenges in Ovarian Cancer27:43 Drug Repurposing in Cancer Treatment30:56 Lessons from Failures in Research32:50 Impact of Research on Community and Transition to Advocacy34:58 Navigating Research Challenges35:56 The Critical Role of Research Foundations39:13 Bridging the Gap Between Research and Patients 41:15 Communicating Science Effectively43:16 Communicating Science through Social Media and Frocktober45:28 Advocacy and the Importance of Community49:31 Key Factors for Success in Her Scientific Career50:51 Challenges Faced by Women in Science51:36 Passion for Women's Health Advocacy55:00 Advice for Junior Scientists56:23 Frocktober: Raising Awareness for Ovarian CancerMusic: “Wescience Podcast Intro” Artist: Wescience Podcast Composer: Carlos Aya Bonilla © 2025 Carlos Aya — All rights reserved.Available in Youtube, Spotify, Apple Podcasts, Instagram and Tik Tok with @WeSciencePodcast handle. Website: www.drcarlosayabonilla.com

Summary:In this conversation, Mr Digby Growns, a plant scientist leading the plant breeding at Kings' park discusses the significance of Kings Park, his journey into plant science, the unique flora of Australia and Western Australia, and the benefits and challenges of plant breeding. He explores the challenges and opportunities in conservation, the role of botanical gardens and the impact of indigenous knowledge on plant use. The discussion also touches on ethical considerations in plant breeding and the future of Australian flora in a changing environment.Keywords:#kingspark , #plantbreeding , #Australianflora, #conservation , #ethnobotany , #biodiversity , #horticulture , #indigenous knowledge, #environmentalimpact , #botanicalgarden #westernaustralia #plantTakeaways:Kings Park is a unique blend of natural bushland and parkland.Eucalyptus species have adapted globally, impacting local ecosystems.Australia's flora is largely endemic, with 90% of species found nowhere else.Plant breeding has evolved over thousands of years, focusing on both aesthetics and environmental benefits.The blue kangaroo paw represents a significant breakthrough in plant breeding.Botanical gardens play a crucial role in conservation and education.Indigenous knowledge contributes to understanding plant uses and benefits.Plant breeding faces challenges such as pollination complexities and seed germination.The future of Australian flora may include global applications due to climate change.Passion and following opportunities are key to success in plant science.Chapters:00:00 Introduction to Kings Park and Botanic Gardens 04:01 Journey into Plant Science06:42 Eucaliptus: An Australian plant and its impact worldwide10:18 The Uniqueness of Australian Flora13:09 Understanding Plant Breeding18:11 Challenges and Opportunities in Plant Breeding 22:40 Success Stories in Plant Development27:55 The Global Impact of Australian Flora29:24 Plant Breeding vs Genetically Modified Organisms (GMOs)31:17 Transfer of Indigenous Knowledge and Plant Use 33:07 Personal Joys and Challenges34:58 The Role of Botanical Gardens in Conservation 35:41 Legacy and Future of Plant BreedingAvailable in Youtube, Spotify, Apple Podcasts, Instagram and Tik Tok with @WeSciencePodcast handle.Website: www.drcarlosayabonilla.comMusic: “Wescience Podcast Intro” Artist: Wescience Podcast Composer: Carlos Aya Bonilla © 2025 Carlos Aya — All rights reserved.

Summary: In this conversation, Mr Digby Growns, a plant scientist leading the plant breeding at Kings' park discusses the significance of Kings Park, his journey into plant science, the unique flora of Australia and Western Australia, and the benefits and challenges of plant breeding. He explores the challenges and opportunities in conservation, the role of botanical gardens and the impact of indigenous knowledge on plant use. The discussion also touches on ethical considerations in plant breeding and the future of Australian flora in a changing environment. Keywords: #kingspark , #plantbreeding , #Australianflora, #conservation , #ethnobotany , #biodiversity , #horticulture , #indigenous knowledge, #environmentalimpact , #botanicalgarden #westernaustralia #plant Takeaways:Kings Park is a unique blend of natural bushland and parkland. Eucalyptus species have adapted globally, impacting local ecosystems. Australia's flora is largely endemic, with 90% of species found nowhere else. Plant breeding has evolved over thousands of years, focusing on both aesthetics and environmental benefits. The blue kangaroo paw represents a significant breakthrough in plant breeding. Botanical gardens play a crucial role in conservation and education. Indigenous knowledge contributes to understanding plant uses and benefits. Plant breeding faces challenges such as pollination complexities and seed germination. The future of Australian flora may include global applications due to climate change. Passion and following opportunities are key to success in plant science. Chapters: 00:00 Introduction to Kings Park and Botanic Gardens 04:01 Journey into Plant Science 06:42 Eucaliptus: An Australian plant and its impact worldwide 10:18 The Uniqueness of Australian Flora 13:09 Understanding Plant Breeding 18:11 Challenges and Opportunities in Plant Breeding 22:40 Success Stories in Plant Development 27:55 The Global Impact of Australian Flora 29:24 Plant Breeding vs Genetically Modified Organisms (GMOs) 31:17 Transfer of Indigenous Knowledge and Plant Use 33:07 Personal Joys and Challenges 34:58 The Role of Botanical Gardens in Conservation 35:41 Legacy and Future of Plant Breeding Available in Youtube, Spotify, Apple Podcasts, Instagram and Tik Tok with @WeSciencePodcast handle. Website: www.drcarlosayabonilla.com Music: “Wescience Podcast Intro” Artist: Wescience Podcast Composer: Carlos Aya Bonilla © 2025 Carlos Aya — All rights reserved.

SummaryIn this episode of WeScience, Dr. Carlos Aya-Bonilla interviews Dr. Emma De Jong, a bioinformatician at the Minderoo OceanOmics Centre. They discuss Emma's journey from human medical research to marine biology, her motivations for becoming a scientist, and the importance of bioinformatics in understanding complex biological systems. Emma shares insights on her research in sepsis, transcriptomics across chronic diseases (asthma and cancer), and profiling of environmental DNA as critical tool for conservation of our marine life, highlighting the significance of collaboration and data quality in scientific research. The conversation also touches on the challenges faced in genomic studies and the need for open access to research resources in marine life research.Keywords⁠#bioinformatics⁠, ⁠#marinelife⁠ ⁠#marinebiology⁠ ⁠#environmentaldata⁠ ⁠#environmentalDNA⁠ ⁠#immunology⁠ ⁠#asthma⁠ ⁠#fish⁠ ⁠#cancer⁠ ⁠#cancerresearch⁠ ⁠#transcriptomics⁠ ⁠#genomics⁠ ⁠#sepsis⁠ ⁠#systemsbiology⁠ ⁠#referencegenomes⁠ ⁠#catalog⁠ ⁠#immunity⁠ ⁠#genome⁠ TakeawaysEmma's motivation to become a scientist stemmed from her siblings' experiences with cancer.Negative data is crucial for guiding future research directions.Understanding sepsis in pre-term infants is vital due to their high susceptibility to infections.Bioinformatics bridges the gap between wet lab and computational biology.Transcriptomics provides a dynamic view of biological responses.Data quality control is essential in research to avoid costly mistakes.Transitioning to marine biology has allowed Emma to explore new scientific avenues.Environmental DNA technologies can revolutionize biodiversity monitoring.Reference genomes are critical for advancing marine research.Collaboration across disciplines enhances scientific outcomes.

SummaryIn this episode of WeScience, Dr. Carlos Aya-Bonilla interviews Dr. Emma De Jong, a bioinformatician at the Minderoo OceanOmics Centre. They discuss Emma's journey from human medical research to marine biology, her motivations for becoming a scientist, and the importance of bioinformatics in understanding complex biological systems. Emma shares insights on her research in sepsis, transcriptomics across chronic diseases (asthma and cancer), and profiling of environmental DNA as critical tool for conservation of our marine life, highlighting the significance of collaboration and data quality in scientific research. The conversation also touches on the challenges faced in genomic studies and the need for open access to research resources in marine life research.Keywords#bioinformatics, #marinelife #marinebiology #environmentaldata #environmentalDNA #immunology #asthma #fish #cancer #cancerresearch #transcriptomics #genomics #sepsis #systemsbiology #referencegenomes #catalog #immunity #genome TakeawaysEmma's motivation to become a scientist stemmed from her siblings' experiences with cancer.Negative data is crucial for guiding future research directions.Understanding sepsis in pre-term infants is vital due to their high susceptibility to infections.Bioinformatics bridges the gap between wet lab and computational biology.Transcriptomics provides a dynamic view of biological responses.Data quality control is essential in research to avoid costly mistakes.Transitioning to marine biology has allowed Emma to explore new scientific avenues.Environmental DNA technologies can revolutionize biodiversity monitoring.Reference genomes are critical for advancing marine research.Collaboration across disciplines enhances scientific outcomes.

Summary:In this conversation, Dr. Arutha Kulasinghe shares his journey from South Africa to becoming a leader in personalized medicine and spatial transcriptomics at the University of Queensland. He discusses the importance of patient-centric research and building a "village" to enable ground-breaking discoveries and their rapid translation into clinical settings. He also discusses the challenges in liquid biopsy and the importance of personalized medicine approaches and the utility of spatial transcriptomics to unearth pathogenic mechanisms in cancer and pandemics. Arutha emphasizes the need for diverse backgrounds in science to drive breakthroughs and the importance of mentorship for emerging scientists. He also highlights the future of spatial transcriptomics and its potential in personalized medicine, while addressing the challenges of funding and translating discoveries into clinical practice.Takeaways:Arutha's early experiences with cancer shaped his career path.The importance of patient-centric research in cancer science.Liquid biopsy presents both challenges and opportunities.Understanding the microenvironment is crucial for cancer research.Collaboration is key to advancing scientific discoveries.Spatial transcriptomics offers new insights into tumor biology.Personalized medicine requires understanding individual patient needs.Funding mechanisms need to support innovative and blue-sky ideas.Mentorship plays a vital role in nurturing emerging scientists.Diverse backgrounds in science lead to groundbreaking discoveries.Keywords:Personalized medicine, spatial transcriptomics, cancer research, liquid biopsy, head and neck cancer, COVID-19, multi-omics, mentorship, translational research, scientific collaborationChapters:⁠00:00⁠ Introduction of A/Prof Arutha Kulasinghe⁠01:19⁠ Personal Journey and Motivation in Science⁠05:28⁠ Academic Journey and PhD Experience⁠08:07⁠ Liquid Biopsy and Its Challenges⁠11:23⁠ Understanding Head and Neck Cancers⁠13:48⁠ Factors Contributing to PhD Success⁠17:36⁠ Transition to Transcriptomics and COVID Research⁠20:06⁠ Collaborative Research During the Pandemic⁠23:22⁠ Turning Complex Research into Low-Cost Non-invasive Tools for COVID Prognosis ⁠26:34⁠ Current and Future Research in Cancer ⁠31:42⁠ Unlocking 100 year-old Misteries across Pandemics to Shape Modern Medicine⁠35:36⁠ Exploring Immunotherapy and Infection in Lung Cancer⁠37:13⁠ Learning from Existing Diseases for Future Pandemics⁠38:23⁠ The Evolution of Technologies for Scientific Discoveries⁠40:37⁠ Multi-Omics and Spatial Mapping Allow us to Dissect Disease's Complexity⁠45:32⁠ Challenges in Translating Discoveries to Personalized Medicine⁠48:51⁠ The Importance of Personalized (Precision) Medicine⁠54:07⁠ Embracing Failure and Celebrating Wins in Science⁠56:41⁠ Nurturing Future Scientists and Crazy Ideas⁠01:00:59⁠ Bringing Blue Sky Ideas to LifePlease Follow us @:YoutubeApple PodcastsInstagramX

Summary:In this conversation, Dr. Arutha Kulasinghe shares his journey from South Africa to becoming a leader in personalized medicine and spatial transcriptomics at the University of Queensland. He discusses the importance of patient-centric research and building a "village" to enable ground-breaking discoveries and their rapid translation into clinical settings. He also discusses the challenges in liquid biopsy and the importance of personalized medicine approaches and the utility of spatial transcriptomics to unearth pathogenic mechanisms in cancer and pandemics. Arutha emphasizes the need for diverse backgrounds in science to drive breakthroughs and the importance of mentorship for emerging scientists. He also highlights the future of spatial transcriptomics and its potential in personalized medicine, while addressing the challenges of funding and translating discoveries into clinical practice.Takeaways:Arutha's early experiences with cancer shaped his career path.The importance of patient-centric research in cancer science.Liquid biopsy presents both challenges and opportunities.Understanding the microenvironment is crucial for cancer research.Collaboration is key to advancing scientific discoveries.Spatial transcriptomics offers new insights into tumor biology.Personalized medicine requires understanding individual patient needs.Funding mechanisms need to support innovative and blue-sky ideas.Mentorship plays a vital role in nurturing emerging scientists.Diverse backgrounds in science lead to groundbreaking discoveries.Keywords:Personalized medicine, spatial transcriptomics, cancer research, liquid biopsy, head and neck cancer, COVID-19, multi-omics, mentorship, translational research, scientific collaborationChapters:00:00 Introduction of A/Prof Arutha Kulasinghe01:19 Personal Journey and Motivation in Science05:28 Academic Journey and PhD Experience08:07 Liquid Biopsy and Its Challenges11:23 Understanding Head and Neck Cancers13:48 Factors Contributing to PhD Success17:36 Transition to Transcriptomics and COVID Research20:06 Collaborative Research During the Pandemic23:22 Turning Complex Research into Low-Cost Non-invasive Tools for COVID Prognosis 26:34 Current and Future Research in Cancer 31:42 Unlocking 100 year-old Misteries across Pandemics to Shape Modern Medicine35:36 Exploring Immunotherapy and Infection in Lung Cancer37:13 Learning from Existing Diseases for Future Pandemics38:23 The Evolution of Technologies for Scientific Discoveries40:37 Multi-Omics and Spatial Mapping Allow us to Dissect Disease's Complexity45:32 Challenges in Translating Discoveries to Personalized Medicine48:51 The Importance of Personalized (Precision) Medicine54:07 Embracing Failure and Celebrating Wins in Science56:41 Nurturing Future Scientists and Crazy Ideas01:00:59 Bringing Blue Sky Ideas to LifePlease Follow us @:SpotifyApple PodcastsInstagramX

Summary:In this episode, Dr. Stephanie Trend shares her journey into science, discussing her early inspirations, educational transitions and research focus on autoimmunity and multiple sclerosis (MS). She elaborates on her PhD research regarding breast milk's immune factors and her current work on the role of B cells in MS. Dr. Trend highlights the challenges in understanding MS triggers, the importance of research funding, and the need for advocacy for early career researchers and female scientists in the field. Dr Trend also acknowledges the support of organisations as a key factor to further advance scientific discoveries.Keywords:Autoimmunity, Multiple Sclerosis, Breast Milk, Immune System, Clinical Trials, Research Funding, Female Scientists, Health, Immunology, Medical ResearchTakeaways:Dr. Trend's journey into science was influenced by personal experiences.Her PhD research focused on the immune components of breast milk and their impact on preterm infants.Transitioning from clinical trials to research on multiple sclerosis (MS) was a pivotal moment in her career.Understanding the immune system's role in autoimmunity is crucial for developing effective treatments for MS.The distinction between relapsing-remitting and progressive MS is important for understanding disease progression.Current research aims to identify specific B cells involved in MS to develop targeted therapies.The Epstein-Barr virus is linked to MS susceptibility, but the exact mechanisms remain unclear.Advancements in technology, such as single-cell RNA sequencing, are essential for future discoveries in MS research.Support for early career researchers is vital for fostering the next generation of scientists.Research funding from organisations like MSWA is critical for advancing medical research and finding new treatments. To view interview in YouTube please click ⁠here

Summary:In this episode, Dr. Stephanie Trend shares her journey into science, discussing her early inspirations, educational transitions and research focus on autoimmunity and multiple sclerosis (MS). She elaborates on her PhD research regarding breast milk's immune factors and her current work on the role of B cells in MS. Dr. Trend highlights the challenges in understanding MS triggers, the importance of research funding, and the need for advocacy for early career researchers and female scientists in the field. Dr Trend also acknowledges the support of organisations as a key factor to further advance scientific discoveries.Keywords:Autoimmunity, Multiple Sclerosis, Breast Milk, Immune System, Clinical Trials, Research Funding, Female Scientists, Health, Immunology, Medical ResearchTakeaways:Dr. Trend's journey into science was influenced by personal experiences.Her PhD research focused on the immune components of breast milk and their impact on preterm infants.Transitioning from clinical trials to research on multiple sclerosis (MS) was a pivotal moment in her career.Understanding the immune system's role in autoimmunity is crucial for developing effective treatments for MS.The distinction between relapsing-remitting and progressive MS is important for understanding disease progression.Current research aims to identify specific B cells involved in MS to develop targeted therapies.The Epstein-Barr virus is linked to MS susceptibility, but the exact mechanisms remain unclear.Advancements in technology, such as single-cell RNA sequencing, are essential for future discoveries in MS research.Support for early career researchers is vital for fostering the next generation of scientists.Research funding from organisations like MSWA is critical for advancing medical research and finding new treatments. To view interview in YouTube please click here

Summary:In this episode of WeScience, Dr. Francois Rwandamuriye shares his journey from Rwanda to Australia, discussing his experiences in scientific education, the challenges faced in different countries, and his research in tumour immunology and immunotherapy. He elaborates on the innovative approaches in cancer treatment, particularly focusing on Sarcoma and Mesothelioma. His research work has developed innovative strategies for an effective and localised delivery of immunotherapy for Sarcoma and currently is working on harnessing the power of mRNA technology as a treatment for Mesothelioma. Dr. Rwandamuriye emphasises the importance of resilience, motivation, and teamwork in the scientific journey, providing valuable insights for aspiring scientists.Keywords:science, immunology, cancer research, sarcoma, immunotherapy, mRNA, drug delivery, education, resilience, research journey, global scienceTakeaways:Dr. Rwandamuriye's journey to science began later in his career.He emphasizes the importance of infrastructure in scientific education.The transition from Rwanda to South Africa sparked his passion for research.Immunotherapy is a key focus in his research on sarcoma.He highlights the challenges of finding a job in research without local experience.His PhD research involved innovative approaches to deliver immunotherapy.mRNA technology offers new possibilities for cancer treatment.Resilience and motivation are crucial for success in science.He advocates for teamwork and supportive environments in research.The long-term goal of his research is to find impactful cancer therapies.

Summary:In this episode of WeScience, Dr. Francois Rwandamuriye shares his journey from Rwanda to Australia, discussing his experiences in scientific education, the challenges faced in different countries, and his research in tumour immunology and immunotherapy. He elaborates on the innovative approaches in cancer treatment, particularly focusing on Sarcoma and Mesothelioma. His research work has developed innovative strategies for an effective and localised delivery of immunotherapy for Sarcoma and currently is working on harnessing the power of mRNA technology as a treatment for Mesothelioma. Dr. Rwandamuriye emphasises the importance of resilience, motivation, and teamwork in the scientific journey, providing valuable insights for aspiring scientists.Keywords:science, immunology, cancer research, sarcoma, immunotherapy, mRNA, drug delivery, education, resilience, research journey, global scienceTakeaways:Dr. Rwandamuriye's journey to science began later in his career.He emphasizes the importance of infrastructure in scientific education.The transition from Rwanda to South Africa sparked his passion for research.Immunotherapy is a key focus in his research on sarcoma.He highlights the challenges of finding a job in research without local experience.His PhD research involved innovative approaches to deliver immunotherapy.mRNA technology offers new possibilities for cancer treatment.Resilience and motivation are crucial for success in science.He advocates for teamwork and supportive environments in research.The long-term goal of his research is to find impactful cancer therapies.

Summary:In this episode of WeScience, Dr. Vincent Kuek shares his journey from personal experiences with cancer to becoming a researcher focused on childhood leukaemia. He discusses the challenges of transitioning from bone biology to leukaemia research, the importance of understanding the disease, and the impact of personal experiences on his work. Dr. Kuek emphasises the need for better treatments and the role of the bone microenvironment in leukaemia. He also addresses the challenges of funding in medical research and offers advice for aspiring scientists.Keywords:Dr. Vincent Kuek, leukaemia research, childhood cancer, bone microenvironment, medical research, cancer treatment, personal experience, scientific journey, funding challenges, aspiring scientists

Summary:In this episode of WeScience, Dr. Vincent Kuek shares his journey from personal experiences with cancer to becoming a researcher focused on childhood leukaemia. He discusses the challenges of transitioning from bone biology to leukaemia research, the importance of understanding the disease, and the impact of personal experiences on his work. Dr. Kuek emphasises the need for better treatments and the role of the bone microenvironment in leukaemia. He also addresses the challenges of funding in medical research and offers advice for aspiring scientists.Keywords:Dr. Vincent Kuek, leukaemia research, childhood cancer, bone microenvironment, medical research, cancer treatment, personal experience, scientific journey, funding challenges, aspiring scientists

In this episode of WeScience, Professor Rakesh Veedu shares his inspiring journey from aspiring scientist to successful entrepreneur in the field of RNA therapeutics. He discusses his early motivations, academic challenges, and the pivotal role of mentorship in shaping his career. Professor Veedu elaborates on the founding of SynGenis and ProGenis Pharmaceuticals, highlighting the importance of RNA therapeutics in modern medicine. He addresses the challenges faced in drug development, the future of RNA therapies, and offers valuable advice for aspiring scientists and entrepreneurs.

Dr Carlos Aya-Bonilla, biomedical scientist and creator of WeScience share his goal and motivation to create WeScience, a safe platform built by a scientist for scientists across different fields of science ( biology, chemistry, genetics, physics, medicine etc...) in Australia and worldwide.

In this episode of WeScience, Professor Rakesh Veedu shares his inspiring journey from aspiring scientist to successful entrepreneur in the field of RNA therapeutics. He discusses his early motivations, academic challenges, and the pivotal role of mentorship in shaping his career. Professor Veedu elaborates on the founding of SynGenis and ProGenis Pharmaceuticals, highlighting the importance of RNA therapeutics in modern medicine. He addresses the challenges faced in drug development, the future of RNA therapies, and offers valuable advice for aspiring scientists and entrepreneurs.