GC Therapeutics’ Post

Do you have an incredible image or video from one of your recent papers? Are you optimising a technique and want to showcase a piece of equipment you are using? Or perhaps your research involves going to a field site to collect samples?    To provide more visual content on the Node, we are starting a new series called ‘Show and Tell’. The aim of these short posts is to act as a hook for people to find out more about a paper, a technique or a location that is of interest to the developmental and stem cell biology community.    Check out the ‘Show and tell’ posts and consider writing one yourself:  https://lnkd.in/eABYYqs3  

PhD and Postdoc Positions Theory of mechano-genetic interactions in stem cell aggregates

I recently completed the "Science of Stem Cells" course on Coursera. This fascinating journey delved deep into the world of stem cell research and its potential applications in medicine and beyond. Throughout the course, I gained a comprehensive understanding of the biology of stem cells, their therapeutic potential, and the ethical considerations surrounding their use. Learning about the latest advancements in regenerative medicine has been truly inspiring. Through this course, I have acquired skills such as Stem Cell Characterization, Cell Culture and Maintenance, Experimental Design and Data Analysis. This course has not only expanded my knowledge but also empowered me with practical skills that I can apply in my research and beyond.

Recently I completed posting of 50 (FIFTY) #Science #researchpapers on  LinkedIn. So I should give a list of these papers. Due to SPACE LIMITATION I will complete this list in MULTIPLE POSTS. (PARTIAL) List-III:- (will be continued) B) AUTHOR wise MOST CITED #researchpapers:- 11) 'Detection of Specific Sequences Among DNA Fragments Separated by Gel Electrophoresis' (Southern 1975; 39,852 times cited to date) by English #biologist Sir EDWIN MELLOR SOUTHERN. 12) 'On random graphs I.' (22,008 times cited to date) by Hungarian  #mathematician PAUL ERDOS and another Hungarian #mathematician  ALFRED RENYI. #mathematics #maths #math #mathworks #graphtheory #graphs 13) 'Embryonic stem cell lines derived from human blastocysts' (Thomson et al. 1998; Cited 21,096 times to date) by American developmental biologist JAMES ALEXANDER THOMSON. 14) 'Apoptosis: A Review of Programmed Cell Death' (Cited by 16,109 till now) by SUSAN ELMORE. 15) 'The #evolution of Reciprocal Altruism'(1971) (Paper 16,091 times Cited to date) by American evolutionary biologist ROBERT LUDLOW "BOB" TRIVERS. #EvolutionaryBiology #Evolution 16) 'An index to quantify an individual's scientific research output' (2005) (14,498 times cited till now) by Argentine American Professor of Physics at UC San Diego & INVENTOR of h-index JORGE EDUARDO HIRSCH. 17) 'Induced pluripotent stem cell lines derived from human somatic cells' (Yu et al. 2007; 12,930 times cited till now) by  IGOR SLUKVIN, RON STEWART, SHULAN TIAN and American developmental biologist JAMES ALEXANDER THOMSON and others. #stemcells #iPSCs #cellbiology #stemcell 18)'Stem cells, cancer, and cancer stem cells' (Reya et al. 2001, Cited by 12,801 till now) by IRVING WEISSMAN Sir and Tannishtha Reya Ma'am.  19) 'Why Most Published Research Findings Are False' (Paper cited by 12,794 till now) by JOHN P.A. IOANNIDIS, Professor at Stanford University, Stanford University School of Medicine. 20) 'The FAIR Guiding Principles for scientific data management and stewardship' (Wilkinson et al. 2016; 12,156 times cited to date).

#hiring Postdoctoral Positions & Research Associate Positions on Neurodegenerative, Cleveland, United States, fulltime #jobs #jobseekers #careers #Clevelandjobs #Ohiojobs #HealthcareMedical Apply: https://lnkd.in/g68nZ8rg Postdoc positions and Research Associate Positions are available in the Qi lab in the Department of Physiology & Biophysics at Case Western Reserve University School of Medicine. The lab studies cellular and molecular mechanisms of neurodegenerative diseases, emphasizing mitochondrial pathology, metabolism, and immune response. We use a combination of in vitro cell culture, in vivo transgenic animal models and patient iPS cells-derived neuron and glia to study the pathogenesis underlying neurodegenerative diseases. Another research focus of the lab is the development of therapeutics for the treatment of human diseases. We have been using the rationally designed peptide inhibitors of protein-protein interactions and high throughput screening to identify mitochondrial enhancers as therapeutic options.

🔬🎓 Thrilled to announce the completion of my Masters in Stem Cells and Regenerative Medicine with Merit at Aston University! 👩🔬🧬 Embarking on this journey at Aston University has been nothing short of exhilarating. From delving deep into Cell and Molecular Biology to exploring the intricacies of Tissue Regeneration and Age in Regenerative Medicine, every subject has been a stepping stone toward a greater understanding of the potential applications of stem cells. My capstone research project on "Identifying Novel Aquaporin 9 Inhibitors" was a fascinating exploration into potential avenues for therapeutic interventions. This experience honed my laboratory competencies and deepened my understanding of applied biotechnology in the realm of cellular differentiation. Beyond the academic rigors, the program also emphasized the importance of professional development and effective research communication skills. These aspects have not only enriched my academic journey but also prepared me for seamless integration into the professional landscape of stem cell research and regenerative therapies. A huge shoutout to the incredible faculty whose guidance has been instrumental in shaping my perspective and fostering my passion for this field. The support and camaraderie of my peers have been invaluable, creating an environment conducive to learning and growth. Armed with this enriched knowledge base and hands-on laboratory skills, I'm excited to transition into the next phase of my career. My goal is to contribute meaningfully to the advancement of regenerative medicine, leveraging my expertise in identifying potential therapeutic targets like aquaporin 9. I am actively seeking opportunities to apply my skills and contribute to innovative research initiatives or within biotechnology companies passionate about driving progress in this field. Let's connect and explore how my background in Stem Cells and Regenerative Medicine can align with your organization's vision! #StemCells #RegenerativeMedicine #MastersGraduate #Biotechnology #Research #Aquaporin9 #TherapeuticTargets #AstonUniversity

🔬🌱 Enthusiastic about research in fileds of Protein Interaction, Cancer Biology, Molecular Biophysics, Biology and Bioinformatics🔬🌱 I am thrilled to announce that I am actively seeking new opportunities in the realm of PhD positions! As an enthusiastic researcher, I am driven by my insatiable curiosity and desire to unravel the mysteries of cancer biology. Throughout my academic journey, I have developed a strong foundation in various scientific disciplines, including bioinformatics, drug delivery, protein interaction and biophysics. These diverse areas of study have allowed me to gain a comprehensive understanding of the complex mechanisms underlying cancer development and progression. During my studies, I have been particularly intrigued by the interplay between bioinformatics and drug delivery. The utilization of computational methods to analyze vast biological datasets and uncover potential drug targets holds immense promise in revolutionizing cancer treatment. By leveraging my expertise in biophysics and bioinformatics, I aim to bridge the gap between these two fields and contribute to the development of more effective and personalized therapies. If you know of any PhD positions or research opportunities that align with my interests, please do not hesitate to reach out to me. I am open to exploring collaborations, partnerships, or discussions on potential research avenues. Let's work together to advance the frontiers of cancer research and bring hope to millions of lives affected by this devastating disease. Please feel free to connect with me on LinkedIn or contact me via email at [[email protected]]. I look forward to engaging with fellow researchers, mentors, and industry professionals who share my enthusiasm for these fields. #PhDPosition #Protein #CancerBiology #Bioinformatics #DrugDelivery #Biophysics #ResearchOpportunities #ConnectingResearchers

#bookChapter#Computational Biology for Stem Cell Research#Computational analysis in epithelial tissueregeneration

#hiring Postdoctoral Positions & Research Associate Positions on Neurodegenerative, Cleveland, United States, fulltime #jobs #jobseekers #careers #Clevelandjobs #Ohiojobs #HealthcareMedical Apply: https://lnkd.in/gG365YN8 Postdoc positions and Research Associate Positions are available in the Qi lab in the Department of Physiology & Biophysics at Case Western Reserve University School of Medicine. The lab studies cellular and molecular mechanisms of neurodegenerative diseases, emphasizing mitochondrial pathology, metabolism, and immune response. We use a combination of in vitro cell culture, in vivo transgenic animal models and patient iPS cells-derived neuron and glia to study the pathogenesis underlying neurodegenerative diseases. Another research focus of the lab is the development of therapeutics for the treatment of human diseases. We have been using the rationally designed peptide inhibitors of protein-protein interactions and high throughput screening to identify mitochondrial enhancers as therapeutic options.