Genetic tuning is a unique modality of genetic medicine enabled by cutting-edge advances in gene regulation. The resultant technology enables exquisite levels of control over gene activity – activating, silencing, or fine-tuning the output of specific genes to reverse cellular dysfunction and disease. Let’s explore the science behind genetic tuning and how it will change the game when it comes to the treatment of common and chronic diseases. #GeneticTuning #Epigenetics #TuneTx
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🔊 Latest news! 🧬Improved gene editing method for mitochondrial genetic diseases Korea University scientists have overcome a significant gene editing limitation, improving the technology for mitochondrial genetic diseases. They have developed the world’s first animal model with A-to-G mtDNA edits achieved using engineered TALEDs. These findings could lead to more precise and transformative treatments. Click on the link in the comments to read more!👇 #geneediting #mtDNA #TALEDs
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Recruiting Internet of Things, IIoT, Real-Time, Embedded, Cyber / Mobile / Network Security, Telematics and High Performance Computing technical and sales professionals
Targeted Genome Editor Delivery Challenge: Gene editing holds the promise to treat genetic diseases at the source by correcting the faulty genetic patterns within our cells. The National Institutes of Health (NIH) has launched the TARGETED (Targeted Genome Editor Delivery) Challenge to advance genome editing technology by sourcing innovative solutions for delivering genome editors to somatic cells. The Challenge is […]
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Exploring the complexities of gene expression, recent studies highlight challenges in accurately modeling the impact of cis-regulatory genetic variants on individual variation. Meanwhile, advancements in deep learning and comprehensive genomic datasets are proving successful in predicting gene expression, 3D genome folding, and various epigenetic features from reference genomes, signifying an important advance in understanding genetic regulation." #Genomics #DeepLearning #GeneExpression
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Hearing Loss is very prevalent and estimated that 1-2 in every 1000 children suffer from hearing loss at birth, significantly contributed by genetic defects in over a dozen genes. Researchers from China report a gene therapy with early promising results. Dr. RAHUL C. BHOYAR and I write in The Hindu #PrecisionMedicine #GeneTherapy #Genomics #GeneticDisease Karkinos Healthcare #Genomics4Everyone #Genomics4All #RareDisease #HearingLoss Read the full text here https://lnkd.in/gxRzKR5y
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Hearing Loss is very prevalent and estimated that 1-2 in every 1000 children suffer from hearing loss at birth, significantly contributed by genetic defects in over a dozen genes. Researchers from China report a gene therapy with early promising results which can offer a hope for sound future to the patients. #GeneTherapy #HearingLoss #Genetics #NewbornScreening #GeneticDisease #Genomics4Everyone #Genomics4All #PrecisionMedicine Read the full text here https://lnkd.in/gymrgZ8f
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#dna Methylation-directed regulatory networks determine enhancing and silencing of mutation disease driver genes and explain inter-patient expression variation tks for sharing #Dianox
DNA methylation of gene silencers sheds light on disease variation. Researchers have uncovered groundbreaking insights into gene regulation, focusing on DNA methylation's impact on diseases like glioblastoma. Led by Professor Asaf Hellman, the team identified intricate interactions between enhancers and silencers, offering potential for targeted therapies. High-resolution mapping and mathematical modeling provide essential tools for understanding genetic disease complexities. This research marks a major genomics advancement, promising personalized medicine possibilities and deeper insights into genetic diseases. Read more: https://lnkd.in/ddKg8y23 #dna #genetherapy #medicine #biology #lifescience
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In clinical genetics, Genetically Modified Organisms (GMOs) refer to organisms whose genetic material has been artificially altered. These modifications are typically employed for research or therapeutic purposes. In clinical settings, GMOs may serve as vectors for gene therapy, aid in disease modeling, or act as research models to understand the genetic basis of diseases. By utilizing GMOs, researchers aim to advance the understanding of genetic disorders and develop novel treatments for patients. #ClinicalGenetics #GeneticResearch #GeneTherapy #GMOsInHealthcare #GeneticEngineering #TherapeuticGenetics #DiseaseModeling
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DNA methylation of gene silencers sheds light on disease variation. Researchers have uncovered groundbreaking insights into gene regulation, focusing on DNA methylation's impact on diseases like glioblastoma. Led by Professor Asaf Hellman, the team identified intricate interactions between enhancers and silencers, offering potential for targeted therapies. High-resolution mapping and mathematical modeling provide essential tools for understanding genetic disease complexities. This research marks a major genomics advancement, promising personalized medicine possibilities and deeper insights into genetic diseases. Read more: https://lnkd.in/ddKg8y23 #dna #genetherapy #medicine #biology #lifescience
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Entrepreneurial Scientist in Food and Wellness | Championing Healthier Eating Habits with 1,000 Edible Plants | Author and Educator of the Path to Nobel series for STEM for Youth
Excited to share my latest article on how CRISPR technology is revolutionizing the treatment of genetic diseases. By precisely editing DNA, CRISPR offers hope for curing conditions like sickle cell anemia, marking a new era in medicine. The future of gene editing is bright, with the potential to transform healthcare and provide cures for previously untreatable diseases. Check out the full article to explore how these advancements are reshaping the landscape of genetic medicine. #GeneEditing #CRISPR #HealthcareInnovation #Biotechnology #Genetics #MedicalResearch #FutureOfMedicine" To read more - https://lnkd.in/eJFr3uiv
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