Introducing our new growth factor discovery kits to help cellular agriculture research. • Explore our FGF-2 species-specific kit for rapid testing across multiple species to replace human proteins in cell-cultivated meat, also including species-specific thermostable FGF-2. • Compare wild-type FGF-2 with thermostable FGF2, FGF2-G3, to determine whether the short half-life of FGF-2 is impacting cell fate in your culture. • Test our growth factor discovery kits for B8 and Beefy-9 media to compare efficiency and maintenance using thermostable FGF2 with standard media, while also giving you weekends off from changing media. • Elevate your research with our serum-free media optimization kit, containing 7 growth factors to fully define your media and streamline your serum-free transition. Explore all our discovery kits here - https://zurl.co/5BEv #GrowthFactors #AnimalFree #CellularAgriculture #CultivatedMeat
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#Crop_pathology plays a crucial role in #agricultural_sector by helping to diagnose, monitor, and manage plant diseases. Through studying the causes, development and spread of plant pathogens, crop pathologists contribute to the #prevention_and_control_of_diseases that can devastate crop yields and quality. In the laboratory, crop pathology enables the identification and characterization of pathogens through techniques such as microscopy, culturing, and molecular assays. This information is essential for farmers and agricultural stakeholders to make informed decisions about #disease_management strategies, including the selection of resistant crop varieties and application of fungicides or other control measures. Additionally, research conducted in crop pathology laboratories advances our understanding of #plant_pathogen interactions, leading to the development of innovative solutions for sustainable crop production and food security in the face of evolving disease threats and environmental challenges. Overall, #crop_pathology_laboratories play a critical role in safeguarding agricultural productivity, profitability, and resilience against plant diseases.
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What if #proteomics could pinpoint not just quality but longevity and resilience - how might this insight shape your approach to sustainability? 🌍 A recent study dives into the molecular mechanisms behind egg quality deterioration in #pikeperch—a critical area for #aquaculture. Through advanced proteomics, researchers identified the first protein markers associated with egg viability, potentially transforming how the industry assesses and optimizes reproductive health in fish farming. Key takeaways: 💡 Four protein biomarkers identified: These markers impact essential processes like DNA replication and protein folding, affecting fertilization and larval development. 💡 Implications for aquaculture: These findings underscore the importance of precise timing in egg collection to maximize #fertilization rates, ensuring higher-quality yield and improving sustainability in aquaculture operations. 💡 Wider applications: This research shows how proteomics can reveal hidden quality indicators, with potential applications in other points of the supply chain that rely on early-stage quality assessments. By harnessing the power of proteomics, the aquaculture industry can strive towards greater #sustainability and #productivity. For the full article: https://lnkd.in/d_3FcMTt #fishhealth #fishfarming #biotech
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Every decision we make holds tremendous significance in our relentless pursuit to deliver value to farmers. By integrating soil biology data with nitrogen fertility product placement, TraceN empowers growers, agronomists, and consultants like never before. Read more about the importance of soil management and how Trace Genomics is changing the game. https://bit.ly/494w4cH #Agriculture #Innovation #Sustainability #TraceGenomics
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"🌾 The future of farming is being rewritten—one gene at a time! 🚀 Agritech companies are on the hunt for innovators who can blend science, technology, and strategy to revolutionize agriculture. From CRISPR and gene editing to mastering data-driven insights and sustainability, the demand for cutting-edge skills has never been higher. Which skill do YOU think will lead the next big agricultural breakthrough? 🌱 💬 Drop your thoughts below and join the conversation shaping tomorrow’s food systems! 👇 #Agritech #PlantBreeding #Genomics #FarmingInnovation"
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#analyticalchemistry news In the constantly evolving field of #chemistry, groundbreaking advancements are paving the way for more sophisticated analytical methods. Today, we're exploring a new scientific breakthrough in the sensitive detection of Classical Swine Fever Virus, CSFV, using the cutting-edge DNAzyme-HCR cascade amplification technique. This innovative approach, detailed in the journal Analytical Methods, was crafted by a team of brilliant scientists committed to enhancing #analyticaltechniques. Their research unfolds a method that harnesses the power of DNAzymes and hybridisation chain reaction, HCR, to achieve exceptionally high sensitivity and selectivity in detecting CSFV, a virus with significant implications in the agricultural sector. The significance of this research lies in its potential to provide rapid, reliable diagnostics for CSFV, crucial for controlling outbreaks that can devastate swine populations and impact global trade. This method stands out not only for its analytical precision but also for its potential application in various earthbound challenges, from safeguarding livestock health to ensuring food security—a testament to the far-reaching benefits of advancements in #analytical #chemistry. By employing this technique, researchers aim to equip the agricultural industry with more robust tools for virus detection, ultimately supporting more sustainable and secure farming practices. It's a striking example of how innovations in the #chemistry realm can extend their impact beyond the lab, offering tangible benefits to our everyday lives. For those keen to dive deeper into this fascinating study and its implications, I highly recommend reading the full article. Understanding and leveraging these advancements can empower industries and individuals alike to face viral challenges with resilience and efficacy. #DNAzyme #HCR #CSFV #analyticalmethods #scientificinnovation #viraldiagnostics #foodsecurity, If you want to know more about #analyticalchemistry news, follow me: https://lnkd.in/d29pbjb9
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Have you heard? Scientists at Iowa State University have identified the gene ZmPILS6 as a key transporter of the hormone auxin, which influences corn size. This breakthrough opens the door to developing resilient, high-yield dwarf corn varieties. The research, published in PNAS, shows how ZmPILS6 controls plant growth, offering new possibilities for sustainable agriculture. How do you think this discovery will effect future crops? Read More: https://lnkd.in/eufdTQUt #AgInnovation #CornResearch #SustainableFarming #PlantBreeding #ISUResearch #AgricultureScience
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🌟 New genomic techniques (NGTs), are poised to transform agriculture. But how do consumers feel about these innovations? In this summary post, we highlight key insights from a comprehensive analysis of global perspectives on gene editing in agriculture, drawn from 34 studies. The findings reveal trends in consumer awareness and trust, as well as the cost-effective potential of gene-edited crops for addressing food security and sustainability. Swipe through for the highlights! 👉 Read the full review here: 🔹 https://lnkd.in/dMKSgffa 🔹 https://lnkd.in/dZZhem_W (open access manuscript version) #NGTs #AgricultureInnovation #PlantBreeding
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🌿 Advancing Disease Management: Artificial Inoculation of Tar Spot 🌾 🔬 #TeamBayer researchers have achieved a significant breakthrough by artificially inoculating tar spot in field test plots, paving the way for deeper insights into disease management. This development holds promise for advancing genetic and crop protection research, crucial for mitigating the impact of this pathogen on crop yield. By creating controlled field conditions and inducing tar spot, researchers can now study the environmental and genetic responses to the disease, accelerating the identification of new corn hybrids with enhanced tar spot tolerance. This pioneering approach represents a game-changer for farmers, offering the potential to integrate native tar spot tolerance into North American hybrids and enhancing screening and identification of tolerant corn germplasm. 🌽 How do you think this advancement will impact our ability to protect crops and ensure food security? 🌱🔬 Learn more about this groundbreaking research at No-Till Farmer: https://lnkd.in/gXi_CGsw #CropProtection #Innovation #DiseaseManagement 🌱
Understanding Tar Spot
bayer.dsmn8.com
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Despite all the advanced management measures, Plant diseases still stands out as a major factor that accounts for profound crop losses, both on-field and post-harvest. Early detection and accurate diagnosis of plant diseases is the most crucial approach to minimize crop loss, enhance productivity and to ensure sustainability in agriculture production. Our book chapter on 'Modern Molecular tools for diagnostics of Plant Pathogens' elaborates on some of the advanced diagnostics assays for plant pathogens. Please follow the link to the chapter https://lnkd.in/gewjg7Ac #planthealth #diseasedetection #plantpathology #moleculardiagnostics
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⏰ The #deadline for the #specialissue: "Genetic Diversity Assessment and Phenotypic Characterization of Crops" has been extended till 31 March 2025. Guest Editors: Prof. Dr. Andrijana Rebekić and Dr. Ankica Kondić-Špika 👇 More Info: https://lnkd.in/giyq7sqm #geneticdiversity #genomicanalysis #phenotypicdiversity #high_throughputphenotyping #cropimprovement #cropadaptation #cropresilience #nutritionalquality #bigdataanalysis #bioinformatics
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