BLUUMBIO’s Post

🦠 Discover our Strain Development Services! 🦠 Whether it’s optimizing biomass production or overproducing proteins, our expertise in Molecular Biology ensures we can redefine your transformation vector for maximum performance. 🔬 𝗧𝗮𝗶𝗹𝗼𝗿𝗲𝗱 𝗦𝗼𝗹𝘂𝘁𝗶𝗼𝗻𝘀 Designed to meet your unique bioprocessing needs 🧬 𝗩𝗲𝗿𝘀𝗮𝘁𝗶𝗹𝗲 𝗣𝗹𝗮𝘁𝗳𝗼𝗿𝗺𝘀 – From bacteria to yeast, we've got the right system 📈 𝗠𝗮𝘅𝗶𝗺𝗶𝘇𝗲 𝗘𝗳𝗳𝗶𝗰𝗶𝗲𝗻𝗰𝘆 – Drive higher yields with our precise optimization techniques Ready to take your bioprocess to the next level? Let's work together to unlock the full potential of your microbial hosts. Contact us today! #BDIbiotech #StrainDevelopment #BiotechSolutions #Innovation 

The HIGFLY project´s Final Conference is fast approaching! ⬇⬇ 📅 20th September 2024 🌍 Eindhoven, The Netherlands 📍 Eindhoven University of Technology 👲 In-person event 📝Register at https://lnkd.in/e7grnbaz The symposium will highlight the most important achievements in the HIGFLY project, covering such topics as #biofuel process intensification and technology development; #catalysis development for bio-products; and #sustainableaviationfuel technologies. There will also be a series of plenary talks by eminent scientists who will discuss their research in areas such as the energy and material transition for a #bioeconomy; #biorefineries; #biochemicals; and new processes for C5 sugar and lignin extraction. If you would like to attend the event, you can register here 👉 https://lnkd.in/exCzMWag #horizoneu #greenchemistry #saf #conference #dissemination

The publication from our research group, titled "Effect of Biofilm Thickness on the Activity and Community Composition of Phosphorus Accumulating Bacteria in a Moving Bed Biofilm Reactor" is available at this link: https://lnkd.in/en4PE6Ki. Delving into our investigation, we explored the impact of biofilm thickness on PAO activity and observed dynamic changes in microbial communities as they adapt to different biofilm thicknesses. Our findings highlight higher volumetric P removal rates in biofilm-based systems compared to conventional ones. This research has been published in Water Research (Impact Factor: 13.4).

Researchers used #CRISPR to enhance the adsorption capacity of carbon materials made from paper mulberry, a fast-growing tree valued for its ecological, economic, and medicinal benefits. Paper mulberry generates large amounts of lignocellulosic biomass from pruning waste, ideal for producing high-value carbon materials. By editing the F5H gene, researchers improved the properties of these carbon materials, supporting the development of valuable products from other woody plants and advancing #bioengineering and #materialscience. Read more @Horticulture Research: https://shorturl.at/WgcLI

BREAKING NEWS! Article just published on the PHA production from eco-responsible and ethically acceptable carbon sources 👉 Biosynthesis processes were carried out with microalgae-derived starch glucose. 👉 And levulinic acid was used to modulate the PHBHV copolymer composition for which the elongation at break can reach more than 700%! 🌍 Study conducted as part of the nenu2PHAr project funded by Circular Bio-based Europe Joint Undertaking (CBE JU). 👍 Fruitful collaboration between IRDL - UMR CNRS 6027/UBS/ENSTA-Bretagne/ENIB/UBO Université Bretagne Sud and CEA (Jean-Francois (Jef) Sassi, Pablo Alvarez). Bioeconomy For Change (Chloé Joly, Marine Bellon) #PHA #microalgae #sustainable #bioplastics #biobased #biodegradable #innovation

🌟 Excited to share the Issue Cover of Bioengineering, Volume 10 Issue 10: Potential of Porous Substrate Bioreactors for Removal of Pollutants from Wastewater Using Microalgae. 🥼 This paper is authored by Dora Allegra Carbone and Michael Melkonian. 💡 Porous substrate bioreactors (PSBRs) are a new technology to grow microalgae immobilized in a dense culture and solve some problems linked to suspended cultivation. The aim of this short review is to introduce the PSBR technology, summarize the results obtained in removing some pollutants from wastewater, provide an assessment of the potential of PSBRs for wastewater treatment, and the subsequent use of the algal biomass for other purposes. Welcome to view this paper here👉 : https://lnkd.in/giAZFf6K. #microalgae #wastewater #bioreactor #pollutants_removal #mass_cultivation

TerraStryke Products wishes all the best as 2025 begins. We also wish Biostimulation, the next generation of bioremediation, begins to gain its proper recognition. Biostimulation alone harnesses 4-1/2 billion years of Natures' experience of degrading organic compounds (contaminants) by allowing indigenous microbes to utilize petroleum hydrocarbons and/or organo-halides as energy; sustainably, completely and with minimal impacts, all 30-50% lower costs. To learn about Quorum Sensing and Signaling, microbial dormancy, biofilm and microbiome growth, and more information about this industry revolutionary so that you too understand, without them and QSS, you are spending too much money! -https://lnkd.in/gppcmyrZ TerraStryke Products LLC (603) 731-3159 (802) 488-3330

Rightly so, microplastics are at the forefront of discussions around fossil-based plastics and alternatives like bioplastics and PLA. This particular meta-study, conducted by Hydra Marine Sciences, drew from an initial scan of over 30,000 reports, of which 500 were identified by HYDRA as relevant and of sufficient quality for deeper review. From this evaluation, they concluded that in the presence of water or humidity, the bioplastic polylactic acid (PLA) will fully hydrolyze, and no persistent nano- or microplastics will remain or accumulate in the environment. 🟢 Executive Brief: https://lnkd.in/gFivyDQt 🟢 Technical Report: https://lnkd.in/gEHxXePk In this instance, a meta-study looking across a broad range of literature is particularly useful. If we set up too narrow boundary conditions when conducting experiments around the intersection of materials and the environment, it's easy to lose track of a larger, more complex reality. Products made from bioplastics are not uniform, and neither is the environment. Therefore, understanding that there are underlying processes that will reduce the persistence and impact of biodegradable plastics like PLA if it does enter the environment helps us to make thoughtful choices as we phase out fossil-based plastics with safer, fully biobased alternatives. #microplastics #bioplastics #PLA

New Paper Alert The study focused on optimizing biomethane yield from alkali-pretreated groundnut shells using advanced hybrid models. The developed hybrid model significantly outperformed others, demonstrating better accuracy and efficiency across various metrics. This optimization enhanced the economic viability and environmental benefits of anaerobic digestion technology. https://lnkd.in/dTZE9k3M