Don't miss out on the July Nucleic Acid Insights issue! In this month's edition, we explore nonclinical tools and technologies being employed in the clinical translation of #mRNAtherapeutics, and investigate the key challenge of enhancing the stability of #nucleicaciddrugs in vivo. View below:
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Don't miss out on the July Nucleic Acid Insights issue! In this month's edition, we explore nonclinical tools and technologies being employed in the clinical translation of #mRNAtherapeutics, and investigate the key challenge of enhancing the stability of #nucleicaciddrugs in vivo. View below:
Vol 1 Issue 6
insights.bio
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Collaboration with students on a new research paper. Disruption of E-Cadherin by Matrix Metalloproteinase Directly Mediates Epithelial-Mesenchymal Transition Downstream of Transforming Growth Factor-β1 in Renal Tubular Epithelial Cells
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Unlock Molecular Insights with TR-FRET! 🔬 Time-Resolved FRET (TR-FRET) is revolutionising life sciences research by allowing precise molecular interaction studies with minimal interference. Perfect for high-throughput settings like drug discovery, TR-FRET delivers high sensitivity with small sample volumes—ideal for precious biological materials. Plus, its lanthanide donors resist photobleaching, providing stable signals for consistent, long-lasting data. Whether it's protein interactions, enzyme activity, or receptor-ligand binding, TR-FRET is empowering researchers to explore complex biochemical events with unmatched accuracy and efficiency. #LifeSciences #Biochemistry https://buff.ly/4esavFI
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We are thrilled to share our latest publication in the 2024 Nucleic Acids Research Database Issue: Sanfelice D, Antolin AA, Crisp A, Chen Y, Bellenie B, Brennan PE, Edwards A, Müller S, Al-Lazikani B, Workman P. The Chemical Probes Portal - 2024: update on this public resource to support best-practice selection and use of small molecules in biomedical research. This update highlights: 📌 Much-expanded content 📌 Enhanced, user-friendly functionality Explore the latest improvements to this critical resource for biomedical research and best practices in small molecule selection. 📖 Read the publication here: https://lnkd.in/epidCwPv We hope you find it valuable—please read, share, and cite! #ChemicalProbes #DrugDiscovery #OpenScience #NAR2024
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Call for Paper! Together with Prof. Dr. Suely Vilela and assisted by Prof. Dr. Chariston Dal Belo, I am excited to share as Guest Editor the Special Issue "Molecular Toxicity Research of Biological Venoms" in the International Journal of Molecular Sciences MDPI. This Special Issue seeks contributions on the potential of #venom-derived compounds as therapeutic agents or pharmacological tools, including their #antitumor, #antimicrobial and #insecticidal activities. To read more information about this Special Issue and submit your paper, please visit the link: https://lnkd.in/dPuCBKZB
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For those with a long weekend, or those who want to catch up on the latest research on your down time, check out the latest issues of SLAS Discovery (https://lnkd.in/e8dzqzhx) and SLAS Technology (https://lnkd.in/g_qtDpny). Explore research on phenotypic screening, molecular glues, acoustic ejection mass spectrometry and more.
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I'm thrilled to share our latest bioconjugation paper, helmed by Andres Rocha Tapia and Fabrice Abgottspon, now published in Chemical Science (one of my favourite journals!). Andres and Fabrice were fantastic throughout this project and I could not have asked anymore of them. I feel very privileged to have worked with them on this and know the work would not have been possible without them. This work demonstrates the superiority of site-directed conjugation approaches vs traditional non-selective chemistries for constructing affinity protein–ssDNA conjugates. We show that conjugates constructed from the site-selective chemistries display improved specific target binding and decreased non-specific binding, including for cell membrane targets. We hope this work can convince others to take a more considered approach when constructing affinity protein–ssDNA conjugates, particularly for analytical applications such as immunoPCR and proximity ligation/extension assays (PLA/PEA). I want to take this opportunity to thank Per-Åke Nygren and Johan Nilvebrant for their help with the SPR, and Vijay Chudasama for help on the bioconjugation. Our extended discussions were instrumental in getting this project off the ground. I would also like to thank Ioanna Thanassi, Peter Szijj, Andres Javier Bello Hernandez, Ghali Sekkat, François Cuenot, Sarah DUCLOS IVETICH, Nicola Aceto, and, of course, Andrew deMello, for making this possible. https://lnkd.in/dmUTzaTW
Site-directed conjugation of single-stranded DNA to affinity proteins: quantifying the importance of conjugation strategy
pubs.rsc.org
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Available for #License: Emory University researchers have created a collagen substitute using synthesized collagen-mimetic peptides (CMPs) to overcome contamination and immunogenicity issues in traditional animal-sourced #collagen. The #peptides form stable triple helices and, under specific conditions, assemble into nanotubes with defined inner and outer surfaces based on their peptide sequences. Developed by Vincent Conticello, Andrea Merg, and Gavin Touponse. For more on this technology, read our tech brief: https://lnkd.in/e-dvtkRm
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🧬 Understanding these regulatory mechanisms could aid in designing custom regulatory circuits for industrial and medical uses. The #research, led by Pavlina Rezacova from IOCB Prague, with Markéta Šoltysová as the first author, provided new insights into #bacterial #gene_regulation, and was published in Nucleic Acids Research. 📜 Read the paper: Šoltysová, M.; Škerlová, J.; Pachl, P.; Škubník, K.; Fábry, M.; Sieglová, I.; Farolfi, M.; Grishkovskaya, I.; Babiak, M.; Nováček, J.; Krásný, L.; Řezáčová, P. Structural characterization of two prototypical repressors of SorC family reveals tetrameric assemblies on DNA and mechanism of function. Nucleic Acids Res. 2024, gkae434. https://lnkd.in/dpwMNh4X ⤵️ See more ► https://lnkd.in/d-EsbnEU ⤵
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Conventional solid-based SERS substrates often face challenges with inconsistent sample distribution, while liquid-based SERS substrates are prone to aggregation and precipitation, resulting in irreproducible signals in both cases. In a collaborative study with Dr. Zhang in Lanzhou University, we tackled this dilemma by designing and synthesising raspberry-like plasmonic nanoaggregates that exhibit a high density of hotspots and are colloidally stable at the same time, allowing ultrasensitive detection of pollutants and biomarkers at trace concentrations. Our work has been published in Anal. Chem. https://lnkd.in/eBMPfrDH
Raspberry-Like Plasmonic Nanoaggregates with Programmable Hierarchical Structures for Reproducible SERS Detection of Wastewater Pollutants and Biomarkers
pubs.acs.org
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