🚀 At DIVERSA, we contribute to the training of people, investing in the enrichment of their professional careers, especially with our innovative technology. We want to introduce you to the talented people who have been and continue to be part of DIVERSA TECHNOLOGIES: - Laura Taina-González is finishing her industrial PhD. Her time at DIVERSA has been crucial in focusing her career on the field of gene therapy formulations, developing several projects in collaboration with significant groups worldwide. - Marcelina Abal Sanisidro carried out an industrial PhD stay at our facilities. During her time at DIVERSA, she not only applied our technology to her research, but also had the opportunity to learn about the internal work of a biotech company. - Mónica Escobar García-Caro completed her master's internship with us. At DIVERSA she had her first contact with nanotechnology, participating in several interesting projects that allowed her to understand and learn about our technology. ✨ We are proud to contribute to the professional growth of such brilliant and passionate people. At DIVERSA, we continue to invest in talent and innovation ✨ #DIVERSA #Nanotechnology #Innovation #ProfessionalDevelopment #TechCareers #Training
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Hello LinkedIn members !! I am glad to announce that recently I completed my Bversity Computational biology internship program,which was indeed a remarkable experience. The amount of knowledge and experience gained during this 5 days internship was extraordinary . While attaining first time at Bversity, they indeed have gained my trust. I will delineate the list of things that I learnt during this internship: 1)introduction to molecular cloning. 2)DNA database and analysis tools - annotate,align,digest,and translate sequences. 3)Basics of CRISPR CAS 9 Gene editing. 4)Guide RNA synthesis and validation. 5)Tools of gene editing . #bioinformatics #computationalbiology #science #research #bioengineering #biology #biologystudent #biotech #biotechnology #molecularbiology #SUJEETCHAUDHARY
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Biotech and Bioinformatics Scientist |Cancer Biology, Aptamer & Virology| Helping Research Community| Founder
Research Training, Internships, Dissertation and Projects 2024 📞 Contact us now at 91-8375990145 [email protected] or [email protected] #bioinformatics #NGS #omics #biotechnology #molecularbiology #training #project #internship #dissertation #biotech #biosciences #molelixirinformatics #cancer #CancerProject #cancerbiology #cancerresearch #biotech #Biochemistry
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Biotech and Bioinformatics Scientist |Cancer Biology, Aptamer & Virology| Helping Research Community| Founder
Research Training, Internships, Dissertation and Projects 2024 📞 Contact us now at 91-8375990145 [email protected] or [email protected] #bioinformatics #NGS #omics #training #project #internship #dissertation #biotech #biosciences #molelixirinformatics #cancer #CancerProject #cancerbiology #cancerresearch #biotech #Biochemistry #biotechnology #education #womeninscience
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Research Training, Internships, Dissertation and Projects 2024 📞 Contact us now at 91-8375990145 [email protected] or [email protected] #bioinformatics #NGS #omics #training #project #internship #dissertation #biotech #biosciences #molelixirinformatics #cancer #CancerProject #cancerbiology #cancerresearch #biotech #Biochemistry #biotechnology #womeninscience
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🧬 Aptamer Expert Insights 🧬 Exploring Different SELEX Techniques! 💡 🔬 Aptamers are short, single-stranded nucleic acids that can bind specifically to target molecules. SELEX (Systematic Evolution of Ligands by Exponential Enrichment) is a powerful technique used to select aptamers with high affinity and specificity. Let's dive into different SELEX techniques that have revolutionized the field of aptamer research! 🌟 💡 Classical SELEX: The original method involving iterative cycles of selection, binding, and amplification. 💡 Cell-SELEX: Using whole living cells as targets to select aptamers specifically binding to cell surfaces. 💡 Tissue-SELEX: Selecting aptamers capable of binding to tissue surfaces by using whole tissues as targets. 💡 PhotoSELEX: Incorporating photo-crosslinking to immobilize aptamer-target complexes for stringent washing steps. 💡 Capillary Electrophoresis: Separating aptamer-target complexes using capillary electrophoresis for efficient selection. 💡 Counter-SELEX: Introducing a counter-selection step using a negative target or decoy to remove unwanted aptamers. 💡 Regulated SELEX: Incorporating regulatory elements or ligands to modulate the binding affinity of aptamers. 💡 Genomics SELEX: Utilizing genomic DNA as a starting library, followed by in vitro transcription to generate RNA aptamers. 💡 In Vivo SELEX: Conducting selection inside living organisms to identify aptamers that bind targets in vivo. 💡 Automated (In silico) SELEX: Screen large nucleic acid libraries using computational algorithms and models. Stay tuned for more insights on aptamer research and its exciting applications! 🌐🔬✨ #AptamerResearch #SELEXTechniques #ScientificAdvancements #Biochemistry #MolecularBiology #ResearchUpdate #aptamer #SELEX #biotech #biopharma #eduommescientific #molelixirinformatics #Drjyotibala #research #training #internships Contact us: For Training, Internships and Colloboration 📧 Email: [email protected] or [email protected] 🌐 Website: https://lnkd.in/dMTwD8bA
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Biotech and Bioinformatics Scientist |Cancer Biology, Aptamer & Virology| Helping Research Community| Founder
🧬 Aptamer Expert Insights 🧬 Exploring Different SELEX Techniques! 💡 🔬 Aptamers are short, single-stranded nucleic acids that can bind specifically to target molecules. SELEX (Systematic Evolution of Ligands by Exponential Enrichment) is a powerful technique used to select aptamers with high affinity and specificity. Let's dive into different SELEX techniques that have revolutionized the field of aptamer research! 🌟 💡 Classical SELEX: The original method involving iterative cycles of selection, binding, and amplification. 💡 Cell-SELEX: Using whole living cells as targets to select aptamers specifically binding to cell surfaces. 💡 Tissue-SELEX: Selecting aptamers capable of binding to tissue surfaces by using whole tissues as targets. 💡 PhotoSELEX: Incorporating photo-crosslinking to immobilize aptamer-target complexes for stringent washing steps. 💡 Capillary Electrophoresis: Separating aptamer-target complexes using capillary electrophoresis for efficient selection. 💡 Counter-SELEX: Introducing a counter-selection step using a negative target or decoy to remove unwanted aptamers. 💡 Regulated SELEX: Incorporating regulatory elements or ligands to modulate the binding affinity of aptamers. 💡 Genomics SELEX: Utilizing genomic DNA as a starting library, followed by in vitro transcription to generate RNA aptamers. 💡 In Vivo SELEX: Conducting selection inside living organisms to identify aptamers that bind targets in vivo. 💡 Automated (In silico) SELEX: Screen large nucleic acid libraries using computational algorithms and models. Stay tuned for more insights on aptamer research and its exciting applications! 🌐🔬✨ #AptamerResearch #SELEXTechniques #ScientificAdvancements #Biochemistry #MolecularBiology #ResearchUpdate #aptamer #SELEX #biotech #biopharma #eduommescientific #molelixirinformatics #Drjyotibala #research #training #internships Contact us: For Training, Internships and Colloboration 📧 Email: [email protected] or [email protected] 🌐 Website: https://lnkd.in/dcMk8avY
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Biotech and Bioinformatics Scientist |Cancer Biology, Aptamer & Virology| Helping Research Community| Founder
🧬 Aptamer Expert Insights 🧬 Exploring Different SELEX Techniques! 💡 🔬 Aptamers are short, single-stranded nucleic acids that can bind specifically to target molecules. SELEX (Systematic Evolution of Ligands by Exponential Enrichment) is a powerful technique used to select aptamers with high affinity and specificity. Let's dive into different SELEX techniques that have revolutionized the field of aptamer research! 🌟 💡 Classical SELEX: The original method involving iterative cycles of selection, binding, and amplification. 💡 Cell-SELEX: Using whole living cells as targets to select aptamers specifically binding to cell surfaces. 💡 Tissue-SELEX: Selecting aptamers capable of binding to tissue surfaces by using whole tissues as targets. 💡 PhotoSELEX: Incorporating photo-crosslinking to immobilize aptamer-target complexes for stringent washing steps. 💡 Capillary Electrophoresis: Separating aptamer-target complexes using capillary electrophoresis for efficient selection. 💡 Counter-SELEX: Introducing a counter-selection step using a negative target or decoy to remove unwanted aptamers. 💡 Regulated SELEX: Incorporating regulatory elements or ligands to modulate the binding affinity of aptamers. 💡 Genomics SELEX: Utilizing genomic DNA as a starting library, followed by in vitro transcription to generate RNA aptamers. 💡 In Vivo SELEX: Conducting selection inside living organisms to identify aptamers that bind targets in vivo. 💡 Automated (In silico) SELEX: Screen large nucleic acid libraries using computational algorithms and models. Stay tuned for more insights on aptamer research and its exciting applications! 🌐🔬✨ #AptamerResearch #SELEXTechniques #ScientificAdvancements #Biochemistry #MolecularBiology #ResearchUpdate #aptamer #SELEX #biotech #biopharma #eduommescientific #molelixirinformatics #Drjyotibala #research #training #internships Contact us: For Training, Internships and Colloboration 📧 Email: [email protected] or [email protected] 🌐 Website: https://lnkd.in/dcMk8avY
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Next SRP feature: Abdullah Naqvi, a rising senior in biotechnology at The City College of New York York. Mentored by Drs. Lingting Shi and Elham Azizi, Abdullah’s research focuses on tumor-immune interactions in glioblastoma to enhance immunotherapy. Abdullah also enjoys playing soccer. Read the full interview: https://bit.ly/4b218L5 #ColumbiaUniversity #CancerResearch #biology #biotechnology #genomics #BiomedicalEngineering #internship #SummerResearchProgram Columbia University Biomedical Engineering
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DNA SEQUENCING DNA sequencing refers to the general laboratory technique for determining the exact sequence of nucleotides, or bases, in a DNA molecule. The sequence of the bases (often referred to by the first letters of their chemical names: A, T, C, and G) encodes the biological information that cells use to develop and operate. Establishing the sequence of DNA is key to understanding the function of genes and other parts of the genome. There are now several different methods available for DNA sequencing, each with its own characteristics, and the development of additional methods represents an active area of #genomics #research. National Human Genome Research Institute (NHGRI) #biotechnology #bioinformatics #linkedin #researchanddevelopment #research #internship #innovation #leadership #summerinternship #opentowork #career #jobs #hiring #technology #training #networking #entrepreneurship #neuroscience
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Research Training, Internships, Dissertation and Projects 2024 📞 Contact us now at 91-8375990145 [email protected] or [email protected] #bioinformatics #NGS #omics #biotechnology #molecularbiology #training #project #internship #dissertation #biotech #biosciences #molelixirinformatics #cancer #CancerProject #cancerbiology #cancerresearch #biotech #Biochemistry
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