From nano at chalmers.se Tue Nov 28 09:14:50 2023 From: nano at chalmers.se (Nano) Date: Tue, 28 Nov 2023 08:14:50 +0000 Subject: [Info.aoa-nano] Smalltalks "How to make nucleic acids shine" Message-ID: SmallTalk [about Nanoscience] On Monday December 4th at 15.00h we welcome you all to our SmallTalk seminar series. You are welcome to join us in lecture hall Kollektorn, MC2 with fika or on zoom. Our speaker is Pauline Pfeiffer, Doctoral Student, Chemistry and Biochemistry, Chemistry and Chemical Engineering. The seminar is titled ?WS2 nanoribbon and all-CVD MoS2-graphene FETs for nanoelectronic devices??. Abstract: Remember COVID-19 and how it led to the first RNA-vaccine coming into play? The field of ribonucleic acid (RNA)-based therapeutics is evolving rapidly and the development of more accurate tools to study them and their true action in cells is vital. In my work, I investigate fluorescent nucleobase analogues (FBAs) as building blocks to make RNA detectable by fluorescence-based readout techniques, like fluorescence microscopy. Our FBAs offer unique possibilities to probe nucleic acids, like RNA, at physiological conditions while maintaining their natural interaction patterns. They are accepted as substrates for enzymatic reactions and hence can be used as internal labels of functional nucleic acids. We also present the spontaneous cellular uptake of two FBAs as nucleoside triphosphates. Relatively small differences in the molecular structure of the modified nucleobases result in significant differences in their intracellular localization. Following the accumulation in living cells we have found one base analogue to be accepted as a building block and incorporated into RNA, rendering the cellular RNA fluorescent. The spontaneous uptake into living cells and RNA incorporation of FBA triphosphates along with in vitro labeling of long RNAs, and the ability of FBAs to maintain native nucleic acid properties, offer a versatile toolbox to study the dynamic aspects of RNA-based drug delivery and trafficking within living cells.The seminar is divided into two parts, where the first part consists of a pure overview of the field and is held on a generally accessible level (10 min). The second part will be more technical (15-20 minutes). Looking forward to seeing you live or on Zoom: https://chalmers.zoom.us/j/63018620593#success Best regards, Alexandra, Philippe, Christoph, and Janine -------------- next part -------------- An HTML attachment was scrubbed... URL: -------------- next part -------------- A non-text attachment was scrubbed... Name: not available Type: text/calendar Size: 4222 bytes Desc: not available URL: From nano at chalmers.se Tue Nov 28 09:16:50 2023 From: nano at chalmers.se (Nano) Date: Tue, 28 Nov 2023 08:16:50 +0000 Subject: [Info.aoa-nano] Smalltalks "How to make nucleic acids shine" Message-ID: SmallTalk [about Nanoscience] On Monday December 4th at 15.00h we welcome you all to our SmallTalk seminar series. You are welcome to join us in lecture hall Kollektorn, MC2 with fika or on zoom. Our speaker is Pauline Pfeiffer, Doctoral Student, Chemistry and Biochemistry, Chemistry and Chemical Engineering. The seminar is titled ?How to make nucleic acids shine??. Abstract: Remember COVID-19 and how it led to the first RNA-vaccine coming into play? The field of ribonucleic acid (RNA)-based therapeutics is evolving rapidly and the development of more accurate tools to study them and their true action in cells is vital. In my work, I investigate fluorescent nucleobase analogues (FBAs) as building blocks to make RNA detectable by fluorescence-based readout techniques, like fluorescence microscopy. Our FBAs offer unique possibilities to probe nucleic acids, like RNA, at physiological conditions while maintaining their natural interaction patterns. They are accepted as substrates for enzymatic reactions and hence can be used as internal labels of functional nucleic acids. We also present the spontaneous cellular uptake of two FBAs as nucleoside triphosphates. Relatively small differences in the molecular structure of the modified nucleobases result in significant differences in their intracellular localization. Following the accumulation in living cells we have found one base analogue to be accepted as a building block and incorporated into RNA, rendering the cellular RNA fluorescent. The spontaneous uptake into living cells and RNA incorporation of FBA triphosphates along with in vitro labeling of long RNAs, and the ability of FBAs to maintain native nucleic acid properties, offer a versatile toolbox to study the dynamic aspects of RNA-based drug delivery and trafficking within living cells.The seminar is divided into two parts, where the first part consists of a pure overview of the field and is held on a generally accessible level (10 min). The second part will be more technical (15-20 minutes). Looking forward to seeing you live or on Zoom: https://chalmers.zoom.us/j/63018620593#success Best regards, Alexandra, Philippe, Christoph, and Janine -------------- next part -------------- An HTML attachment was scrubbed... URL: -------------- next part -------------- A non-text attachment was scrubbed... Name: not available Type: text/calendar Size: 4181 bytes Desc: not available URL: From nano at chalmers.se Wed Nov 29 11:56:34 2023 From: nano at chalmers.se (Nano) Date: Wed, 29 Nov 2023 10:56:34 +0000 Subject: [Info.aoa-nano] Smalltalks "How to make nucleic acids shine" Message-ID: Update: Due to a conflict with another event that day, we have chosen to postpone this Smalltalk with 30 minutes. It will now start at 15.30 and end at 16.30. Thank you for your understanding! SmallTalk [about Nanoscience] On Monday December 4th at 15.00h we welcome you all to our SmallTalk seminar series. You are welcome to join us in lecture hall Kollektorn, MC2 with fika or on zoom. Our speaker is Pauline Pfeiffer, Doctoral Student, Chemistry and Biochemistry, Chemistry and Chemical Engineering. The seminar is titled ?How to make nucleic acids shine??. Abstract: Remember COVID-19 and how it led to the first RNA-vaccine coming into play? The field of ribonucleic acid (RNA)-based therapeutics is evolving rapidly and the development of more accurate tools to study them and their true action in cells is vital. In my work, I investigate fluorescent nucleobase analogues (FBAs) as building blocks to make RNA detectable by fluorescence-based readout techniques, like fluorescence microscopy. Our FBAs offer unique possibilities to probe nucleic acids, like RNA, at physiological conditions while maintaining their natural interaction patterns. They are accepted as substrates for enzymatic reactions and hence can be used as internal labels of functional nucleic acids. We also present the spontaneous cellular uptake of two FBAs as nucleoside triphosphates. Relatively small differences in the molecular structure of the modified nucleobases result in significant differences in their intracellular localization. Following the accumulation in living cells we have found one base analogue to be accepted as a building block and incorporated into RNA, rendering the cellular RNA fluorescent. The spontaneous uptake into living cells and RNA incorporation of FBA triphosphates along with in vitro labeling of long RNAs, and the ability of FBAs to maintain native nucleic acid properties, offer a versatile toolbox to study the dynamic aspects of RNA-based drug delivery and trafficking within living cells.The seminar is divided into two parts, where the first part consists of a pure overview of the field and is held on a generally accessible level (10 min). The second part will be more technical (15-20 minutes). Looking forward to seeing you live or on Zoom: https://chalmers.zoom.us/j/63018620593#success Best regards, Alexandra, Philippe, Christoph, and Janine -------------- next part -------------- An HTML attachment was scrubbed... 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