DNA 30 Conference Poster Presentation Guidelines
Poster presentations are a valuable way to showcase your research and engage with conference attendees in an interactive setting. These guidelines will help you create an effective poster for the DNA 30 conference.
Specifications:
Dimensions: Posters must be displayed on one side of a provided 30″ x 40″ tack board.
Content:
Title: Include a clear and concise title that accurately reflects your research topic.
Authors & Affiliation: List all authors and co-authors along with their institutional affiliations.
Abstract: Present a brief summary of your research using headings such as “Introduction,” “Methods,” “Results,” and “Conclusions.” Include your contact information on these summaries for attendees seeking further details.
Contact Information: Provide your email address, phone number (optional), or other contact details in the upper right corner of your poster.
Tips for Effective Poster Presentations:
Focus on Visual Communication: Prioritize clear and concise visuals over lengthy text. Use high-resolution images, charts, and graphs to present data effectively. Avoid large tables of raw data.
Engagement & Readability: Strive for a visually appealing and well-organized layout. Ensure your title is readable from 20 feet away and body text is legible from 6 feet away.
Flow & Consistency: Maintain a logical flow of information between sections. Use consistent fonts, colors, margins, and line spacing throughout your poster.
Complementary Handouts: Consider offering handouts with more detailed information to supplement your poster.
Prohibited Elements:
Text-Heavy Content: Avoid overwhelming viewers with excessive text.
Low-Resolution Images: Ensure all images are high quality – web-quality images are not suitable for printing.
All Caps Text: Avoid using all capital letters for better readability.
Unacceptable Formats: Posters replicating typed/written documents or PowerPoint presentations will be removed.
Additional Information:
Transport your poster in a secure tube or portfolio for protection. Costs associated with poster creation and shipping are the responsibility of the author(s).
Mounting materials like Velcro (recommended), pushpins, or thumbtacks will be provided for display.
Refer to your acceptance letter or conference program for specific details regarding your poster session time, location, and setup instructions.
A designated presenter (author or co-author) must be present at the assigned poster space during the designated time to discuss the research with attendees.
By following these guidelines, you can create a compelling poster that effectively communicates your research and fosters engaging discussions at the DNA 30 conference
Poster Session 1
Authors | Title |
Andrea Bardales, Quynh Vo and Dmitry Kolpashchikov |
YES and NOT: a binary system that achieved universal Boolean logic in DNA molecular circuits.
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Taryn Imamura, Sarah Bergbreiter and Rebecca E. Taylor | Flexible DNA Linkers for Colloidal Microswimmer Swarms |
Xu Chang and Fei Zhang | Reconfigurable DNA Nanocage for Protein Encapsulation and Regulation |
Michael Tobiason, Bernard Yurke and William Hughes | Generation of DNA oligomers with similar chemical kinetics via in-silico optimization |
Yanqi Jiang, Alison Grinthal and Rebecca Schulman | Programmable dynamic self-assembled DNA nanostructures as polymerization motors |
Drew Lysne, Green Christopher, Deborah Sementa, Joseph Melinger, Isabella Tiboni, Angelica Galvan, Igor Medintz, Rein Ulijn and Sebastian Diaz | DNA sequestration into peptide liquid-liquid coacervates: Applications in biosensing, nuclease resistance, and computing |
Damilola Fapohunda, Emily Helm, Samuel Schaffter and Rebecca Schulman | Determining Enzyme Rate Constants for Use in a Resettable RNA Strand Displacement Circuit |
Jinsu Kim and Sunghwa Kang | Noise-robust neural network trained by chemical reactions |
Hiroaki Ohno, Takuya Mabuchi, Yosuke Ochi, Junichi Taira and Yusuke Sato | DNA condensate formation promoted or inhibited by oligolysine |
Jie Yi Yea | Programmable mechanosensitive soft materials |
Shin Watanabe and Yuki Suzuki | Signal-guided assembly of DNA origami bending actuator into catenated architectures |
Janet Adio, Abeer Eshra and Damien Woods | Scaling up a thermodynamically-favoured Scaffolded DNA Computer |
Heather Romero Mercieca, Dino Osmanovic and Elisa Franco | Multicomponent DNA condensates |
Jake Kaslewicz and Marc Riedel | Random Access DNA Registers |
Minu Saji, Qi Yang, Perumal Devanathan and Fei Zhang | Hydrophobicity driven controlled higher order assembly of hybrid DNA nanostructures |
Tiffany Olivera, Qi Yang and Fei Zhang | Programmable Rotary Nanomachine: A Functionalized DNA Origami Nanoclock |
Shiming Liu, Qiaochu Zhang and Jinglin Fu | Nucleic Acids Biosensing by “C-Ag-C” Complex/Urease Assay in A Colorimetric Reaction |
Constantine Evans, Jackson O’Brien, Damien Woods, Erik Winfree and Arvind Murugan | How pattern geometry controls nucleation kinetics |
Evelyn Roberts and David Doty | Limits on entropic bias in the 2D tile displacement model |
Yusuke Sakai | Directional Graph Modelling for Solution Design and Experiment Automation |
Matthew Sample, Hao Liu, Thong Diep, Joshua Evans and Petr Sulc | Multi-component DNA Origami Superstructure Multimerization Interface Optimization |
Poster Session 2
Authors | Title |
Aura Cencini, Alessandro Cecconello and Fabio Vianello | Hybrid DNA-RNA Triplexes as Actuators of Transcription Switches |
Perumal Devanathan, Qi Yang, Maciej Jeziorek, Jung Yeon Lee, Jean-Pierre Etchegaray and Fei Zhang | Guided Self-Assembly of DNA Tiles into One- and Two-Dimensional Patterns Using Strand-Displacement and Optochemical Pathways |
Qi Yang, Xu Chang and Fei Zhang | Angle-Controllable RNA Tiles for Programable Array Assembly and RNA Sensing |
David Fernandez Bonet | Quantifying Spatial Coherence in DNA Barcode Networks |
Curt LaRock, Paul Sorensen, Douglas Blair, Dabrien Murphy, James O’Connor and Steven Armentrout | inSēquio: A Programmable 3D CAD Application for Designing DNA Nanostructures |
Nathan Edmondson, Burhan Gokalp, Aaron Colon, Daniel Malatesta, Sam Correll, Mark Arnold and Mayuresh Kothare | DNA Sticker Computation via Electrowetting and Electromagnetic Drop Manipulation |
Divita Mathur, Angelica Rose Galvan, Christopher Green, Shelby Hooe, Esra Oktay, Meghna Thakur, Sebastian Diaz, Remi Veneziano and Igor Medintz | Cell free protein expression from a gene-encoded DNA nanoparticle |
Rana Abdul Razzak, Jonathan Bath, Thomas Wilks, Rachel O’Reilly and Andrew Turberfield | An Architecture for DNA-Templated Synthesis Designed as the Core of a Synthetic Ribosome |
Byunghwa Kang, Heonjoon Lee and Rebecca Schulman | Acceleration of catalytic kinetics driven by phase-separated far-from-equilibrium conditions |
Tracy Mallette and Chris Thachuk | Conditional release of chemically modified oligonucleotides without kinetic compromise |
Yuri Kobayashi and Yuki Suzuki | Multi-reconfiguration of DNA origami lattice actuator guided by a combination of external cues |
Jacob Majikes, Ruohong Shi, Ryan Evans and Arvind Balijepalli | Reversible Signal Amplifier for Strand Displacement via Electrochemical Impedance Spectroscopy |
Dong Woo Kim and Rebecca Schulman | Spatial control of colloidal structure formation via localized chemical gradients |
Emily Helm, Samuel Schaffter, Rebecca Schulman and Damilola Fapohunda | Coupled transcription and degradation enable self-resettable logic circuits that repeatedly respond to temporal signals |
Henry Wisniewski, Perumal Devanathan and Fei Zhang | A Dynamic and Controllable DNA Hoberman Ring |
Hong Kang, Yuexuan Yang and Bryan Wei | Synthetic molecular switches driven by DNA-modifying enzymes |
Josh Petrack and David Doty | Toward Efficient Simulation of Stochastic Chemical Reaction Networks |
Taichi Hirano, Hiromu Akai, Yusuke Sato, Kan Shoji and Takuya Mabuchi | Analysis of Ion Transport Properties in Artificial DNA Channels Modified with Internal Functional Groups by Molecular Dynamics Simulations |
Daria Buka and David Doty | Efficient Probability 1 Turing-Universal Computation with Chemical Reaction Networks |
Zoe Derauf and Chris Thachuk | Leakless, reconfigurable strand displacement architectures |
Colin Yancey and Rebecca Schulman | Quantifying 3’-end transcription reactions facilitated by T7 RNA Polymerase |
Jordan Lovrod, Boyan Beronov and Anne Condon | Approximating DNA reaction kinetics with Markov state models: A first exploration |
Laurenz Miksch and Stefan Badelt | Domain-level design of pseudoknot-free cotranscriptional folding pathways |
Poster Session 3
Authors | Title |
Eladio Andujar Lugo and Rebecca E. Taylor | Semi-automated Design of XNA-DNA Nanostructures with Arbitrary Helicity |
Alexander Swett, Seongmin Seo, Ruixin Li, Anirudh Madhvacharyula, Yancheng Du, Markus Eder, Friedrich Simmel and Jong Hyun Choi | A Deployable Nanostructure Made of Wireframe DNA Origami |
Eli Kengmana, Elysse Ornelas-Gatdula, Kuan-Lin Chen and Rebecca Schulman | Spatial Control over Reactions via Localized Transcription within Membraneless DNA Nanostar Droplets |
Simon K. Dahlberg, David Fernandez Bonet, Lovisa Franzén, Patrik L. Ståhl and Ian T. Hoffecker | Hidden network preserved in Slide-tags data allows reference-free spatial reconstruction |
Chenwei Zhang, Jordan Lovrod, Boyan Beronov, Khanh Dao Duc and Anne Condon | Deciphering DNA Strand Displacement Mechanisms through Deep Graph Embeddings |
Drew Lysne, Sebastian Diaz, Chris Green, Timothy Hachigian, Chris Thachuk, Jeunghoon Lee and Elton Graugnard | The Influence of Steric Hindrance in Nanotechnological Devices and Processes |
Mahdi Dizani, Daniela Sorrentino, Siddharth Agarwal, Jaimie Stewart and Elisa Franco | Protein recruitment to dynamic DNA-RNA host condensates |
Kazumo Takahashi, Ibuki Kawamata, Keita Abe, Hideaki Matsubayashi, Shin-Ichiro Nomura and Satoshi Murata | Implementation of DNA oscillator to artificial cells for inter-cellular information processing |
Daichi Nakajima, Shiva Razavi, Hideki Nakamura, Keita Abe, Satoshi Murata, Shin-Ichiro M. Nomura, Takanari Inoue and Hideaki Matsubayashi | Programming Actin Cytoskeleton in Synthetic Protocells Using Light and DNA Signals |
Yixuan Lee and Ho-Lin Chen | Simulation Power of Freezing Surface Chemical Reaction Networks |
Keita Abe and Satoshi Murata | Hydrogel cubes for building DNA-based reaction-diffusion system |
Sreelakshmi Meppat and Shelley Wickham | Barrel-encapsulated DNA Nanopores with independent control of membrane docking and transport |
Yancheng Du, Lulu Qian and Erik Winfree | Liquid-Liquid Phase Separation of Sixteen Orthogonal DNA Nanostars |
Dong Woo Kim and Rebecca Schulman | Enhancing the limit of detection of aptamer-based biosensors via advection |
Rajiv Teja Nagipogu and John Reif | Leak-resilient Nucleic Acid Dynamical Systems through an Improved Shadow Cancellation Methodology |
Kim Calabrese, David Doty and Mina Latifi | Rate-independent Boolean Predicate Computation in Continuous Chemical reaction networks |
Kellen Rodriguez, Tracy Mallette and Chris Thachuk | Enzymatic Synthesis of DNA Gates with Arbitrary Secondary Structure |
Jung Yeon Lee, Qi Yang, Xu Chang and Fei Zhang | The Systematic Study of Parallel Crossover Origami Systems and Comparison with Antiparallel Counterparts |
Ozra Mohammadi and Amy Stevens | Small Angle X-ray Scattering of 3D nanotube vs 2D sheet DNA origami |
Hannah Earley and Austin Luchsinger | Reversible Molecular Programming with Diamonds, Butterflies, Fans, and Urchins |
Kanta Takagi, Tomoya Maruyama and Masahiro Takinoue | Computational DNA Droplets Generating Hydrodynamic Forces |
Kim Calabrese and David Doty | Rate-independent continuous inhibitory chemical reaction networks are Turing-universal |
Ankita Murthy and Karthik Raman | An O(sqrt{2^n}) Volume DNA Computing Algorithm for the Subset Sum Problem |