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1. Structural and electrical properties of fiber textured and epitaxial molybdenum thin films prepared by magnetron sputter epitaxy

Author

Sundarapandian, Balasubramanian, Raghuwanshi, Mohit, Straňák, Patrik, Yu, Yuan, Lyu, Haiyan, Prescher, Mario, Kirste, Lutz, and Ambacher, Oliver

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

Molybdenum (Mo) due to its optimal structural, physical, and acoustic properties find application as electrode material in aluminum scandium nitride (AlScN) and aluminum nitride (AlN) based bulk acoustic wave (BAW) resonators. Epitaxial Mo thin films exhibiting low resistivity can improve the performance of the BAW resonator by enhancing both the electromechanical coupling coefficient and quality factor. In this study, we systematically vary the growth temperature of Mo grown on fiber-textured and epitaxial wurtzite-aluminum nitride (AlN) to study the changes in structural and electrical properties of the Mo films. Results show that Mo grown at 700{\deg}C on epitaxial AlN exhibit low surface roughness, large average grain diameter, low resistivity, and high crystal quality. XRD pole figure and phi-scan reveal that irrespective of the growth temperature, Mo is fiber textured on fiber-textured AlN, and has three rotational domains on epitaxial AlN. The study shows that the resistivity of Mo reduces with increasing growth temperature, which we relate to increasing average grain diameter. Additionally, we show that fiber-textured Mo has more high angle grain boundaries resulting in consistently higher resistivity than its epitaxial equivalent., Comment: 13 pages, 7 figures, 1 supplementary file

Published
2024

2. A versatile bioluminescent probe with tunable color.

Author

Torrey, Zachary, Halbers, Lila, Scipioni, Lorenzo, Tedeschi, Giulia, Digman, Michelle, and Prescher, Jennifer

Abstract

Bioluminescence is a powerful method for imaging in vivo, but applications at the microscale are far from routine. This is due, in part, to a lack of versatile tools for visualizing dynamic events. To address this void, we developed a new platform-Bioluminescence Resonance Energy mAKe over with a Fluorescence-Activating absorption-Shifting Tag (BREAKFAST). BREAKFAST features a bright luciferase combined with a chemogenetic tag (pFAST) for rapid color switching. In the presence of luciferin and a discrete fluorogenic ligand, signal is observed via resonance energy transfer. We evaluated spectral outputs with various fluorogens and established the utility of BREAKFAST for combined fluorescence and bioluminescence imaging. Dynamic, four-color visualization was achieved with sequential ligand addition and spectral phasor analysis. We further showed selective signal quenching with a dark fluorogen. Collectively, this work establishes a new method for bioluminescence imaging at the cellular scale and sets the stage for continued probe development.

Published
2024

3. Optimized in vivo multispectral bioluminescent imaging of tumor biology using engineered BRET reporters.

Author

Labra, Bryan, Parag-Sharma, Kshitij, Powers, John, Srivastava, Sonal, Walker, Joel, Kirkland, Thomas, Brennan, Caroline, Prescher, Jennifer, and Amelio, Antonio

Subjects
Biological sciences, Biological sciences research methodologies, Cancer, Optical imaging
Abstract

The ability to visualize and track multiple biological processes in vivo in real time is highly desirable. Bioluminescence imaging (BLI) has emerged as an attractive modality for non-invasive cell tracking, with various luciferase reporters enabling parallel monitoring of several processes. However, simultaneous multiplexed imaging in vivo is challenging due to suboptimal reporter intensities and the need to image one luciferase at a time. We report a multiplexed BLI approach using a single substrate that leverages bioluminescence resonance energy transfer (BRET)-based reporters with distinct spectral profiles for triple-color BLI. These luciferase-fluorophore fusion reporters address light transmission challenges and use optimized coelenterazine substrates. Comparing BRET reporters across two substrate analogs identified a green-yellow-orange combination that allows simultaneous imaging of three distinct cell populations in vitro and in vivo. These tools provide a template for imaging other biological processes in vivo during a single BLI session using a single reporter substrate.

Published
2024

4. Understanding phase transitions of $\alpha$-quartz under dynamic compression conditions by machine-learning driven atomistic simulations

Author

Erhard, Linus C., Otzen, Christoph, Rohrer, Jochen, Prescher, Clemens, and Albe, Karsten

Subjects
Condensed Matter - Materials Science, Physics - Geophysics
Abstract

Characteristic shock effects in silica serve as a key indicator of historical impacts at geological sites. Despite this geological significance, atomistic details of structural transformations under high pressure and shock compression remain poorly understood. This ambiguity is evidenced by conflicting experimental observations of both amorphization and crystallization transitions. Utilizing a newly developed machine-learning interatomic potential, we examine the response of $\alpha$-quartz to shock compression with a peak pressure of 60 GPa over nano-second timescales. We initially observe amorphization before recrystallization into a d-NiAs-structured silica with disorder on the silicon sublattice, accompanied by the formation of domains with partial order of silicon. Investigating a variety of strain conditions enables us to identify the non-hydrostatic stress and strain states that allow the direct diffusionless formation of rosiaite-structured silica.

Published
2024

5. Multimedia Characteristics, Student Relationships, and Teaching Behaviors Predict Perceptions of an Inclusive Classroom across Course Delivery Format

Author

Christina Shane-Simpson, Rita Obeid, and Manna Prescher

Abstract

Background: Student perceptions of inclusion have been predicted by rapport, and belongingness in face-to-face courses, although these relationships have not been studied across course delivery formats. Objective: This study clarified relationships among course multimedia characteristics, student--professor rapport, instructor and student presence, classroom climate, quality of teaching behaviors, and perceptions of an inclusive classroom in varied course delivery formats. Method: A total of 479 students from two universities completed an online survey assessing their course delivery format, multimedia characteristics, rapport, instructor and student presence, classroom climate, teaching behaviors, and perceptions of an inclusive classroom. Results: Students' perceptions of inclusion were predicted by course multimedia characteristics (e.g., videos), student--professor rapport, instructor presence, course structure, course clarity, student connectedness, and the quality of teaching behaviors. Conclusion: Inclusive classrooms reflect a myriad of instructor-, student-, and classroom-level characteristics and behaviors. However, the predictive value of these characteristics can change based on the course delivery format. Teaching Implications: Faculty professional development opportunities for inclusive pedagogy should include skill development for course design (multimedia characteristics, structure), professor--student rapport-building and classroom community building, and high quality teaching behaviors that align with specific course delivery formats.

Published
2024
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8. Recent advances in bioluminescent probes for neurobiology.

Author

Townsend, Katherine and Prescher, Jennifer

Subjects
bioluminescence, imaging, luciferase, luciferin, neurobiology
Abstract

Bioluminescence is a popular modality for imaging in living organisms. The platform relies on enzymatically (luciferase) generated light via the oxidation of small molecule luciferins. Since no external light is needed for photon production, there are no concerns with background autofluorescence or photobleaching over time-features that have historically limited other optical readouts. Bioluminescence is thus routinely used for longitudinal tracking across whole animals. Applications in the brain, though, have been more challenging due to a lack of sufficiently bioavailable, bright, and easily multiplexed probes. Recent years have seen the development of designer luciferase and luciferin pairs that address these issues, providing more sensitive and real-time readouts of biochemical features relevant to neurobiology. This review highlights many of the advances in bioluminescent probe design, with a focus on the small molecule light emitter, the luciferin. Specific efforts to improve luciferin pharmacokinetics and tissue-penetrant emission are covered, in addition to applications that such probes have enabled. The continued development of improved bioluminescent probes will aid in illuminating critical neurochemical processes in the brain.

Published
2024

9. Demonstration and STEM Analysis of Ferroelectric Switching in MOCVD-Grown Single Crystalline Al$_{0.85}$Sc$_{0.15}$N

Author

Wolff, Niklas, Schoenweger, Georg, Streicher, Isabel, Islam, Md Redwanul, Braun, Nils, Stranak, Patrik, Kirste, Lutz, Prescher, Mario, Lotnyk, Andriy, Kohlstedt, Hermann, Leone, Stefano, Kienle, Lorenz, and Fichtner, Simon

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

Wurtzite-type Al$_{1-x}$Sc$_x$N solid solutions grown by metal organic chemical vapour deposition are for the first time confirmed to be ferroelectric. The film with 230 nm thickness and x = 0.15 exhibits a coercive field of 5.5 MV/cm at a measurement frequency of 1.5 kHz. Single crystal quality and homogeneous chemical composition of the film was confirmed by X-ray diffraction spectroscopic methods such as time of flight secondary ion mass spectrometry. Annular bright field scanning transmission electron microscopy served to proof the ferroelectric polarization inversion on unit cell level. The single crystal quality further allowed to image the large-scale domain pattern of a wurtzite-type ferroelectric for the first time, revealing a predominantly cone-like domain shape along the c-axis of the material. As in previous work, this again implies the presence of strong polarization discontinuities along this crystallographic axis, which could be suitable for current transport. The domains are separated by narrow domain walls, for which an upper thickness limit of 3 nm was deduced, but which could potentially be atomically sharp. We are confident that these results will advance the commencing integration of wurtzite-type ferroelectrics to GaN as well as generally III-N based heterostructures and devices., Comment: 5 Figures

Published
2023
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12. Time-efficient combined morphologic and quantitative joint MRI based on clinical image contrasts -- An exploratory in-situ study of standardized cartilage defects

Author

Lemainque, Teresa, Pridöhl, Nicola, Zhang, Shuo, Huppertz, Marc, Post, Manuel, Yüksel, Can, Yoneyama, Masami, Prescher, Andreas, Kuhl, Christiane, Truhn, Daniel, and Nebelung, Sven

Subjects
Physics - Medical Physics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

OBJECTIVES: Quantitative MRI techniques such as T2 and T1$\rho$ mapping are beneficial in evaluating cartilage and meniscus. We aimed to evaluate the MIXTURE (Multi-Interleaved X-prepared Turbo-Spin Echo with IntUitive RElaxometry) sequences that provide morphologic images with clinical turbo spin-echo (TSE) contrasts and additional parameter maps versus reference TSE sequences in an in-situ model of human cartilage defects. MATERIALS AND METHODS: Prospectively, standardized cartilage defects of 8mm, 5mm, and 3mm diameter were created in the lateral femora of 10 human cadaveric knee specimens (81$\pm$10 years, nine male/one female). Using a clinical 3T MRI scanner and knee coil, MIXTURE sequences combining (i) proton-density weighted fat-saturated (PD-w FS) images and T2 maps and (ii) T1-weighted images and T1$\rho$ maps were acquired before and after defect creation, alongside the corresponding 2D TSE and 3D TSE reference sequences. Defect delineability, bone texture, and cartilage relaxation times were quantified. Inter-sequence comparisons were made using appropriate parametric and non-parametric tests. RESULTS: Overall, defect delineability and texture features were not significantly different between the MIXTURE and reference sequences. After defect creation, relaxation times increased significantly in the central femur (for T2) and all regions combined (for T1$\rho$). CONCLUSION: MIXTURE sequences permit time-efficient simultaneous morphologic and quantitative joint assessment based on clinical image contrasts. While providing T2 or T1$\rho$ maps in clinically feasible scan time, morphologic image features, i.e., cartilage defect delineability and bone texture, were comparable between MIXTURE and corresponding reference sequences., Comment: 12 pages (main body), 3 tables, 6 figures

Published
2023

13. Two for One -- Combined Morphologic and Quantitative Knee Joint MRI Using a Versatile Turbo Spin-Echo Platform

Author

Lemainque, Teresa, Pridoehl, Nicola, Huppertz, Marc, Post, Manuel, Yüksel, Can, Radke, Karl Ludger, Zhang, Shuo, Yoneyama, Masami, Prescher, Andreas, Kuhl, Christiane, Truhn, Daniel, and Nebelung, Sven

Subjects
Physics - Medical Physics
Abstract

Introduction: Quantitative MRI techniques such as T2 and T1\r{ho} mapping are beneficial in evaluating knee joint pathologies; however, long acquisition times limit their clinical adoption. MIXTURE (Multi-Interleaved X-prepared Turbo-Spin Echo with IntUitive RElaxometry) provides a versatile turbo spin-echo (TSE) sequence platform for simultaneous morphologic and quantitative joint imaging yet lacks comparative evaluation in basic and translational research contexts. Methods: Two MIXTURE sequences were designed along clinical requirements: (i) MIX1, combining proton density (PD)-weighted fat-saturated (FS) images and quantitative T2 mapping (acquisition time: 4:59 min), and (ii) MIX2, combining T1-weighted images with quantitative T1\r{ho} mapping (6:38 min). MIXTURE sequences and their reference 2D and 3D TSE counterparts were acquired from ten human cadaveric knee joints using a clinical 3T MRI scanner and knee coil. Contrast, contrast-to-noise ratios, and coefficients of variation were comparatively evaluated using parametric tests. Clinical radiologists (n=3) assessed diagnostic quality as a function of sequence and anatomic structure using 5-point Likert scales and ordinal regression. The significance level was set to {\alpha}=0.01. Results: MIX1 and MIX2 had at least equal diagnostic quality compared to the 2D and 3D TSE sequences of the same image weighting. Contrast, contrast-to-noise ratios, and coefficients of variation were largely similar for the PD-weighted FS and T1-weighted images. Discussion: In clinically feasible scan times, the MIXTURE sequence platform yields (i) morphologic images of diagnostic quality and adjustable TSE-based contrasts and (ii) quantitative parameter mapping with additional insights on soft tissue composition and ultrastructure., Comment: 13 pages (main text), 7 figures, 3 tables

Published
2023

14. Structural evolution of liquid silicates under conditions in Super-Earth interiors

Author

Guillaume Morard, Jean-Alexis Hernandez, Clara Pege, Charlotte Nagy, Lélia Libon, Antoine Lacquement, Dimosthenis Sokaras, Hae Ja Lee, Eric Galtier, Philip Heimann, Eric Cunningham, Siegfried H. Glenzer, Tommaso Vinci, Clemens Prescher, Silvia Boccato, Julien Chantel, Sébastien Merkel, Yanyao Zhang, Hong Yang, Xuehui Wei, Silvia Pandolfi, Wendy L. Mao, Arianna E. Gleason, Sang Heon Shim, Roberto Alonso-Mori, and Alessandra Ravasio

Subjects
Science
Abstract

Abstract Molten silicates at depth are crucial for planetary evolution, yet their local structure and physical properties under extreme conditions remain elusive due to experimental challenges. In this study, we utilize in situ X-ray diffraction (XRD) at the Matter in Extreme Conditions (MEC) end-station of the Linear Coherent Linac Source (LCLS) at SLAC National Accelerator Laboratory to investigate liquid silicates. Using an ultrabright X-ray source and a high-power optical laser, we probed the local atomic arrangement of shock-compressed liquid (Mg,Fe)SiO3 with varying Fe content, at pressures from 81(9) to 385(40) GPa. We compared these findings to ab initio molecular dynamics simulations under similar conditions. Results indicate continuous densification of the O-O and Mg-Si networks beyond Earth’s interior pressure range, potentially altering melt properties at extreme conditions. This could have significant implications for early planetary evolution, leading to notable differences in differentiation processes between smaller rocky planets, such as Earth and Venus, and super-Earths, which are exoplanets with masses nearly three times that of Earth.

Published
2024
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15. Phase transition kinetics of superionic H2O ice phases revealed by Megahertz X-ray free-electron laser-heating experiments

Author

R. J. Husband, H. P. Liermann, J. D. McHardy, R. S. McWilliams, A. F. Goncharov, V. B. Prakapenka, E. Edmund, S. Chariton, Z. Konôpková, C. Strohm, C. Sanchez-Valle, M. Frost, L. Andriambariarijaona, K. Appel, C. Baehtz, O. B. Ball, R. Briggs, J. Buchen, V. Cerantola, J. Choi, A. L. Coleman, H. Cynn, A. Dwivedi, H. Graafsma, H. Hwang, E. Koemets, T. Laurus, Y. Lee, X. Li, H. Marquardt, A. Mondal, M. Nakatsutsumi, S. Ninet, E. Pace, C. Pepin, C. Prescher, S. Stern, J. Sztuk-Dambietz, U. Zastrau, and M. I. McMahon

Subjects
Science
Abstract

Abstract H2O transforms to two forms of superionic (SI) ice at high pressures and temperatures, which contain highly mobile protons within a solid oxygen sublattice. Yet the stability field of both phases remains debated. Here, we present the results of an ultrafast X-ray heating study utilizing MHz pulse trains produced by the European X-ray Free Electron Laser to create high temperature states of H2O, which were probed using X-ray diffraction during dynamic cooling. We confirm an isostructural transition during heating in the 26-69 GPa range, consistent with the formation of SI-bcc. In contrast to prior work, SI-fcc was observed exclusively above ~50 GPa, despite evidence of melting at lower pressures. The absence of SI-fcc in lower pressure runs is attributed to short heating timescales and the pressure-temperature path induced by the pump-probe heating scheme in which H2O was heated above its melting temperature before the observation of quenched crystalline states, based on the earlier theoretical prediction that SI-bcc nucleates more readily from the fluid than SI-fcc. Our results may have implications for the stability of SI phases in ice-rich planets, for example during dynamic freezing, where the preferential crystallization of SI-bcc may result in distinct physical properties across mantle ice layers.

Published
2024
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16. A modular platform for bioluminescent RNA tracking

Author

Halbers, Lila P., Cole, Kyle H., Ng, Kevin K., Fuller, Erin B., Chan, Christelle E. T., Callicoatte, Chelsea, Metcalfe, Mariajose, Chen, Claire C., Barhoosh, Ahfnan A., Reid-McLaughlin, Edison, Kent, Alexandra D., Torrey, Zachary R., Steward, Oswald, Lupták, Andrej, and Prescher, Jennifer A.

Published
2024
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17. Structural evolution of liquid silicates under conditions in Super-Earth interiors

Author

Morard, Guillaume, Hernandez, Jean-Alexis, Pege, Clara, Nagy, Charlotte, Libon, Lélia, Lacquement, Antoine, Sokaras, Dimosthenis, Lee, Hae Ja, Galtier, Eric, Heimann, Philip, Cunningham, Eric, Glenzer, Siegfried H., Vinci, Tommaso, Prescher, Clemens, Boccato, Silvia, Chantel, Julien, Merkel, Sébastien, Zhang, Yanyao, Yang, Hong, Wei, Xuehui, Pandolfi, Silvia, Mao, Wendy L., Gleason, Arianna E., Shim, Sang Heon, Alonso-Mori, Roberto, and Ravasio, Alessandra

Published
2024
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18. Phase transition kinetics of superionic H2O ice phases revealed by Megahertz X-ray free-electron laser-heating experiments

Author

Husband, R. J., Liermann, H. P., McHardy, J. D., McWilliams, R. S., Goncharov, A. F., Prakapenka, V. B., Edmund, E., Chariton, S., Konôpková, Z., Strohm, C., Sanchez-Valle, C., Frost, M., Andriambariarijaona, L., Appel, K., Baehtz, C., Ball, O. B., Briggs, R., Buchen, J., Cerantola, V., Choi, J., Coleman, A. L., Cynn, H., Dwivedi, A., Graafsma, H., Hwang, H., Koemets, E., Laurus, T., Lee, Y., Li, X., Marquardt, H., Mondal, A., Nakatsutsumi, M., Ninet, S., Pace, E., Pepin, C., Prescher, C., Stern, S., Sztuk-Dambietz, J., Zastrau, U., and McMahon, M. I.

Published
2024
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23. Technical aspects of rod-insertion forceps (persuader) application in reducing construct failure after lumbar spine fusion surgery: a biomechanical cadaveric study in Germany

Author

Nikolaus Kernich, Vincent J. Heck, Nadine Ott, Andreas Prescher, Peer Eysel, and Juan Manuel Vinas-Rios

Subjects
rod persuader, spine surgery, pedicle screw avulsion, lumbar spine, biomechanics, Medicine
Abstract

Study Design A prospective experimental study. Purpose This biomechanical in vitro study aimed to examine the extent to which the use of a rod persuader (RP) leads to additional mechanical stress on the screw–rod system and determine its influence on the bony anchoring of primary pedicle screws. Overview of Literature Degenerative spine diseases and deformities are the most common indications for the stabilization and fusion of spinal segments. The pedicle screw–rod system is considered the gold standard for dorsal stabilization, and an RP is also increasingly being considered to fit the spondylodesis material. Methods Ten lumbar spines from body donors were examined. Bisegmental dorsal spinal lumbar interbody fusion of the L3–L5 segments was performed using a pedicle screw–rod system (ROCCIA Multi-LIF Cage; Silony Medical, Germany). In group 1, the titanium rod was inserted without tension, whereas in group 2, the rod was attached to the pedicle screws at the L4 and L5 levels, creating a 5-mm gap. To attach the rod, the RP was used to press the rod into the pedicle screw. The rod was left in place for 30 minutes and then removed. Results The rod reduction technique significantly increased the mechanical load on the overall construct measured by strain gauges (p

Published
2024
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24. Time-efficient combined morphologic and quantitative joint MRI: an in situ study of standardized knee cartilage defects in human cadaveric specimens

Author

Teresa Lemainque, Nicola Pridöhl, Shuo Zhang, Marc Huppertz, Manuel Post, Can Yüksel, Masami Yoneyama, Andreas Prescher, Christiane Kuhl, Daniel Truhn, and Sven Nebelung

Subjects
Cartilage, In situ model, Knee joint, Magnetic resonance imaging, Osteoarthritis, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Abstract Background Quantitative techniques such as T2 and T1ρ mapping allow evaluating the cartilage and meniscus. We evaluated multi-interleaved X-prepared turbo-spin echo with intuitive relaxometry (MIXTURE) sequences with turbo spin-echo (TSE) contrast and additional parameter maps versus reference TSE sequences in an in situ model of human cartilage defects. Methods Standardized cartilage defects of 8, 5, and 3 mm in diameter were created in the lateral femora of ten human cadaveric knee specimens (81 ± 10 years old; nine males, one female). MIXTURE sequences providing proton density-weighted fat-saturated images and T2 maps or T1-weighted images and T1ρ maps as well as the corresponding two- and three-dimensional TSE reference sequences were acquired before and after defect creation (3-T scanner; knee coil). Defect delineability, bone texture, and cartilage relaxation times were quantified. Appropriate parametric or non-parametric tests were used. Results Overall, defect delineability and texture features were not significantly different between the MIXTURE and reference sequences (p ≤ 0.47). After defect creation, relaxation times significantly increased in the central femur (T2pre = 51 ± 4 ms [mean ± standard deviation] versus T2post = 56 ± 4 ms; p = 0.002) and all regions combined (T1ρpre = 40 ± 4 ms versus T1ρpost = 43 ± 4 ms; p = 0.004). Conclusions MIXTURE permitted time-efficient simultaneous morphologic and quantitative joint assessment based on clinical image contrasts. While providing T2 or T1ρ maps in clinically feasible scan time, morphologic image features, i.e., cartilage defects and bone texture, were comparable between MIXTURE and reference sequences. Relevance statement Equally time-efficient and versatile, the MIXTURE sequence platform combines morphologic imaging using familiar contrasts, excellent image correspondence versus corresponding reference sequences and quantitative mapping information, thereby increasing the diagnostic value beyond mere morphology. Key points • Combined morphologic and quantitative MIXTURE sequences are based on three-dimensional TSE contrasts. • MIXTURE sequences were studied in an in situ human cartilage defect model. • Morphologic image features, i.e., defect delineabilty and bone texture, were investigated. • Morphologic image features were similar between MIXTURE and reference sequences. • MIXTURE allowed time-efficient simultaneous morphologic and quantitative knee joint assessment. Graphical Abstract

Published
2024
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25. Optimized in vivo multispectral bioluminescent imaging of tumor biology using engineered BRET reporters

Author

Bryan Labra, Kshitij Parag-Sharma, John J. Powers, Sonal Srivastava, Joel R. Walker, Thomas A. Kirkland, Caroline K. Brennan, Jennifer A. Prescher, and Antonio L. Amelio

Subjects
Optical imaging, Biological sciences, Cancer, Biological sciences research methodologies, Science
Abstract

Summary: The ability to visualize and track multiple biological processes in vivo in real time is highly desirable. Bioluminescence imaging (BLI) has emerged as an attractive modality for non-invasive cell tracking, with various luciferase reporters enabling parallel monitoring of several processes. However, simultaneous multiplexed imaging in vivo is challenging due to suboptimal reporter intensities and the need to image one luciferase at a time. We report a multiplexed BLI approach using a single substrate that leverages bioluminescence resonance energy transfer (BRET)-based reporters with distinct spectral profiles for triple-color BLI. These luciferase-fluorophore fusion reporters address light transmission challenges and use optimized coelenterazine substrates. Comparing BRET reporters across two substrate analogs identified a green-yellow-orange combination that allows simultaneous imaging of three distinct cell populations in vitro and in vivo. These tools provide a template for imaging other biological processes in vivo during a single BLI session using a single reporter substrate.

Published
2024
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26. Biochemical Analysis Leads to Improved Orthogonal Bioluminescent Tools.

Author

Williams, Sierra, Gewing-Mullins, Jordan, Lieberman, Whitney, Kolbaba-Kartchner, Bethany, Iqbal, Reema, Burgess, Hana, Colee, Clair, Ornelas, Marya, Reid-McLaughlin, Edison, Mills, Jeremy, Leconte, Aaron, and Prescher, Jennifer

Subjects
biochemical characterization, bioluminescence, luciferase, luciferin, thermostability, Firefly Luciferin, Luminescent Measurements, Luciferases, Luciferins, Mutation
Abstract

Engineered luciferase-luciferin pairs have expanded the number of cellular targets that can be visualized in tandem. While light production relies on selective processing of synthetic luciferins by mutant luciferases, little is known about the origin of selectivity. The development of new and improved pairs requires a better understanding of the structure-function relationship of bioluminescent probes. In this work, we report a biochemical approach to assessing and optimizing two popular bioluminescent pairs: Cashew/d-luc and Pecan/4-BrLuc. Single mutants derived from Cashew and Pecan revealed key residues for selectivity and thermal stability. Stability was further improved through a rational addition of beneficial residues. In addition to providing increased stability, the known stabilizing mutations surprisingly also improved selectivity. The resultant improved pair of luciferases are >100-fold selective for their respective substrates and highly thermally stable. Collectively, this work highlights the importance of mechanistic insight for improving bioluminescent pairs and provides significantly improved Cashew and Pecan enzymes which should be immediately suitable for multicomponent imaging applications.

Published
2023

27. Enhancing Alkyne-Based Raman Tags with a Sulfur Linker

Author

Li, Yong, Townsend, Katherine M, Dorn, Robert S, Prescher, Jennifer A, and Potma, Eric O

Subjects
Analytical Chemistry, Chemical Sciences, Spectrum Analysis, Raman, Alkynes, Nonlinear Optical Microscopy, Physical Sciences, Engineering, Chemical sciences, Physical sciences
Abstract

Alkyne-based Raman tags have proven their utility for biological imaging. Although the alkynyl stretching mode is a relatively strong Raman scatterer, the detection sensitivity of alkyne-tagged compounds is ultimately limited by the magnitude of the probe's Raman response. In order to improve the performance of alkyne-based Raman probes, we have designed several tags that benefit from π-π conjugation as well as from additional n-π conjugation with a sulfur linker. We show that the sulfur linker provides additional enhancement and line width narrowing, offering a simple yet effective strategy for improving alkyne-based Raman tags. We validate the utility of various sulfur-linked alkyne tags for cellular imaging through stimulated Raman scattering microscopy.

Published
2023

28. Diamond precipitation dynamics from hydrocarbons at icy planet interior conditions

Author

Frost, Mungo, McWilliams, R. Stewart, Bykova, Elena, Bykov, Maxim, Husband, Rachel J., Andriambariarijaona, Leon M., Khandarkhaeva, Saiana, Massani, Bernhard, Appel, Karen, Baehtz, Carsten, Ball, Orianna B., Cerantola, Valerio, Chariton, Stella, Choi, Jinhyuk, Cynn, Hyunchae, Duff, Matthew J., Dwivedi, Anand, Edmund, Eric, Fiquet, Guillaume, Graafsma, Heinz, Hwang, Huijeong, Jaisle, Nicolas, Kim, Jaeyong, Konôpková, Zuzana, Laurus, Torsten, Lee, Yongjae, Liermann, Hanns-Peter, McHardy, James D., McMahon, Malcolm I., Morard, Guillaume, Nakatsutsumi, Motoaki, Nguyen, Lan Anh, Ninet, Sandra, Prakapenka, Vitali B., Prescher, Clemens, Redmer, Ronald, Stern, Stephan, Strohm, Cornelius, Sztuk-Dambietz, Jolanta, Turcato, Monica, Wu, Zhongyan, Glenzer, Siegfried H., and Goncharov, Alexander F.

Published
2024
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29. Red-Shifted Coumarin Luciferins for Improved Bioluminescence Imaging

Author

Love, Anna C, Caldwell, Donald R, Kolbaba-Kartchner, Bethany, Townsend, Katherine M, Halbers, Lila P, Yao, Zi, Brennan, Caroline K, Ivanic, Joseph, Hadjian, Tanya, Mills, Jeremy H, Schnermann, Martin J, and Prescher, Jennifer A

Subjects
Engineering, Chemical Sciences, Biomedical Engineering, Biomedical Imaging, Cancer, Generic health relevance, Luciferins, Firefly Luciferin, Luminescent Measurements, Luciferases, Coumarins, General Chemistry, Chemical sciences
Abstract

Multicomponent bioluminescence imaging in vivo requires an expanded collection of tissue-penetrant probes. Toward this end, we generated a new class of near-infrared (NIR) emitting coumarin luciferin analogues (CouLuc-3s). The scaffolds were easily accessed from commercially available dyes. Complementary mutant luciferases for the CouLuc-3 analogues were also identified. The brightest probes enabled sensitive imaging in vivo. The CouLuc-3 scaffolds are also orthogonal to popular bioluminescent reporters and can be used for multicomponent imaging applications. Collectively, this work showcases a new set of bioluminescent tools that can be readily implemented for multiplexed imaging in a variety of biological settings.

Published
2023

32. Macromolecular assembly of bioluminescent protein nanoparticles for enhanced imaging

Author

Li, Enya, Brennan, Caroline K, Ramirez, Aaron, Tucker, Jo A, Butkovich, Nina, Meli, Vijaykumar S, Ionkina, Anastasia A, Nelson, Edward L, Prescher, Jennifer A, and Wang, Szu-Wen

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Engineering, Biomedical Engineering, Materials Engineering, Biomedical Imaging, Nanotechnology, Bioengineering, Generic health relevance, Nanoparticle, Bioluminescence, NanoLuc luciferase, Akaluc luciferase, In vitro imaging, In vivo imaging, Macromolecular and materials chemistry, Biomedical engineering, Materials engineering
Abstract

Bioluminescence imaging has advantages over fluorescence imaging, such as minimal photobleaching and autofluorescence, and greater signal-to-noise ratios in many complex environments. Although significant achievements have been made in luciferase engineering for generating bright and stable reporters, the full capability of luciferases for nanoparticle tracking has not been comprehensively examined. In biocatalysis, enhanced enzyme performance after immobilization on nanoparticles has been reported. Thus, we hypothesized that by assembling luciferases onto a nanoparticle, the resulting complex could lead to substantially improved imaging properties. Using a modular bioconjugation strategy, we attached NanoLuc (NLuc) or Akaluc bioluminescent proteins to a protein nanoparticle platform (E2), yielding nanoparticles NLuc-E2 and Akaluc-E2, both with diameters of ∼45 ​nm. Although no significant differences were observed between different conditions involving Akaluc and Akaluc-E2, free NLuc at pH 5.0 showed significantly lower emission values than free NLuc at pH 7.4. Interestingly, NLuc immobilization on E2 nanoparticles (NLuc-E2) emitted increased luminescence at pH 7.4, and at pH 5.0 showed over two orders of magnitude (>200-fold) higher luminescence (than free NLuc), expanding the potential for imaging detection using the nanoparticle even upon endocytic uptake. After uptake by macrophages, the resulting luminescence with NLuc-E2 nanoparticles was up to 7-fold higher than with free NLuc at 48 ​h. Cells incubated with NLuc-E2 could also be imaged using live bioluminescence microscopy. Finally, biodistribution of nanoparticles into lymph nodes was detected through imaging using NLuc-E2, but not with conventionally-labeled fluorescent E2. Our data demonstrate that NLuc-bound nanoparticles have advantageous properties that can be utilized in applications ranging from single-cell imaging to in vivo biodistribution.

Published
2022

33. List of contributors

Author

Bai, Wenrui, primary, Bauters, Marijn, additional, Beachley, Gregory M., additional, Bell, Michael D., additional, Benham, Sue, additional, Bidartondo, Martin I., additional, Bolte, Andreas, additional, Burns, Douglas A., additional, Bussotti, Filippo, additional, Cai, Runting, additional, Cheng, Yi, additional, Clark, Christopher M., additional, Dentener, Frank, additional, de Vries, Wim, additional, Dirnböck, Thomas, additional, Driscoll, Charles T., additional, Du, Enzai, additional, Duan, Lei, additional, Fenn, Mark E., additional, Frey, Serita D., additional, Gilliam, Frank S., additional, Hayes, Felicity, additional, Hobbie, Erik A., additional, Janssens, Ivan A., additional, Kulshrestha, Umesh C., additional, Kuyper, Thomas W., additional, Li, Binghe, additional, Lilleskov, Erik A., additional, Lovett, Gary M., additional, Meng, Lei, additional, Peñuelas, Josep, additional, Perring, Michael P., additional, Pitman, Rona, additional, Pollastrini, Martina, additional, Prescher, Anne-Katrin, additional, Sanders, Tanja G.M., additional, Sardans, Jordi, additional, Schmitz, Andreas, additional, Schwede, Donna B., additional, Simpson, David, additional, Vanguelova, Elena, additional, Verheyen, Kris, additional, Verstraeten, Arne, additional, Vicca, Sara, additional, Walker, John T., additional, Watmough, Shaun A., additional, Xia, Nan, additional, Xie, Danni, additional, and Zhang, Jinbo, additional

Published
2024
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34. Responses of forest ecosystems in Europe to decreasing nitrogen deposition

Author

Schmitz, Andreas, primary, Sanders, Tanja G.M., additional, Bolte, Andreas, additional, Bussotti, Filippo, additional, Dirnböck, Thomas, additional, Peñuelas, Josep, additional, Pollastrini, Martina, additional, Prescher, Anne-Katrin, additional, Sardans, Jordi, additional, Verstraeten, Arne, additional, and de Vries, Wim, additional

Published
2024
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35. Multiplexed bioluminescence imaging with a substrate unmixing platform

Author

Brennan, Caroline K, Yao, Zi, Ionkina, Anastasia A, Rathbun, Colin M, Sathishkumar, Buvaneshwari, and Prescher, Jennifer A

Subjects
Analytical Chemistry, Chemical Sciences, Biomedical Imaging, Bioengineering, 4.1 Discovery and preclinical testing of markers and technologies, Luminescent Measurements, Luciferases, bioluminescence, imaging, luciferase, luciferin, multiplexing, unmixing
Abstract

Bioluminescent tools can illuminate cellular features in whole organisms. Multi-component tracking remains challenging, though, owing to a lack of well-resolved probes and long imaging times. To address the need for more rapid, quantitative, and multiplexed bioluminescent readouts, we developed an analysis pipeline featuring sequential substrate administration and serial image acquisition. Light output from each luciferin is layered on top of the previous image, with minimal delay between substrate delivery. A MATLAB algorithm was written to analyze bioluminescent images generated from the rapid imaging protocol and deconvolute (i.e., unmix) signals from luciferase-luciferin pairs. Mixtures comprising three to five luciferase reporters were readily distinguished in under 50 min; this same experiment would require days using conventional workflows. We further showed that the algorithm can be used to accurately quantify luciferase levels in heterogeneous mixtures. Based on its speed and versatility, the multiplexed imaging platform will expand the scope of bioluminescence technology.

Published
2022

36. Longitudinal monitoring of individual infection progression in Drosophila melanogaster

Author

Ramirez-Corona, Bryan A, Love, Anna C, Chandrasekaran, Srikiran, Prescher, Jennifer A, and Wunderlich, Zeba

Subjects
Bioengineering, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Microbiology, Optical imaging
Abstract

The innate immune system is critical for infection survival. Drosophila melanogaster is a key model for understanding the evolution and dynamics of innate immunity. Current toolsets for fly infection studies are limited in throughput and, because of their destructive nature, cannot generate longitudinal measurements in individual animals. We report a bioluminescent imaging strategy enabling non-invasive characterization of pathogen load. By using Escherichia coli expressing the ilux operon, we demonstrate that photon flux from autobioluminescent bacteria can be used to monitor pathogen loads in individual, living flies. Because animal sacrifice is not necessary to estimate pathogen load, stochastic responses to infection can be characterized in individuals over time. The high temporal resolution of bioluminescence imaging enables visualization of the dynamics of microbial clearance on the hours time-scale. This non-invasive imaging strategy provides a simple and scalable platform to observe changes in pathogen load in vivo over time.

Published
2022

37. Validity of Ultrasound for the Diagnosis of Arterial Thoracic Outlet SyndromeWHAT THIS PAPER ADDS

Author

Emilia Stegemann, Jana Larbig, Berthold Stegemann, Irene Portig, Hans Prescher, and Thomas Bürger

Subjects
Digital subtraction angiography, Sonography, Thoracic outlet syndrome, Diseases of the circulatory (Cardiovascular) system, RC666-701, Surgery, RD1-811
Abstract

Objective: Thoracic outlet syndrome (TOS) is a rare disorder mostly seen in younger individuals. Although patient wellbeing is relevantly impaired, it often takes a long time before the diagnosis is made. Digital subtraction angiography (DSA) is routinely used despite its radiation exposure, which is a major concern in this young patient population. Moreover, DSA offers limited opportunities for functional assessment. By contrast, ultrasonography is widely accessible without causing radiation exposure and allows for flexible functional assessment. The main goal of the study was to investigate whether ultrasound (US) was a viable alternative to DSA in diagnosing arterial TOS (aTOS). Methods: Patients, referred to a tertiary centre for evaluation of suspected TOS, were recruited into the study. DSA was routinely performed with the patient's arms both in the raised (abducted) and neutral (adducted) position. Two vascular surgeons and two radiologists assessed the resulting images for the presence of aTOS. Additionally, two examiners performed US according to a standardised protocol. The reference for presence of aTOS was the DSA based interdisciplinary vascular conference consensus. Inter-rater agreement and latent class analysis (LCA) were performed between assessors and diagnostic methods. Results: Fifty one consecutive patients (two thirds female) aged 39.3 ± 13.0 years were included within 11 months. US agreement was excellent at 0.94 (0.841–0.980), DSA agreement for vascular surgeons was good at 0.779 (0.479–1.000), whereas it was moderate at 0.546 (0.046–1.000) for radiologists. Results suggest that DSA is untenable as the gold standard for aTOS diagnosis. In LCA, US was shown to be a reliable diagnostic tool for the detection of aTOS. Conclusion: US examination is a valid test for the detection of haemodynamically relevant compression of arteries in the diagnostic work up of aTOS using a standardised protocol. The role of DSA as the gold standard should be reviewed and needs to be reconsidered.

Published
2024
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40. Evidence of non-isentropic release from high residual temperatures in shocked metals measured with ultrafast x-ray diffraction.

Author

Yang, Hong, Armstrong, Michael R., Austin, Ryan A., Radousky, Harry B., Patel, Akshat Hetal, Wei, Tiwei, Goncharov, Alexander F., Mao, Wendy L., Granados, Eduardo, Lee, Hae Ja, Nam, Inhyuk, Nagler, Bob, Walter, Peter, Belof, Jonathan L., Brown, Shaughnessy B., Prakapenka, Vitali, Lobanov, Sergey S., Prescher, Clemens, Holtgrewe, Nicolas, and Stavrou, Elissaios

Subjects
PROPERTIES of matter, METALLIC composites, STRAIN rate, PLANETARY surfaces, METALLIC films
Abstract

Shock experiments are widely used to understand the mechanical and electronic properties of matter under extreme conditions. However, after shock loading to a Hugoniot state, a clear description of the post-shock thermal state and its impacts on materials is still lacking. We used diffraction patterns from 100-fs x-ray pulses to investigate the temperature evolution of laser-shocked Al–Zr metal film composites at time delays ranging from 5 to 75 ns driven by a 120-ps short-pulse laser. We found significant heating of both Al and Zr after shock release, which can be attributed to heat generated by inelastic deformation. A conventional hydrodynamic model that employs (i) typical descriptions of Al and Zr mechanical strength and (ii) elevated strength responses (which might be attributed to an unknown strain rate dependence) did not fully account for the measured temperature increase, which suggests that other strength-related mechanisms (such as fine-scale void growth) could play an important role in thermal responses under shock wave loading/unloading cycles. Our results suggest that a significant portion of the total shock energy delivered by lasers becomes heat due to defect-facilitated plastic work, leaving less converted to kinetic energy. This heating effect may be common in laser-shocked experiments but has not been well acknowledged. High post-shock temperatures may induce phase transformation of materials during shock release. Another implication for the study is the preservability of magnetic records from planetary surfaces that have a shock history from frequent impact events. [ABSTRACT FROM AUTHOR]

Published
2024
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41. The Chemicals between Us--First Results of the Cluster Analyses on Anatomy Embalming Procedures in the German-Speaking Countries

Author

Kerner, Alexander Michael, Biedermann, Uta, Bräuer, Lars, Caspers, Svenja, Doll, Sara, Engelhardt, Maren, Filler, Timm J., Ghebremedhin, Estifanos, Gundlach, Stefanie, Hayn-Leichsenring, Gregor U., Heermann, Stephan, Hettwer-Steeger, Ingrid, Hiepe, Laura, Hirt, Bernhard, Hirtler, Lena, Hörmann, Rom, Kulisch, Christoph, Lange, Tobias, Leube, Rudolf, Meuser, Annika Hela, Müller-Gerbl, Magdalena, Nassenstein, Christina, Neckel, Peter H., Nimtschke, Ute, Paulsen, Friedrich, Prescher, Andreas, Pretterklieber, Michael, Schliwa, Stefanie, Schmidt, Katja, Schmiedl, Andreas, Schomerus, Christof, Schulze-Tanzil, Gundula, Schumacher, Udo, Schumann, Sven, Spindler, Volker, Streicher, Johannes, Tschernig, Thomas, Unverzagt, Axel, Valentiner, Ursula, Viebahn, Christoph, Wedel, Thilo, Weigner, Janet, Weninger, Wolfgang J., Westermann, Jürgen, Weyers, Imke, Waschke, Jens, and Hammer, Niels

Abstract

Hands-on courses utilizing preserved human tissues for educational training offer an important pathway to acquire basic anatomical knowledge. Owing to the reevaluation of formaldehyde limits by the European Commission, a joint approach was chosen by the German-speaking anatomies in Europe (Germany, Austria, Switzerland) to find commonalities among embalming protocols and infrastructure. A survey comprising 537 items was circulated to all anatomies in German-speaking Europe. Clusters were established for "ethanol"-, formaldehyde-based ("FA"), and "other" embalming procedures, depending on the chemicals considered the most relevant for each protocol. The logistical framework, volumes of chemicals, and infrastructure were found to be highly diverse between the groups and protocols. Formaldehyde quantities deployed per annum were three-fold higher in the "FA" (223 L/a) compared to the "ethanol" (71.0 L/a) group, but not for "other" (97.8 L/a), though the volumes injected per body were similar. "FA" was strongly related to table-borne air ventilation and total fixative volumes =1000 L. "Ethanol" was strongly related to total fixative volumes >1000 L, ceiling- and floor-borne air ventilation, and explosion-proof facilities. Air ventilation was found to be installed symmetrically in the mortuary and dissection facilities. Certain predictors exist for the interplay between the embalming used in a given infrastructure and technical measures. The here-established cluster analysis may serve as decision supportive tool when considering altering embalming protocols or establishing joint protocols between institutions, following a best practice approach to cater toward best-suited tissue characteristics for educational purposes, while simultaneously addressing future demands on exposure limits.

Published
2023
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45. Two-dimensional electron gases in AlYN/GaN heterostructures grown by metal–organic chemical vapor deposition

Author

Isabel Streicher, Patrik Straňák, Lutz Kirste, Mario Prescher, Stefan Müller, and Stefano Leone

Subjects
Biotechnology, TP248.13-248.65, Physics, QC1-999
Abstract

Wurtzite AlN alloyed with group 3 elements Sc and Y boosts the performance of GaN-based high-electron-mobility transistors (HEMTs) significantly as they increase the spontaneous polarization of the barrier layer and, thus, enhance the charge carrier density ns in the two-dimensional electron gas (2DEG) formed at the interface with the GaN channel. The emerging nitride Al1−xYxN additionally features an a lattice parameter matching to that of GaN at x = 0.07–0.11, allowing for the growth of strain-free barriers. Here, we demonstrate the growth of Al1−xYxN/GaN heterostructures for HEMTs by metal–organic chemical vapor deposition for the first time. The effect of the Y concentrations on the 2DEG is investigated in a Y concentration range from 3% to 15%. At 8% Y, a record mobility of 3200 cm2/(Vs) was measured at a low temperature (7 K). Room and low-temperature ns was at 1–2 × 1013 cm−2. Al0.92Y0.08N barriers were coherently strained to the GaN channel for barrier thicknesses from 5 to 15 nm. Finally, the deposition of Al1−xYxN/GaN heterostructures deposited on 4″ 4H–SiC wafers had a room-temperature mobility close to 1400 cm2/(Vs). AlYN/GaN heterostructures may offer advantages over AlScN/GaN heterostructures not only for the lower price and higher abundance of the raw material but also in terms of electrical characteristics and may be more suitable for power amplifying applications due to increased electron mobility.

Published
2024
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46. Demonstration and STEM Analysis of Ferroelectric Switching in MOCVD‐Grown Single Crystalline Al0.85Sc0.15N

Author

Niklas Wolff, Georg Schönweger, Isabel Streicher, Md Redwanul Islam, Nils Braun, Patrik Straňák, Lutz Kirste, Mario Prescher, Andriy Lotnyk, Hermann Kohlstedt, Stefano Leone, Lorenz Kienle, and Simon Fichtner

Subjects
AlScN, III‐nitrides, nanostructure, STEM, wurtzite ferroelectrics, Physics, QC1-999
Abstract

Abstract Wurtzite‐type Al1−xScxN solid solutions grown by metal organic chemical vapor deposition are for the first time confirmed to be ferroelectric. The film with 230 nm thickness and x = 0.15 exhibits a coercive field of 5.5 MV cm−1 at a measurement frequency of 1.5 kHz. The single crystal quality and homogeneous chemical composition of the film are confirmed by X‐ray diffraction and spectroscopic methods such as time of flight secondary ion mass spectrometry. Annular bright field scanning transmission electron microscopy serves to prove the ferroelectric polarization inversion at the unit cell level. The single crystal quality further allows to image the large‐scale domain pattern of a wurtzite‐type ferroelectric for the first time, revealing a predominantly cone‐like domain shape along the c‐axis of the material. As in previous work, this again implies the presence of strong polarization discontinuities along this crystallographic axis, which can be suitable for current transport. The domains are separated by narrow domain walls, for which an upper thickness limit of 3 nm is deduced but which can potentially be atomically sharp. The authors are confident that these results will advance the commencement of the integration of wurtzite‐type ferroelectrics to GaN as well as generally III‐N‐based heterostructures and devices.

Published
2024
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47. Fluorogenic Cyclopropenones for Multicomponent, Real-Time Imaging

Author

Heiss, Tyler K, Dorn, Robert S, Ferreira, Andrew J, Love, Anna C, and Prescher, Jennifer A

Subjects
Bioengineering, Generic health relevance, Cyclopropanes, Fluorescent Dyes, Chemical Sciences, General Chemistry
Abstract

Fluorogenic bioorthogonal reactions enable biomolecule visualization in real time. These reactions comprise reporters that "light up" upon reaction with complementary partners. While the spectrum of fluorogenic chemistries is expanding, few transformations are compatible with live cells due to cross-reactivities or insufficient signal turn-on. To address the need for more suitable chemistries for cellular imaging, we developed a fluorogenic reaction featuring cyclopropenone reporters and phosphines. The transformation involves regioselective activation and cyclization of cyclopropenones to form coumarin products. With optimal probes, the reaction provides >1600-fold signal turn-on, one of the highest fluorescence enhancements reported to date. The bioorthogonal motifs were evaluated in vitro and in cells. The reaction was also found to be compatible with other common fluorogenic transformations, enabling multicomponent, real-time imaging. Collectively, these data suggest that the cyclopropenone-phosphine reaction will bolster efforts to track biomolecule targets in their native settings.

Published
2022

49. Publisher Correction: Diamond precipitation dynamics from hydrocarbons at icy planet interior conditions

Author

Frost, Mungo, McWilliams, R. Stewart, Bykova, Elena, Bykov, Maxim, Husband, Rachel J., Andriambariarijaona, Leon M., Khandarkhaeva, Saiana, Massani, Bernhard, Appel, Karen, Baehtz, Carsten, Ball, Orianna B., Cerantola, Valerio, Chariton, Stella, Choi, Jinhyuk, Cynn, Hyunchae, Duff, Matthew J., Dwivedi, Anand, Edmund, Eric, Fiquet, Guillaume, Graafsma, Heinz, Hwang, Huijeong, Jaisle, Nicolas, Kim, Jaeyong, Konôpková, Zuzana, Laurus, Torsten, Lee, Yongjae, Liermann, Hanns-Peter, McHardy, James D., McMahon, Malcolm I., Morard, Guillaume, Nakatsutsumi, Motoaki, Nguyen, Lan Anh, Ninet, Sandra, Prakapenka, Vitali B., Prescher, Clemens, Redmer, Ronald, Stern, Stephan, Strohm, Cornelius, Sztuk-Dambietz, Jolanta, Turcato, Monica, Wu, Zhongyan, Glenzer, Siegfried H., and Goncharov, Alexander F.

Published
2024
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