256,300 results on '"microscopy"'
Search Results
2. Super-resolution microscopy by grating and deep neural network.
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Liu, Xingyu, Zhang, Zongyan, Yang, Songlin, Jiang, Wenli, Yu, Jiang, Fang, Wenjing, Zhang, Jia-Yu, and Ye, Yong-Hong
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ARTIFICIAL neural networks , *HIGH resolution imaging , *OPTICAL images , *MICROSCOPY , *MICROSCOPES - Abstract
In this study, a novel optical super-resolution imaging technique, grating and deep neural network assisted super-resolution microscopy, is proposed. The technique utilizes a sub-wavelength grating, placed between the sample and the microscope objective, to convert the evanescent waves of a sample surface into propagating waves, allowing more high spatial-frequency information of the sample to be detected in the far field. Then, the far-field image of the sample is captured and trained end-to-end with a customized deep neural network model to heuristically reconstruct a clear image of the sample with structural features smaller than λ/3. Compared with the existing super-resolution imaging techniques, the proposed technique has the advantages of label-free, large field of view, one-time direct imaging, and white light illumination and observation in an atmospheric environment. Moreover, it has the flexibility to replace raster and network rendering components according to specific inspection requirements to meet diverse application scenarios. [ABSTRACT FROM AUTHOR]
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- 2024
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3. A practical guide to light-sheet microscopy for nanoscale imaging: Looking beyond the cell.
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Kramer, Stephanie N., Antarasen, Jeanpun, Reinholt, Cole R., and Kisley, Lydia
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IMAGE reconstruction , *THREE-dimensional imaging , *MICROSCOPY , *DATA analysis , *CALIBRATION - Abstract
We present a comprehensive guide to light-sheet microscopy (LSM) to assist scientists in navigating the practical implementation of this microscopy technique. Emphasizing the applicability of LSM to image both static microscale and nanoscale features, as well as diffusion dynamics, we present the fundamental concepts of microscopy, progressing through beam profile considerations, to image reconstruction. We outline key practical decisions in constructing a home-built system and provide insight into the alignment and calibration processes. We briefly discuss the conditions necessary for constructing a continuous 3D image and introduce our home-built code for data analysis. By providing this guide, we aim to alleviate the challenges associated with designing and constructing LSM systems and offer scientists new to LSM a valuable resource in navigating this complex field. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Aseptic Silk Ligatures Induce Bone Resorption Around Titanium Implants: A 12-Week Pilot Study in Rabbits.
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Reinedahl, David, Galli, Silvia, Albrektsson, Tomas, Tengvall, Pentti, and Wennerberg, Ann
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DENTAL implants ,BONE resorption ,COMPLICATIONS of prosthesis ,RESEARCH funding ,MACROPHAGES ,OSSEOINTEGRATION ,TITANIUM ,PILOT projects ,POLYMERASE chain reaction ,DESCRIPTIVE statistics ,QUANTITATIVE research ,ANIMAL experimentation ,BACTERIAL diseases ,MICROSCOPY ,RABBITS ,BIOMARKERS - Abstract
Purpose: Marginal bone resorption (MBR) around dental implants may sometimes be a self-limiting condition due to balancing immunologic reactions against utilized materials rather than a progressive bacterial infection. Contrary to previous assumptions from ligature-induced experimental peri-implantitis studies, a recent 8-week experiment by the present authors showed that marginal ligatures trigger an inflammatory immune response, resulting in bone resorption around implants in the absence of plaque. The present study aimed to investigate whether this inflammatory/immunologic reaction attenuates or progresses toward implant failure after a longer healing time (12 weeks). Materials and Methods: Sterile silk ligatures were placed around the top of titanium (Ti) implants and compressed against the femoral cortical bone plate of six rabbits. A nonligated implant was used as a control. After 12 weeks of submerged healing, ground sections of implants and surrounding tissues were investigated with light microscopy. The marginal soft tissues were also analyzed using selected quantitative polymerase chain reaction (qPCR) markers. Results: Histologically, the ligatures were outlined by immune cells, including multinucleated giant cells (MNGCs), with adjacent fibrous encapsulation and resorbed peripheral bone that contrasted from the osseointegrated nonligated control implants. The difference in expression of qPCR markers was not significant, but > two-fold upregulation of markers CDIIb, IL1β, ARG1, NCF1, and CD4 and > twofold downregulation of CD8 indicated a mild, focal inflammatory/immune response against the ligatures compared to controls, with upregulation of M1 and M2 macrophages, neutrophils, and helper T-cells as well as downregulation of killer T cells. Further, the bone formation markers OC and ALPL were > two-fold downregulated (consistent with the lack of osseointegration of the ligatures) compared to control implants. Conclusions: Marginal silk ligatures trigger an inflammatory/immune response and aseptic bone resorption around implants. Compared to the previous 8-week study, the inflammatory reaction against the silk appears to attenuate with time, with only a mild persisting inflammation that may block osseointegration; instead, a fibrous tissue encapsulation-type reaction is maintained. This may explain why traditional ligature experiments have required regular exchange of ligatures for the bone resorption to progress. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Silver-induced layer exchange and crystallization of a-Si films investigated using in situ scanning transmission electron microscopy.
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Yadav, Surbhi, Birajdar, B. I., Kraschewski, S. M., Apeleo Zubiri, B., Antesberger, T., Stutzmann, M., and Spiecker, E.
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TRANSMISSION electron microscopy , *MICROSCOPY , *SCANNING electron microscopy , *SUBSTRATES (Materials science) , *CRYSTALLIZATION , *NEAR-field microscopy , *SCANNING transmission electron microscopy - Abstract
Ag-induced crystallization and layer exchange (AgILE) in a stack of amorphous Si/Ag/quartz substrate has been investigated using optical microscopy, scanning electron microscopy, transmission electron microscopy (TEM), scanning TEM-high angle annular dark field (STEM-HAADF) imaging, and electron tomography, covering length scales from a few tens of micrometers to a few tens of nanometers. The size of Ag grains in the underlying as-deposited Ag film varied from ∼10 to 500 nm. The following processes could be discerned using in situ heating of plan-view samples at 500 °C in STEM: (i) AgILE propagation preferentially along regions of small Ag grains, (ii) formation of pushed-up Ag in the vicinity of AgILE reaction cells, (iii) migration and agglomeration of pushed-up Ag on small and large Ag grains, which tend to inhibit AgILE and promote dendricity, and (iv) dispersion of pushed-up Ag, which tend to reduce dendricity. The resulting dendricity was largely confined to the peripheral regions of the impinging reaction cells and decreased with annealing time. In contrast, dendricity due to AgILE and crystallization at 550 °C is stable and extends right from the center to the periphery of the reaction cells. The microscopic mechanism of AgILE and, in particular, the effect of annealing temperature is investigated. The results are discussed in the light of existing literature and compared with Al-induced layer exchange. Annealing at temperature equal to or slightly less than 500 °C is found to be necessary in the case of AgILE to avoid dendricity and to obtain a continuous Si layer with large Si grains. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Morphologic Analysis of Zirconia Ceramics: Effect of Different Surface Treatments.
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Chao Chen, Cong Cao, Xun Yan, and Bao Hua Xu
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DENTAL fillings ,DENTAL bonding ,MATERIALS testing ,SURFACE properties ,X-ray spectroscopy ,KRUSKAL-Wallis Test ,DENTAL metallurgy ,DENTAL cements ,HYDROFLUORIC acid ,DESCRIPTIVE statistics ,DENTAL enamel ,SCANNING electron microscopy ,MICROSCOPY ,COMPARATIVE studies ,NANOPARTICLES ,ALUMINUM oxide - Abstract
This article investigated the effects of airborne-particle abrasion and nanosilica (nano-Si) infiltration treatment on the surface characteristics of dental zirconia. A total of 15 unsintered zirconia ceramic green bodies (10 × 10 × 3 mm) were divided into three groups (n = 5): Group C, no treatment after sintering; Group S, airborne-particle abrasion with 50-µm aluminum oxide particles after sintering; and Group N, infiltration of nano-Si followed by sintering and hydrofluoric acid (HF) etching. The zirconia disks' surface roughness was analyzed by atomic force microscopy (AFM). The surface morphology of the specimens was analyzed using scanning electron microscopy (SEM), and the chemical composition was analyzed by energy-dispersive x-ray (EDX). Data were statistically analyzed by Kruskal-Wallis test (P < .05). Zirconia surface treatments by infiltration of nano-Si, sintering, and HF etching showed multiple changes in the surface features. The surface roughness of Groups C, S, and N were 0.88 ± 0.07 µm, 1.26 ± 0.10 µm, and 1.69 ± 0.15 µm, respectively. The surface roughness of Group N was significantly higher than that of Groups C and S (P < .05). EDX analysis showed peaks that corresponded to silica (Si) after infiltration with colloidal Si that disappeared following acid etching. Infiltrating nano-Si increases the surface roughness of zirconia. The formation of retentive nanopores on the surface potentially improves the zirconia-resin cement bonding strengths. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Elucidating the role of Cr migration in Ni-Cr exposed to molten FLiNaK via multiscale characterization
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Mills, Sean H, Hayes, Ryan D, Bieberdorf, Nathan, Zeltmann, Steven E, Kennedy, Alexandra M, Capolungo, Laurent, Asta, Mark, Scarlat, Raluca O, and Minor, Andrew M
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Engineering ,Materials Engineering ,Physical Sciences ,Corrosion ,STEM HAADF ,Scanning electron microscopy ,Phase field modeling ,Four-dimensional scanning electron ,microscopy ,Energy dispersive spectroscopy ,Inductively coupled plasma optical emission ,spectroscopy ,Condensed Matter Physics ,Mechanical Engineering ,Materials ,Materials engineering ,Mechanical engineering ,Condensed matter physics - Abstract
Structural materials used in nuclear reactor environments are subjected to coupled extremes such as high temperature, irradiation, and corrosion which act in concert to degrade their functional performance. Connecting alloy microstructure such as grain boundaries, and accumulating point defects with corrosion attack and pore morphology is critical to understanding underlying mechanisms. We uncover the compositional variations and morphology at multiple length scales in corrosion-damaged Ni-Cr alloy after exposure to oxidants in molten fluoride salts. A complex network of dense corrosion pores is detected by surface-level SEM observations. The corrosion pores take on a 1-dimensional morphology and are enriched with Ni and depleted of Cr 1–5 µm from the pore surface. STEM-EDS and 4D-STEM strain maps acquired simultaneously highlight the local variations in composition and structure of a ≤ 200 nm Cr-rich layer identified from a cross-section taken at the bottom of an isolated corrosion pore between the Ni-Cr alloy matrix and the embedded salt. However, the absence of an observed interface between the Ni-Cr alloy matrix and the FCC-structured Cr-rich layer suggests that Cr plating from the salt did not transpire. These findings support a proposed Cr lattice diffusion mechanism rather than Cr-precipitation from the salt to accommodate temperature transient conditions during sample cooling. Through the development of a 1D phase field model, these results are rationalized by formation energies for the Ni- and Cr-oxidation into the molten salt. This study reveals the locally altered microstructure caused by high temperature corrosion in non-steady-state molten salt nuclear reactor environments.
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- 2024
8. Connectomic reconstruction predicts visual features used for navigation.
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Garner, Dustin, Kind, Emil, Lai, Jennifer Yuet Ha, Nern, Aljoscha, Zhao, Arthur, Houghton, Lucy, Sancer, Gizem, Wolff, Tanya, Rubin, Gerald M, Wernet, Mathias F, and Kim, Sung Soo
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Animals ,Drosophila melanogaster ,Visual Pathways ,Connectome ,Spatial Navigation ,Neurons ,Synapses ,Neuropil ,Male ,Female ,Optic Lobe ,Nonmammalian ,Microscopy ,Electron ,General Science & Technology - Abstract
Many animals use visual information to navigate1-4, but how such information is encoded and integrated by the navigation system remains incompletely understood. In Drosophila melanogaster, EPG neurons in the central complex compute the heading direction5 by integrating visual input from ER neurons6-12, which are part of the anterior visual pathway (AVP)10,13-16. Here we densely reconstruct all neurons in the AVP using electron-microscopy data17. The AVP comprises four neuropils, sequentially linked by three major classes of neurons: MeTu neurons10,14,15, which connect the medulla in the optic lobe to the small unit of the anterior optic tubercle (AOTUsu) in the central brain; TuBu neurons9,16, which connect the AOTUsu to the bulb neuropil; and ER neurons6-12, which connect the bulb to the EPG neurons. On the basis of morphologies, connectivity between neural classes and the locations of synapses, we identify distinct information channels that originate from four types of MeTu neurons, and we further divide these into ten subtypes according to the presynaptic connections in the medulla and the postsynaptic connections in the AOTUsu. Using the connectivity of the entire AVP and the dendritic fields of the MeTu neurons in the optic lobes, we infer potential visual features and the visual area from which any ER neuron receives input. We confirm some of these predictions physiologically. These results provide a strong foundation for understanding how distinct sensory features can be extracted and transformed across multiple processing stages to construct higher-order cognitive representations.
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- 2024
9. Impact of Tissue Handling and Size Modification on Septal Chondrocyte Viability
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Goshtasbi, Khodayar, Nguyen, Theodore V, Prasad, Karthik R, Hong, Ellen M, Sterritt, Naya, Dilley, Katelyn K, Kozlowski, Konrad, Ha, Alexis, and Wong, Brian JF
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Biomedical and Clinical Sciences ,Clinical Sciences ,Bioengineering ,cartilage viability ,chondrocyte viability ,diced cartilage ,rhinoplasty ,tissue viability ,Nasal Septum ,Chondrocytes ,Humans ,Microscopy ,Confocal ,Rhinoplasty ,Cell Survival ,Adult ,Female ,Male ,Nasal Cartilages ,Otorhinolaryngology ,Clinical sciences - Abstract
IntroductionThe physical modification of cartilage grafts during rhinoplasty risks chondrocyte death at the margins where the tissue is cut. This study compares chondrocyte viability between diced, scaled, and pate samples in human models, and further computes percent chondrocyte viability as a function of sequential dicing size in a computational model.MethodsSeptal cartilage from 11 individuals was prepared as follows: diced (1 mm cubic), scaled (shaved to 0.05). Conversely, pate samples had significantly less viability compared to positive controls, diced samples, and scaled samples (all p
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- 2024
10. Protocol to quantify the activation dynamics of tumor-associated T cells in mice by functional intravital microscopy.
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Geels, Shannon, Murat, Claire, Moshensky, Alexander, Othy, Shivashankar, and Marangoni, Francesco
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bioinformatics ,cancer ,immunology ,microscopy ,model organisms ,signal transduction - Abstract
Tumor-associated T cells orchestrate cancer rejection after checkpoint blockade immunotherapy. T cell function depends on dynamic antigen recognition through the T cell receptor (TCR) resulting in T cell activation. Here, we present an approach to quantify the dynamics and magnitude of tumor-associated T cell activation at multiple time points in living mice using the genetically encoded calcium reporter Salsa6f and functional intravital microscopy (F-IVM). Our protocol allows researchers to measure the activation dynamics of various immune cells in vivo. For complete details on the use and execution of this protocol, please refer to Geels et al.1.
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- 2024
11. The 4D Camera: An 87 kHz Direct Electron Detector for Scanning/Transmission Electron Microscopy
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Ercius, Peter, Johnson, Ian J, Pelz, Philipp, Savitzky, Benjamin H, Hughes, Lauren, Brown, Hamish G, Zeltmann, Steven E, Hsu, Shang-Lin, Pedroso, Cassio CS, Cohen, Bruce E, Ramesh, Ramamoorthy, Paul, David, Joseph, John M, Stezelberger, Thorsten, Czarnik, Cory, Lent, Matthew, Fong, Erin, Ciston, Jim, Scott, Mary C, Ophus, Colin, Minor, Andrew M, and Denes, Peter
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Biochemistry and Cell Biology ,Engineering ,Materials Engineering ,Biological Sciences ,Networking and Information Technology R&D (NITRD) ,Bioengineering ,active pixel sensor ,direct electron detector ,phase contrast STEM ,scanning transmission electron microscopy ,4D-STEM ,Condensed Matter Physics ,Microscopy ,Biochemistry and cell biology ,Materials engineering - Abstract
We describe the development, operation, and application of the 4D Camera-a 576 by 576 pixel active pixel sensor for scanning/transmission electron microscopy which operates at 87,000 Hz. The detector generates data at ∼480 Gbit/s which is captured by dedicated receiver computers with a parallelized software infrastructure that has been implemented to process the resulting 10-700 Gigabyte-sized raw datasets. The back illuminated detector provides the ability to detect single electron events at accelerating voltages from 30 to 300 kV. Through electron counting, the resulting sparse data sets are reduced in size by 10--300× compared to the raw data, and open-source sparsity-based processing algorithms offer rapid data analysis. The high frame rate allows for large and complex scanning diffraction experiments to be accomplished with typical scanning transmission electron microscopy scanning parameters.
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- 2024
12. Virtual birefringence imaging and histological staining of amyloid deposits in label-free tissue using autofluorescence microscopy and deep learning.
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Yang, Xilin, Bai, Bijie, Zhang, Yijie, Aydin, Musa, Li, Yuzhu, Selcuk, Sahan, Casteleiro Costa, Paloma, Guo, Zhen, Fishbein, Gregory, Atlan, Karine, Wallace, William, Pillar, Nir, and Ozcan, Aydogan
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Deep Learning ,Humans ,Birefringence ,Amyloid ,Microscopy ,Fluorescence ,Staining and Labeling ,Congo Red ,Microscopy ,Polarization ,Amyloidosis ,Optical Imaging ,Plaque ,Amyloid ,Myocardium - Abstract
Systemic amyloidosis involves the deposition of misfolded proteins in organs/tissues, leading to progressive organ dysfunction and failure. Congo red is the gold-standard chemical stain for visualizing amyloid deposits in tissue, showing birefringence under polarization microscopy. However, Congo red staining is tedious and costly to perform, and prone to false diagnoses due to variations in amyloid amount, staining quality and manual examination of tissue under a polarization microscope. We report virtual birefringence imaging and virtual Congo red staining of label-free human tissue to show that a single neural network can transform autofluorescence images of label-free tissue into brightfield and polarized microscopy images, matching their histochemically stained versions. Blind testing with quantitative metrics and pathologist evaluations on cardiac tissue showed that our virtually stained polarization and brightfield images highlight amyloid patterns in a consistent manner, mitigating challenges due to variations in chemical staining quality and manual imaging processes in the clinical workflow.
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- 2024
13. ProDOL: a general method to determine the degree of labeling for staining optimization and molecular counting.
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Tashev, Stanimir, Euchner, Jonas, Yserentant, Klaus, Hänselmann, Siegfried, Hild, Felix, Chmielewicz, Wioleta, Hummert, Johan, Schwörer, Florian, Tsopoulidis, Nikolaos, Germer, Stefan, Saßmannshausen, Zoe, Fackler, Oliver, Klingmüller, Ursula, and Herten, Dirk-Peter
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Humans ,Staining and Labeling ,Microscopy ,Fluorescence ,CD4-Positive T-Lymphocytes ,Adaptor Proteins ,Signal Transducing ,Lymphocyte Activation ,HIV-1 - Abstract
Determining the label to target ratio, also known as the degree of labeling (DOL), is crucial for quantitative fluorescence microscopy and a high DOL with minimal unspecific labeling is beneficial for fluorescence microscopy in general. Yet robust, versatile and easy-to-use tools for measuring cell-specific labeling efficiencies are not available. Here we present a DOL determination technique named protein-tag DOL (ProDOL), which enables fast quantification and optimization of protein-tag labeling. With ProDOL various factors affecting labeling efficiency, including substrate type, incubation time and concentration, as well as sample fixation and cell type can be easily assessed. We applied ProDOL to investigate how human immunodeficiency virus-1 pathogenesis factor Nef modulates CD4 T cell activation measuring total and activated copy numbers of the adapter protein SLP-76 in signaling microclusters. ProDOL proved to be a versatile and robust tool for labeling calibration, enabling determination of labeling efficiencies, optimization of strategies and quantification of protein stoichiometry.
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- 2024
14. Protocol for 3D surface texture modeling and quantitative spectral decomposition analysis in Drosophila border cell clusters
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Gabbert, Allison M, Mitchell, Noah P, Gemmill, Emily G, Campanale, Joseph P, Mondo, James A, and Montell, Denise J
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Biochemistry and Cell Biology ,Biological Sciences ,Biophysics ,Cell Biology ,Developmental biology ,Microscopy - Abstract
Drosophila border cell clusters model collective cell migration. Airyscan super-resolution microscopy enables fine-scale description of cluster shape and texture. Here we describe how to convert Airyscan images of border cell clusters into 3D models of the surface and detect regions of convex and concave curvature. We use spectral decomposition analysis to compare surface textures across genotypes to determine how genes of interest impact cluster surface geometry. This protocol applies to border cells and could generalize to additional cell types. For complete details on the use and execution of this protocol, please refer to Gabbert et al.1.
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- 2024
15. Occurrence of free-living amoebae in non-human primate gut
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Cardoso, Igor Rodrigues, de Lima, Clezia Siqueira, dos Reis, Rhagner Bonono, Pinto, Ana Cristina Araujo, Pissinatti, Thalita, Kugelmeier, Tatiana, da Costa Neto, Socrates Fraga, da Silva, Fabio Alves, and Santos, Helena Lúcia Carneiro
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- 2024
16. Cocatalyst activity mapping for photocatalytic materials revealed by the pattern-illumination time-resolved phase microscopy.
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Egawa, Yuta, Kawaguchi, Kei, Pan, Zhenhua, and Katayama, Kenji
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PHOTOCATALYSTS , *CHARGE carriers , *MICROSCOPY , *REFRACTIVE index , *GREEN business , *CHEMICAL-looping combustion , *PHOTOCATHODES - Abstract
Photocatalytic water-splitting represents a promising avenue for clean hydrogen production, necessitating an in-depth understanding of the photocatalytic reaction mechanism. The majority of the photocatalytic materials need cocatalysts to enhance the photo-oxidation or reduction reactions. However, the working mechanism, such as collecting charge carriers or reducing the reaction barrier, is not clear because they disperse inhomogeneously on a surface, and it is difficult to follow the local charge carrier behavior. This study employs the pattern-illumination time-resolved phase microscopy (PI-PM) method to unravel the spatial charge carrier behavior in photocatalytic systems, utilizing time-resolved microscopic image (refractive index change) sequences and their clustering analyses. This approach is robust for studying the change in local charge carrier behavior. We studied two major cocatalyst effects on photocatalysts: TiO2 with/without Pt and hematite with/without CoPi. The PI-PM method, supported by charge type clustering and the effects of scavengers, allowed for the analysis of local activity influenced by cocatalysts. This approach revealed that the introduction of cocatalysts alters the local distribution of charge carrier behavior and significantly impacts their decay rates. In TiO2 systems, the presence of Pt cocatalysts led to a local electron site on the micron scale, extending the lifetime to a few tens of microseconds from a few microseconds. Similarly, in hematite films with CoPi, we observed a notable accumulation of holes at cocatalyst sites, emphasizing the role of cocatalysts in enhancing photocatalytic efficiency. The study's findings highlight the complexity of charge carrier dynamics in photocatalytic processes and the significant influence of cocatalysts. [ABSTRACT FROM AUTHOR]
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- 2024
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17. Domain reorientation due to smectic layer instability in high tilt angle-based surface stabilized ferroelectric liquid crystal cell.
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Yadav, Neha, Kumar, Suraj, Choudhary, Amit, Thakur, Anil K., Rajesh, Singh, Surinder P., and Biradar, Ashok M.
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SMECTIC liquid crystals , *FERROELECTRIC liquid crystals , *OPTICAL devices , *MICROSCOPY , *SURFACE geometry , *LIQUID crystals - Abstract
High tilt angle (45 °) ferroelectric liquid crystal (F L C) in surface stabilized geometry, having no chiral smectic A (S m A ∗) phase, has been studied for the reorientation of the smectic layers near the transition temperature (T c). The electro-optical studies have shown the stripe domain formation in which the liquid crystal molecules are aligned along the rubbing direction, but the smectic layers are tilted away from the rubbing direction at room temperature. In such high tilt angle F L C s , the molecular alignment and smectic layer formation start from bottom and top rubbed grooves at T c. The domain formation of the FLC takes place in the middle of the top and bottom surfaces due to the frustration of the dipolar interaction. The smectic layer switching is observed by optical microscopy and confirmed by the dielectric spectroscopy method near T c of S m C ∗ and chiral nematic phases. Domain switching has shown a larger switching angle than the molecular tilt angle within the smectic layer. These studies are expected to be significant for understanding the smectic layer structure and the domain switching process, which may pave the way for large optical switching devices. [ABSTRACT FROM AUTHOR]
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- 2024
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18. Nanoscale visualization of fast carrier dynamics in organic thin-film transistors by time-resolved electrostatic force microscopy.
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Yamagishi, Yuji, Kobayashi, Kei, Kimura, Tomoharu, Noda, Kei, and Yamada, Hirofumi
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TRANSISTORS , *DECAY constants , *MICROSCOPY , *DATA visualization , *SEMICONDUCTOR devices , *CRYSTAL grain boundaries , *THIN film transistors , *MOBILITY of older people - Abstract
Fast carrier dynamics in organic thin-film transistors (OTFTs) was investigated by time-resolved electrostatic force microscopy (tr-EFM). We found that the carrier diffusion in the OTFTs proceeded in two stages: fast diffusion and slow diffusion. By applying the instantaneous frequency method to EFM, the temporal evolution of the spatial distribution of fast carriers in the channel region of the OTFTs, which took place on the timescale of several hundreds of nanoseconds, was evaluated. The inhomogeneous distribution of the local decay time constant showed that the carrier diffusion of the OTFTs was limited by the grain boundaries between each crystalline region. The quantitative capability of the method was verified by comparing the values of the carrier mobility estimated by the tr-EFM measurement and a numerical simulation. The mobility estimated from the experiment and the simulation showed good agreement, showing the possibility of the tr-EFM to evaluate the time evolution of dynamic phenomena in semiconductor devices. [ABSTRACT FROM AUTHOR]
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- 2024
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19. Thermal noise calibration of functionalized cantilevers for force microscopy: Effects of the colloidal probe position.
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Archambault, Aubin, Crauste-Thibierge, Caroline, and Bellon, Ludovic
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THERMAL noise , *CANTILEVERS , *CALIBRATION , *MICROSCOPY , *MEMS resonators - Abstract
Colloidal probes are often used in force microscopy when the geometry of the tip–sample interaction should be well controlled. Their calibration requires an understanding of their mechanical response, which is very sensitive to the details of the force sensor consisting of a cantilever and the attached colloid. We present some analytical models to describe the dynamics of the cantilever and its load positioned anywhere along its length. The thermal noise calibration of such probes is then studied from a practical point of view, leading to correction coefficients that can be applied in standard force microscope calibration routines. Experimental measurements of resonance frequencies and thermal noise profiles of raw and loaded cantilevers demonstrate the validity of the approach. [ABSTRACT FROM AUTHOR]
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- 2024
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20. Probing Defectivity Beneath the Hydrocarbon Blanket in 2D hBN Using TEM-EELS
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Byrne, Dana O, Ciston, Jim, and Allen, Frances I
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Biochemistry and Cell Biology ,Engineering ,Materials Engineering ,Biological Sciences ,2D materials ,contamination ,defects ,EELS ,hexagonal boron nitride ,Condensed Matter Physics ,Microscopy ,Biochemistry and cell biology ,Materials engineering - Abstract
The controlled creation and manipulation of defects in 2D materials has become increasingly popular as a means to design and tune new material functionalities. However, defect characterization by direct atomic-scale imaging is often severely limited by surface contamination due to a blanket of hydrocarbons. Thus, analysis techniques that can characterize atomic-scale defects despite the contamination layer are advantageous. In this work, we take inspiration from X-ray absorption spectroscopy and use broad-beam electron energy loss spectroscopy (EELS) to characterize defect structures in 2D hexagonal boron nitride (hBN) based on averaged fine structure in the boron K-edge. Since EELS is performed in a transmission electron microscope (TEM), imaging can be performed in-situ to assess contamination levels and other factors such as tears in the fragile 2D sheets, which can affect the spectroscopic analysis. We demonstrate the TEM-EELS technique for 2D hBN samples irradiated with different ion types and doses, finding spectral signatures indicative of boron-oxygen bonding that can be used as a measure of sample defectiveness depending on the ion beam treatment. We propose that even in cases where surface contamination has been mitigated, the averaging-based TEM-EELS technique can be useful for efficient sample surveys to support atomically resolved EELS experiments.
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- 2024
21. Nanoscale ultrastructures increase the visual conspicuousness of signalling traits in obligate cleaner shrimps.
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Caves, Eleanor M, Davis, Alexander L, and Johnsen, Sönke
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Biological Sciences ,Ecology ,Good Health and Well Being ,Animals ,Palaemonidae ,Microscopy ,Electron ,Scanning ,Animal Communication ,Arthropod Antennae ,Decapoda ,Interspecific signaling ,Isoxanthopterin ,Mutualism ,Visual Ecology ,Medical and Health Sciences ,Physiology ,Biological sciences - Abstract
Signal theory predicts organisms should evolve signals that are conspicuous to intended receivers in natural signalling environments. Cleaner shrimps remove ectoparasites from reef fish clients and many signal their intent to clean by whipping long, white antennae. As white is a reliably conspicuous colour in aquatic environments, we hypothesized that selection has acted to increase broad-spectrum antennal reflectance in cleaners. Using scanning electron microscopy, optical models and reflectance measurements, we found that the antennae in three obligate cleaner species from two families (Palaemonidae and Lysmatidae) had thick (∼6 µm) chitinous layers or densely packed high refractive index spheres (300-400 nm diameter), which models show increase reflectance (400-700 nm). Two facultative and non-cleaning species had no visible antennae ultrastructure beyond the chitinous exoskeleton. Antennae reflectance was significantly higher in obligate cleaners than in facultative and non-cleaning species. Our results suggest that some obligate cleaners may have evolved ultrastructures that increase the conspicuousness of their antennae as signals.
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- 2024
22. Multiplexed volumetric CLEM enabled by scFvs provides insights into the cytology of cerebellar cortex.
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Han, Xiaomeng, Lu, Xiaotang, Li, Peter, Wang, Shuohong, Schalek, Richard, Meirovitch, Yaron, Lin, Zudi, Adhinarta, Jason, Murray, Karl, MacNiven, Leah, Berger, Daniel, Wu, Yuelong, Fang, Tao, Meral, Elif, Asraf, Shadnan, Ploegh, Hidde, Pfister, Hanspeter, Wei, Donglai, Jain, Viren, Trimmer, James, and Lichtman, Jeff
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Animals ,Female ,Mice ,Cerebellar Cortex ,Microscopy ,Confocal ,Microscopy ,Electron ,Connectome ,Neurons ,Fluorescent Dyes ,Mice ,Inbred C57BL ,Cytology - Abstract
Mapping neuronal networks is a central focus in neuroscience. While volume electron microscopy (vEM) can reveal the fine structure of neuronal networks (connectomics), it does not provide molecular information to identify cell types or functions. We developed an approach that uses fluorescent single-chain variable fragments (scFvs) to perform multiplexed detergent-free immunolabeling and volumetric-correlated-light-and-electron-microscopy on the same sample. We generated eight fluorescent scFvs targeting brain markers. Six fluorescent probes were imaged in the cerebellum of a female mouse, using confocal microscopy with spectral unmixing, followed by vEM of the same sample. The results provide excellent ultrastructure superimposed with multiple fluorescence channels. Using this approach, we documented a poorly described cell type, two types of mossy fiber terminals, and the subcellular localization of one type of ion channel. Because scFvs can be derived from existing monoclonal antibodies, hundreds of such probes can be generated to enable molecular overlays for connectomic studies.
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- 2024
23. Emissive Guanosine Analog Applicable for Real-Time Live Cell Imaging
- Author
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Steinbuch, Kfir B, Cong, Deyuan, Rodriguez, Anthony J, and Tor, Yitzhak
- Subjects
Inorganic Chemistry ,Chemical Sciences ,Biological Sciences ,Humans ,DNA-Directed RNA Polymerases ,Viral Proteins ,Guanosine ,Microscopy ,Confocal ,Cell Survival ,HEK293 Cells ,Organic Chemistry ,Biological sciences ,Chemical sciences - Abstract
A new emissive guanosine analog CF3thG, constructed by a single trifluoromethylation step from the previously reported thG, displays red-shifted absorption and emission spectra compared to its precursor. The impact of solvent type and polarity on the photophysical properties of CF3thG suggests that the electronic effects of the trifluoromethyl group dominate its behavior and demonstrates its susceptibility to microenvironmental polarity changes. In vitro transcription initiations using T7 RNA polymerase, initiated with CF3thG, result in highly emissive 5'-labeled RNA transcripts, demonstrating the tolerance of the enzyme toward the analog. Viability assays with HEK293T cells displayed no detrimental effects at tested concentrations, indicating the safety of the analog for cellular applications. Live cell imaging of the free emissive guanosine analog using confocal microscopy was facilitated by its red-shifted absorption and emission and adequate brightness. Real-time live cell imaging demonstrated the release of the guanosine analog from HEK293T cells at concentration-gradient conditions, which was suppressed by the addition of guanosine.
- Published
- 2024
24. A method for crystallographic mapping of an alpha‐beta titanium alloy with nanometre resolution using scanning precession electron diffraction and open‐source software libraries
- Author
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MacLaren, Ian, Frutos‐Myro, Enrique, Zeltmann, Steven, and Ophus, Colin
- Subjects
Inorganic Chemistry ,Chemical Sciences ,Bioengineering ,automated crystal orientation mapping ,precession electron diffraction ,titanium ,Condensed Matter Physics ,Biochemistry and Cell Biology ,Materials Engineering ,Microscopy ,Biochemistry and cell biology ,Physical chemistry ,Materials engineering - Abstract
An approach for the crystallographic mapping of two-phase alloys on the nanoscale using a combination of scanned precession electron diffraction and open-source python libraries is introduced in this paper. This method is demonstrated using the example of a two-phase α/β titanium alloy. The data were recorded using a direct electron detector to collect the patterns, and recently developed algorithms to perform automated indexing and analyse the crystallography from the results. Very high-quality mapping is achieved at a 3 nm step size. The results show the expected Burgers orientation relationships between the α laths and β matrix, as well as the expected misorientations between α laths. A minor issue was found that one area was affected by 180° ambiguities in indexing occur due to this area being aligned too close to a zone axis of the α with twofold projection symmetry (not present in 3D) in the zero-order Laue Zone, and this should be avoided in data acquisition in the future. Nevertheless, this study demonstrates a good workflow for the analysis of nanocrystalline two- or multi-phase materials, which will be of widespread use in analysing two-phase titanium and other systems and how they evolve as a function of thermomechanical treatments.
- Published
- 2024
25. Correlative Lorentz and Dark Field TEM for Studying Skyrmion-Defect Interactions in van der Waals Ferromagnet Co-doped Fe5GeTe2
- Author
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Yalisove, Reed, Meisenheimer, Peter, Zhang, Hongrui, Chen, Xiang, Birgeneau, Robert J, Ramesh, Ramamoorthy, and Scott, Mary C
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Biochemistry and Cell Biology ,Engineering ,Materials Engineering ,Biological Sciences ,Condensed Matter Physics ,Microscopy ,Biochemistry and cell biology ,Materials engineering - Published
- 2024
26. Difficult Measurements of Materials Systems at Cryogenic Temperatures: Cryo-EELS and Cryo-4D-STEM
- Author
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Ercius, Peter, Susarla, Sandhya, Naik, Mit H, Xie, Yujun, Wang, Jingyang, Raja, Archana, Ophus, Colin, and Zheng, Haimei
- Subjects
Biochemistry and Cell Biology ,Engineering ,Materials Engineering ,Biological Sciences ,Condensed Matter Physics ,Microscopy ,Biochemistry and cell biology ,Materials engineering - Published
- 2024
27. MicroED-Informed 4D-STEM of MOFs for Carbon Capture
- Author
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Karstens, Sarah L, Dods, Matthew N, Saha, Ambarneil, Bustillo, Karen C, Ercius, Peter, Long, Jeffrey R, and Minor, Andrew M
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Biochemistry and Cell Biology ,Engineering ,Materials Engineering ,Biological Sciences ,Condensed Matter Physics ,Microscopy ,Biochemistry and cell biology ,Materials engineering - Published
- 2024
28. Second harmonic generation microscopy of electromechanical reshaping on corneal collagen
- Author
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Dilley, Katelyn K, Prasad, Karthik R, Nguyen, Theodore V, Stokolosa, Anna, Borden, Pamela A, Heur, J Martin, Kim, Sehwan, Hill, Michael G, and Wong, Brian JF
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Biomedical and Clinical Sciences ,Ophthalmology and Optometry ,Bioengineering ,Eye Disease and Disorders of Vision ,Animals ,Rabbits ,Second Harmonic Generation Microscopy ,Collagen ,Microscopy ,Confocal ,Corneal Stroma ,Cornea ,Medical Biochemistry and Metabolomics ,Neurosciences ,Opthalmology and Optometry ,Ophthalmology & Optometry ,Ophthalmology and optometry - Abstract
Refractive errors remain a global health concern, as a large proportion of the world's population is myopic. Current ablative approaches are costly, not without risks, and not all patients are candidates for these procedures. Electromechanical reshaping (EMR) has been explored as a viable cost-effective modality to directly shape tissues, including cartilage. In this study, stromal collagen structure and fibril orientation was examined before and after EMR with second-harmonic generation microscopy (SHG), a nonlinear multiphoton imaging method that has previously been used to study native corneal collagen with high spatial resolution. EMR, using a milled metal contact lens and potentiostat, was performed on the corneas of five extracted rabbit globes. SHG was performed using a confocal microscopy system and all images underwent collagen fibril orientation analysis. The collagen SHG signal in controls is uniform and is similarly seen in samples treated with pulsed potential, while continuous EMR specimens have reduced, nonhomogeneous signal. Collagen fibril orientation in native tissue demonstrates a broad distribution with suggestion of another peak evolving, while with EMR treated eyes a bimodal characteristic becomes readily evident. Pulsed EMR may be a means to correct refractive errors, as when comparing its SHG signal to negative control, preservation of collagen structures with little to no damage is observed. From collagen fiber orientation analysis, it can be inferred that simple DC application alters the structure of collagen. Future studies will involve histological assessment of these layers and multi-modal imaging analysis of dosimetry.
- Published
- 2024
29. Permittivity tensor imaging: modular label-free imaging of 3D dry mass and 3D orientation at high resolution.
- Author
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Yeh, Li-Hao, Ivanov, Ivan, Chandler, Talon, Byrum, Janie, Chhun, Bryant, Guo, Syuan-Ming, Foltz, Cameron, Hashemi, Ezzat, Perez-Bermejo, Juan, Wang, Huijun, Yu, Yanhao, Kazansky, Peter, Conklin, Bruce, Han, May, and Mehta, Shalin
- Subjects
Imaging ,Three-Dimensional ,Animals ,Mice ,Algorithms ,Brain ,Microscopy ,Software ,Humans ,Image Processing ,Computer-Assisted - Abstract
The dry mass and the orientation of biomolecules can be imaged without a label by measuring their permittivity tensor (PT), which describes how biomolecules affect the phase and polarization of light. Three-dimensional (3D) imaging of PT has been challenging. We present a label-free computational microscopy technique, PT imaging (PTI), for the 3D measurement of PT. PTI encodes the invisible PT into images using oblique illumination, polarization-sensitive detection and volumetric sampling. PT is decoded from the data with a vectorial imaging model and a multi-channel inverse algorithm, assuming uniaxial symmetry in each voxel. We demonstrate high-resolution imaging of PT of isotropic beads, anisotropic glass targets, mouse brain tissue, infected cells and histology slides. PTI outperforms previous label-free imaging techniques such as vector tomography, ptychography and light-field imaging in resolving the 3D orientation and symmetry of organelles, cells and tissue. We provide open-source software and modular hardware to enable the adoption of the method.
- Published
- 2024
30. Dynamic Structural Change of Plant Epidermal Cell Walls under Strain
- Author
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Yu, Jingyi, Del Mundo, Joshua T, Freychet, Guillaume, Zhernenkov, Mikhail, Schaible, Eric, Gomez, Esther W, Gomez, Enrique D, and Cosgrove, Daniel J
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Engineering ,Macromolecular and Materials Chemistry ,Materials Engineering ,Chemical Sciences ,Cell Wall ,Plant Epidermis ,Microscopy ,Atomic Force ,Cellulose ,Microfibrils ,X-Ray Diffraction ,Scattering ,Small Angle ,Onions ,Stress ,Mechanical ,atomic force microscopy ,plant epidermal cell walls ,small‐angle X‐ray scattering ,strain‐hardening ,wide‐angle X‐ray scattering ,Nanoscience & Nanotechnology - Abstract
The molecular foundations of epidermal cell wall mechanics are critical for understanding structure-function relationships of primary cell walls in plants and facilitating the design of bioinspired materials. To uncover the molecular mechanisms regulating the high extensibility and strength of the cell wall, the onion epidermal wall is stretched uniaxially to various strains and cell wall structures from mesoscale to atomic scale are characterized. Upon longitudinal stretching to high strain, epidermal walls contract in the transverse direction, resulting in a reduced area. Atomic force microscopy shows that cellulose microfibrils exhibit orientation-dependent rearrangements at high strains: longitudinal microfibrils are straightened out and become highly ordered, while transverse microfibrils curve and kink. Small-angle X-ray scattering detects a 7.4 nm spacing aligned along the stretch direction at high strain, which is attributed to distances between individual cellulose microfibrils. Furthermore, wide-angle X-ray scattering reveals a widening of (004) lattice spacing and contraction of (200) lattice spacing in longitudinally aligned cellulose microfibrils at high strain, which implies longitudinal stretching of the cellulose crystal. These findings provide molecular insights into the ability of the wall to bear additional load after yielding: the aggregation of longitudinal microfibrils impedes sliding and enables further stretching of the cellulose to bear increased loads.
- Published
- 2024
31. Four Parallel Pathways in T4 Ligase-Catalyzed Repair of Nicked DNA with Diverse Bending Angles.
- Author
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Li, Na, Ma, Jianbing, Fu, Hang, Yang, Zhiwei, Xu, Chunhua, Li, Haihong, Zhao, Yimin, Zhao, Yizhen, Chen, Shuyu, Gou, Lu, Zhang, Xinghua, Zhang, Shengli, Li, Ming, Hou, Ximiao, Zhang, Lei, and Lu, Ying
- Subjects
T4 DNA ligase ,conformational dynamics ,parallel enzymatic pathways ,protein machines ,single molecules ,DNA Ligases ,DNA ,DNA Repair ,Fluorescence Resonance Energy Transfer ,Nucleic Acid Conformation ,Bacteriophage T4 ,Microscopy ,Electron - Abstract
The structural diversity of biological macromolecules in different environments contributes complexity to enzymological processes vital for cellular functions. Fluorescence resonance energy transfer and electron microscopy are used to investigate the enzymatic reaction of T4 DNA ligase catalyzing the ligation of nicked DNA. The data show that both the ligase-AMP complex and the ligase-AMP-DNA complex can have four conformations. This finding suggests the parallel occurrence of four ligation reaction pathways, each characterized by specific conformations of the ligase-AMP complex that persist in the ligase-AMP-DNA complex. Notably, these complexes have DNA bending angles of ≈0°, 20°, 60°, or 100°. The mechanism of parallel reactions challenges the conventional notion of simple sequential reaction steps occurring among multiple conformations. The results provide insights into the dynamic conformational changes and the versatile attributes of T4 DNA ligase and suggest that the parallel multiple reaction pathways may correspond to diverse T4 DNA ligase functions. This mechanism may potentially have evolved as an adaptive strategy across evolutionary history to navigate complex environments.
- Published
- 2024
32. HaloTag display enables quantitative single-particle characterisation and functionalisation of engineered extracellular vesicles.
- Author
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Mitrut, Roxana, Stranford, Devin, DiBiase, Beth, Chan, Jonathan, Bailey, Matthew, Luo, Minrui, Harper, Clare, Meade, Thomas, Wang, Muzhou, and Leonard, Joshua
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HaloTag ,extracellular vesicle ,quantification ,single vesicle ,Extracellular Vesicles ,Humans ,Flow Cytometry ,Protein Engineering ,Microscopy ,Fluorescence ,Bioengineering - Abstract
Extracellular vesicles (EVs) play key roles in diverse biological processes, transport biomolecules between cells and have been engineered for therapeutic applications. A useful EV bioengineering strategy is to express engineered proteins on the EV surface to confer targeting, bioactivity and other properties. Measuring how incorporation varies across a population of EVs is important for characterising such materials and understanding their function, yet it remains challenging to quantitatively characterise the absolute number of engineered proteins incorporated at single-EV resolution. To address these needs, we developed a HaloTag-based characterisation platform in which dyes or other synthetic species can be covalently and stoichiometrically attached to engineered proteins on the EV surface. To evaluate this system, we employed several orthogonal quantification methods, including flow cytometry and fluorescence microscopy, and found that HaloTag-mediated quantification is generally robust across EV analysis methods. We compared HaloTag-labelling to antibody-labelling of EVs using single vesicle flow cytometry, enabling us to measure the substantial degree to which antibody labelling can underestimate proteins present on an EV. Finally, we demonstrate the use of HaloTag to compare between protein designs for EV bioengineering. Overall, the HaloTag system is a useful EV characterisation tool which complements and expands existing methods.
- Published
- 2024
33. NerveTracker: a Python-based software toolkit for visualizing and tracking groups of nerve fibers in serial block-face microscopy with ultraviolet surface excitation images.
- Author
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Kolluru, Chaitanya, Joseph, Naomi, Seckler, James, Fereidouni, Farzad, Levenson, Richard, Shoffstall, Andrew, Jenkins, Michael, and Wilson, David
- Subjects
microscopy ,optic flow ,peripheral nerves ,structure tensor analysis ,tractography ,Software ,Nerve Fibers ,Imaging ,Three-Dimensional ,Algorithms ,Animals ,Image Processing ,Computer-Assisted ,Tibial Nerve ,Vagus Nerve ,Microscopy ,Ultraviolet ,Microscopy - Abstract
SIGNIFICANCE: Information about the spatial organization of fibers within a nerve is crucial to our understanding of nerve anatomy and its response to neuromodulation therapies. A serial block-face microscopy method [three-dimensional microscopy with ultraviolet surface excitation (3D-MUSE)] has been developed to image nerves over extended depths ex vivo. To routinely visualize and track nerve fibers in these datasets, a dedicated and customizable software tool is required. AIM: Our objective was to develop custom software that includes image processing and visualization methods to perform microscopic tractography along the length of a peripheral nerve sample. APPROACH: We modified common computer vision algorithms (optic flow and structure tensor) to track groups of peripheral nerve fibers along the length of the nerve. Interactive streamline visualization and manual editing tools are provided. Optionally, deep learning segmentation of fascicles (fiber bundles) can be applied to constrain the tracts from inadvertently crossing into the epineurium. As an example, we performed tractography on vagus and tibial nerve datasets and assessed accuracy by comparing the resulting nerve tracts with segmentations of fascicles as they split and merge with each other in the nerve sample stack. RESULTS: We found that a normalized Dice overlap ( Dice norm ) metric had a mean value above 0.75 across several millimeters along the nerve. We also found that the tractograms were robust to changes in certain image properties (e.g., downsampling in-plane and out-of-plane), which resulted in only a 2% to 9% change to the mean Dice norm values. In a vagus nerve sample, tractography allowed us to readily identify that subsets of fibers from four distinct fascicles merge into a single fascicle as we move ∼ 5 mm along the nerves length. CONCLUSIONS: Overall, we demonstrated the feasibility of performing automated microscopic tractography on 3D-MUSE datasets of peripheral nerves. The software should be applicable to other imaging approaches. The code is available at https://github.com/ckolluru/NerveTracker.
- Published
- 2024
34. Visualizing ribonuclease digestion of RNA-like polymers produced by hot wet-dry cycles
- Author
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Da Silva, Laura, Eiby, Simon Holm Jacobsen, Bjerrum, Morten Jannik, Thulstrup, Peter Waaben, Deamer, David, and Hassenkam, Tue
- Subjects
Biochemistry and Cell Biology ,Biological Sciences ,Genetics ,RNA ,Ribonuclease ,Pancreatic ,Uridine Monophosphate ,Microscopy ,Atomic Force ,Hot Temperature ,Polymers ,Adenosine Monophosphate ,Hydrolysis ,Polymerization ,RNA world hypothesis ,RNA synthesis ,Hydrothermal fields ,'-5 ' phosphodiester bonds ,3′-5′ phosphodiester bonds ,Medicinal and Biomolecular Chemistry ,Medical Biochemistry and Metabolomics ,Biochemistry & Molecular Biology ,Biochemistry and cell biology ,Medicinal and biomolecular chemistry - Abstract
Polymerization of nucleotides under prebiotic conditions simulating the early Earth has been extensively studied. Several independent methods have been used to verify that RNA-like polymers can be produced by hot wet-dry cycling of nucleotides. However, it has not been shown that these RNA-like polymers are similar to biological RNA with 3'-5' phosphodiester bonds. In the results described here, RNA-like polymers were generated from 5'-monophosphate nucleosides AMP and UMP. To confirm that the polymers resemble biological RNA, ribonuclease A should catalyze hydrolysis of the 3'-5' phosphodiester bonds between pyrimidine nucleotides to each other or to purine nucleotides, but not purine-purine nucleotide bonds. Here we show AFM images of specific polymers produced by hot wet-dry cycling of AMP, UMP and AMP/UMP (1:1) solutions on mica surfaces, before and after exposure to ribonuclease A. AMP polymers were unaffected by ribonuclease A but UMP polymers disappeared. This indicates that a major fraction of the bonds in the UMP polymers is indeed 3'-5' phosphodiester bonds. Some of the polymers generated from the AMP/UMP mixture also showed clear signs of cleavage. Because ribonuclease A recognizes the ester bonds in the polymers, we show for the first time that these prebiotically produced polymers are in fact similar to biological RNA but are likely to be linked by a mixture of 3'-5' and 2'-5' phosphodiester bonds.
- Published
- 2024
35. Evaluation of Loop-Mediated Isothermal Amplification (LAMP) in Urine Samples for the Diagnosis of Imported Schistosomiasis
- Author
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Salas-Coronas, Joaquin, Luzon-Garcia, Maria Pilar, Crego-Vicente, Beatriz, Soriano-Perez, Manuel Jesus, Febrer-Sendra, Begona, Vazquez-Villegas, Jose, Diego, Juan Garcia-Bernalt, Cabeza-Barrera, Isabel Maria, Castillo-Fernandez, Nerea, Muro, Antonio, Bargues, Maria Dolores, and Fernandez-Soto, Pedro
- Published
- 2023
36. Detailed dynamical features of the slow hydration water in the vicinity of poly(ethylene oxide) chains.
- Author
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Kikuchi, T., Tominaga, T., Murakami, D., de Souza, N. R., Tanaka, M., and Seto, H.
- Subjects
- *
WATER of crystallization , *QUASI-elastic scattering , *NEUTRON scattering , *HYDRATION , *MICROSCOPY , *DIFFUSION coefficients - Abstract
Poly(ethylene oxide) (PEO) is a well-known biocompatible polymer and has widely been used for medical applications. Recently, we have investigated the dynamic behavior of hydration water in the vicinity of PEO chains at physiological temperature and shown the presence of slow water with diffusion coefficient one order of magnitude less than that of bulk water. This could be evidence for the intermediate water that is critical for biocompatibility; however, its detailed dynamical features were not established. In this article, we analyze the quasi-elastic neutron scattering from hydration water through mode distribution analysis and present a microscopic picture of hydration water as well as its relation to cold crystallization. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
37. Influence of cement type, excess removal, and polishing on the cement joint.
- Author
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Beierlein, Georg, Haas, Laura, Hahnel, Sebastian, Schmidt, Michael, and Rosentritt, Martin
- Subjects
TOOTH anatomy ,PEARSON correlation (Statistics) ,DENTAL fillings ,DENTAL materials ,DENTAL crowns ,DESCRIPTIVE statistics ,BONE cements ,ANALYSIS of variance ,ADHESIVES ,MICROSCOPY ,TEETH polishing - Abstract
Objectives: To compare marginal gap width and depth with different cementation systems, excess removal, and after polishing. Method and materials: In total, 80 composite crowns were milled, divided into ten groups, and cemented on identical artificial teeth. Eight crowns per group were fixed with (i) zinc phosphate cement (ZnOPh), (ii) glass-ionomer cement (GIC), (iii) resin-reinforced glass-ionomer cement (GIC mod), (iv) dual-curing adhesive composite (Comp dual), or (v) dual-curing self-adhesive composite (Comp SE dual). Excess removal was performed with a scaler after brief light-cure (tack-cure), final light-cure, during rubber or gel phase or by wiping with foam pellet. Curing was completed in chemical, dark cure, or light-curing modus. The specimens were polished and stored in water (37°C). The margins were digitized using a 3D laser-scanning microscope (VK-X100 series, Keyence). The width and the depth of the marginal gap were measured at 10 points between the crown margin and the preparation margin. Results: The width after excess removal varied between 65.1 ± 15.7 µm (Comp dual, wipe, with polishing) and 208.6 ± 266.7 µm (Comp SE dual, dark cure, without polishing). The depth varied between 29.8 ± 22.2 µm (Comp dual, wipe, with polishing) and 89.5 ± 45.2 µm (Comp SE dual, dark cure, without polishing). The impact on gap width and depth was detected for fixation material, excess removal, and polishing. Conclusion: The gap depth and width depend on the luting material and the mode of access removal. Polishing can improve the gap quality, especially for GIC and resin-based systems. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
38. Lyotropic liquid crystal phases of monoolein in protic ionic liquids.
- Author
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Paporakis, Stefan, Brown, Stuart J., Darmanin, Connie, Seibt, Susanne, Adams, Patrick, Hassett, Michael, Martin, Andrew V., and Greaves, Tamar L.
- Subjects
- *
LYOTROPIC liquid crystals , *LIQUID crystal states , *MONOOLEIN , *IONIC liquids , *SMALL-angle scattering , *PEPTIDE amphiphiles , *MICROSCOPY - Abstract
Monoolein-based liquid crystal phases are established media that are researched for various biological applications, including drug delivery. While water is the most common solvent for self-assembly, some ionic liquids (ILs) can support lipidic self-assembly. However, currently, there is limited knowledge of IL-lipid phase behavior in ILs. In this study, the lyotropic liquid crystal phase behavior of monoolein was investigated in six protic ILs known to support amphiphile self-assembly, namely ethylammonium nitrate, ethanolammonium nitrate, ethylammonium formate, ethanolammonium formate, ethylammonium acetate, and ethanolammonium acetate. These ILs were selected to identify specific ion effects on monoolein self-assembly, specifically increasing the alkyl chain length of the cation or anion, the presence of a hydroxyl group in the cation, and varying the anion. The lyotropic liquid crystal phases with 20–80 wt. % of monoolein were characterized over a temperature range from 25 to 65 °C using synchrotron small angle x-ray scattering and cross-polarized optical microscopy. These results were used to construct partial phase diagrams of monoolein in each of the six protic ILs, with inverse hexagonal, bicontinuous cubic, and lamellar phases observed. Protic ILs containing the ethylammonium cation led to monoolein forming lamellar and bicontinuous cubic phases, while those containing the ethanolammonium cation formed inverse hexagonal and bicontinuous cubic phases. Protic ILs containing formate and acetate anions favored bicontinuous cubic phases across a broader range of protic IL concentrations than those containing the nitrate anion. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
39. Molecular photothermal effects, diffusion, and sample flow in time-resolved spectroscopy and microscopy.
- Author
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Cho, Minhaeng
- Subjects
- *
PHOTOTHERMAL effect , *CONDENSED matter , *MICROSCOPY , *KINETIC energy , *CHEMICAL processes , *ELECTRONIC spectra , *TIME-resolved spectroscopy - Abstract
Time-resolved pump–probe and two-dimensional spectroscopy are widely used to study ultrafast chemical and biological processes in solutions. However, the corresponding signals at long times can be contaminated by molecular photothermal effects, which are caused by the nonradiative heat dissipation of photoexcited molecules to the surroundings. Additionally, molecular diffusion affects the transient spectroscopic signals because photoexcited molecules can diffuse away from the pump and probe beam focuses. Recently, a theoretical description of molecular photothermal effects on time-resolved IR spectroscopy was reported. In this work, I consider the molecular photothermal process, molecular diffusion, and sample flow to develop a generalized theoretical description of time-resolved spectroscopy. The present work can be used to interpret time-resolved spectroscopic signals of electronic or vibrational chromophores and understand the rate and mechanisms of the conversion of high-frequency molecular electronic and vibrational energy to solvent kinetic energy in condensed phases. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
40. STORM Super-Resolution Visualization of Self-Assembled γPFD Chaperone Ultrastructures in Methanocaldococcus jannaschii
- Author
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Cha, Hee-Jeong, He, Changdong, Glover, Dominic J, Xu, Ke, and Clark, Douglas S
- Subjects
Biochemistry and Cell Biology ,Physical Sciences ,Biological Sciences ,Bioengineering ,Nanotechnology ,Methanocaldococcus ,Molecular Chaperones ,Archaeal Proteins ,Microscopy ,Fluorescence ,Imaging ,Three-Dimensional ,archaeal chaperone ,prefoldin ,super-resolutionmicroscopy ,self-assembled nanostructures ,super-resolution microscopy ,Nanoscience & Nanotechnology - Abstract
Gamma-prefoldin (γPFD), a unique chaperone found in the extremely thermophilic methanogen Methanocaldococcus jannaschii, self-assembles into filaments in vitro, which so far have been observed using transmission electron microscopy and cryo-electron microscopy. Utilizing three-dimensional stochastic optical reconstruction microscopy (3D-STORM), here we achieve ∼20 nm resolution by precisely locating individual fluorescent molecules, hence resolving γPFD ultrastructure both in vitro and in vivo. Through CF647 NHS ester labeling, we first demonstrate the accurate visualization of filaments and bundles with purified γPFD. Next, by implementing immunofluorescence labeling after creating a 3xFLAG-tagged γPFD strain, we successfully visualize γPFD in M. jannaschii cells. Through 3D-STORM and two-color STORM imaging with DNA, we show the widespread distribution of filamentous γPFD structures within the cell. These findings provide valuable insights into the structure and localization of γPFD, opening up possibilities for studying intriguing nanoscale components not only in archaea but also in other microorganisms.
- Published
- 2024
41. Four-dimensional quantitative analysis of cell plate development in Arabidopsis using lattice light sheet microscopy identifies robust transition points between growth phases.
- Author
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Sinclair, Rosalie, Wang, Minmin, Jawaid, Muhammad, Longkumer, Toshisangba, Aaron, Jesse, Rossetti, Blair, Wait, Eric, McDonald, Kent, Cox, Daniel, Heddleston, John, Wilkop, Thomas, and Drakakaki, Georgia
- Subjects
4D imaging ,Callose ,RABA2a ,cell plate ,cytokinesis ,lattice light sheet microscopy ,plant cell division ,quantitative image analysis ,Arabidopsis ,Glucans ,Cytokinesis ,Microscopy - Abstract
Cell plate formation during cytokinesis entails multiple stages occurring concurrently and requiring orchestrated vesicle delivery, membrane remodelling, and timely deposition of polysaccharides, such as callose. Understanding such a dynamic process requires dissection in time and space; this has been a major hurdle in studying cytokinesis. Using lattice light sheet microscopy (LLSM), we studied cell plate development in four dimensions, through the behavior of yellow fluorescent protein (YFP)-tagged cytokinesis-specific GTPase RABA2a vesicles. We monitored the entire duration of cell plate development, from its first emergence, with the aid of YFP-RABA2a, in both the presence and absence of cytokinetic callose. By developing a robust cytokinetic vesicle volume analysis pipeline, we identified distinct behavioral patterns, allowing the identification of three easily trackable cell plate developmental phases. Notably, the phase transition between phase I and phase II is striking, indicating a switch from membrane accumulation to the recycling of excess membrane material. We interrogated the role of callose using pharmacological inhibition with LLSM and electron microscopy. Loss of callose inhibited the phase transitions, establishing the critical role and timing of the polysaccharide deposition in cell plate expansion and maturation. This study exemplifies the power of combining LLSM with quantitative analysis to decode and untangle such a complex process.
- Published
- 2024
42. Tools and methods for high-throughput single-cell imaging with the mother machine.
- Author
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Sandler, Michael, Ahir, Gursharan, Sauls, John, Schroeder, Jeremy, Brown, Steven, Le Treut, Guillaume, Si, Fangwei, Li, Dongyang, Wang, Jue, Jun, Suckjoon, and Thiermann, Ryan
- Subjects
E. coli ,bacterial physiology ,image analysis ,infectious disease ,microbiology ,microfluidics ,mother machine ,Female ,Humans ,Mothers ,Image Processing ,Computer-Assisted ,Microscopy ,Culture ,Research Personnel - Abstract
Despite much progress, image processing remains a significant bottleneck for high-throughput analysis of microscopy data. One popular platform for single-cell time-lapse imaging is the mother machine, which enables long-term tracking of microbial cells under precisely controlled growth conditions. While several mother machine image analysis pipelines have been developed in the past several years, adoption by a non-expert audience remains a challenge. To fill this gap, we implemented our own software, MM3, as a plugin for the multidimensional image viewer napari. napari-MM3 is a complete and modular image analysis pipeline for mother machine data, which takes advantage of the high-level interactivity of napari. Here, we give an overview of napari-MM3 and test it against several well-designed and widely used image analysis pipelines, including BACMMAN and DeLTA. Researchers often analyze mother machine data with custom scripts using varied image analysis methods, but a quantitative comparison of the output of different pipelines has been lacking. To this end, we show that key single-cell physiological parameter correlations and distributions are robust to the choice of analysis method. However, we also find that small changes in thresholding parameters can systematically alter parameters extracted from single-cell imaging experiments. Moreover, we explicitly show that in deep learning-based segmentation, what you put is what you get (WYPIWYG) - that is, pixel-level variation in training data for cell segmentation can propagate to the model output and bias spatial and temporal measurements. Finally, while the primary purpose of this work is to introduce the image analysis software that we have developed over the last decade in our lab, we also provide information for those who want to implement mother machine-based high-throughput imaging and analysis methods in their research.
- Published
- 2024
43. Blueprinting extendable nanomaterials with standardized protein blocks
- Author
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Huddy, Timothy F, Hsia, Yang, Kibler, Ryan D, Xu, Jinwei, Bethel, Neville, Nagarajan, Deepesh, Redler, Rachel, Leung, Philip JY, Weidle, Connor, Courbet, Alexis, Yang, Erin C, Bera, Asim K, Coudray, Nicolas, Calise, S John, Davila-Hernandez, Fatima A, Han, Hannah L, Carr, Kenneth D, Li, Zhe, McHugh, Ryan, Reggiano, Gabriella, Kang, Alex, Sankaran, Banumathi, Dickinson, Miles S, Coventry, Brian, Brunette, TJ, Liu, Yulai, Dauparas, Justas, Borst, Andrew J, Ekiert, Damian, Kollman, Justin M, Bhabha, Gira, and Baker, David
- Subjects
Biochemistry and Cell Biology ,Engineering ,Biological Sciences ,Generic health relevance ,Crystallography ,X-Ray ,Nanostructures ,Proteins ,Microscopy ,Electron ,Reproducibility of Results ,General Science & Technology - Abstract
A wooden house frame consists of many different lumber pieces, but because of the regularity of these building blocks, the structure can be designed using straightforward geometrical principles. The design of multicomponent protein assemblies, in comparison, has been much more complex, largely owing to the irregular shapes of protein structures1. Here we describe extendable linear, curved and angled protein building blocks, as well as inter-block interactions, that conform to specified geometric standards; assemblies designed using these blocks inherit their extendability and regular interaction surfaces, enabling them to be expanded or contracted by varying the number of modules, and reinforced with secondary struts. Using X-ray crystallography and electron microscopy, we validate nanomaterial designs ranging from simple polygonal and circular oligomers that can be concentrically nested, up to large polyhedral nanocages and unbounded straight 'train track' assemblies with reconfigurable sizes and geometries that can be readily blueprinted. Because of the complexity of protein structures and sequence-structure relationships, it has not previously been possible to build up large protein assemblies by deliberate placement of protein backbones onto a blank three-dimensional canvas; the simplicity and geometric regularity of our design platform now enables construction of protein nanomaterials according to 'back of an envelope' architectural blueprints.
- Published
- 2024
44. Live-cell biosensors based on the fluorescence lifetime of environment-sensing dyes.
- Author
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Mehl, Brian, Vairaprakash, Pothiappan, Li, Li, Hinde, Elizabeth, MacNevin, Christopher, Hsu, Chia-Wen, Liu, Bei, Hahn, Klaus, and Gratton, Enrico
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CP: Imaging ,Cdc42 ,FLIM ,biosensor ,cell ,dye ,fluorescence ,merocyanine ,phasor ,solvatochromic ,Microscopy ,Fluorescence ,Fluorescent Dyes ,Biosensing Techniques - Abstract
In this work, we examine the use of environment-sensitive fluorescent dyes in fluorescence lifetime imaging microscopy (FLIM) biosensors. We screened merocyanine dyes to find an optimal combination of environment-induced lifetime changes, photostability, and brightness at wavelengths suitable for live-cell imaging. FLIM was used to monitor a biosensor reporting conformational changes of endogenous Cdc42 in living cells. The ability to quantify activity using phasor analysis of a single fluorophore (e.g., rather than ratio imaging) eliminated potential artifacts. We leveraged these properties to determine specific concentrations of activated Cdc42 across the cell.
- Published
- 2024
45. Generalization Across Experimental Parameters in Neural Network Analysis of High-Resolution Transmission Electron Microscopy Datasets
- Author
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Sytwu, Katherine, DaCosta, Luis Rangel, and Scott, Mary C
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Biochemistry and Cell Biology ,Engineering ,Materials Engineering ,Biological Sciences ,Nanotechnology ,Bioengineering ,Machine Learning and Artificial Intelligence ,Neurosciences ,Networking and Information Technology R&D (NITRD) ,Biomedical Imaging ,generalization ,machine learning ,nanoparticles ,transmission electron microscopy ,Condensed Matter Physics ,Microscopy ,Biochemistry and cell biology ,Materials engineering - Abstract
Neural networks are promising tools for high-throughput and accurate transmission electron microscopy (TEM) analysis of nanomaterials, but are known to generalize poorly on data that is "out-of-distribution" from their training data. Given the limited set of image features typically seen in high-resolution TEM imaging, it is unclear which images are considered out-of-distribution from others. Here, we investigate how the choice of metadata features in the training dataset influences neural network performance, focusing on the example task of nanoparticle segmentation. We train and validate neural networks across curated, experimentally collected high-resolution TEM image datasets of nanoparticles under various imaging and material parameters, including magnification, dosage, nanoparticle diameter, and nanoparticle material. Overall, we find that our neural networks are not robust across microscope parameters, but do generalize across certain sample parameters. Additionally, data preprocessing can have unintended consequences on neural network generalization. Our results highlight the need to understand how dataset features affect deployment of data-driven algorithms.
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- 2024
46. New materials for the recovery and storage of thermal energy.
- Author
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Northam de la Fuente, T. S., Vettori, I., Ismail, K. M., Gaboardi, M., Di Lisio, V., Cangialosi, D., Coto, P. B., Otero-de-la-Roza, A., and Fernandez-Alonso, F.
- Subjects
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HEAT , *ENERGY storage , *MICROSCOPY , *RESISTANCE heating , *HEAT storage - Abstract
A significant fraction of the energy generated for industrial and domestic applications is lost in the form of heat. Because of this, thermal-energy storage materials are receiving increasing attention as a means of storing the generated heat for later use. In this paper, a brief description is given of two types of materials used in thermal-energy-storage devices – phase change materials for latent heat storage and photoswitches for chemical energy storage. In addition, we provide a succint account of the experimental and computational tools needed to understand the microscopic mechanisms of energy storage and to facilitate the rational design of new materials. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
47. Nuclear shape / phase transitions in the N = 40, 60, 90 regions.
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Petrellis, Dimitrios, Prášek, Adam, Alexa, Petr, Bonatsos, Dennis, Thiamová, Gabriela, and Veselý, Petr
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NEUTRONS , *PHASE transitions , *NEUTRON number , *POTENTIAL energy , *MICROSCOPY - Abstract
We investigate the isotopes of Se, Zr, Mo and Nd in the regions with N = 40, 60 and 90, where a first-order shape / phase transition, from spherical to deformed, can be observed. The signs of phase transitional behavior become evident by examining structure indicators, such as certain energy ratios and B(E2) transition rates and, in particular, how they evolve with neutron number. Microscopic mean-field calculations using the Skyrme-Hartree-Fock + Bardeen-Cooper-Schrieffer framework also reveal structural changes when considering the evolution of the resulting potential energy curves as functions of deformation. Finally, macroscopic calculations, using the Algebraic Collective Model, specifically for 74Se, 102Mo and 150Nd, after fitting its parameters to experimental spectra, result in potentials that resemble some of the potentials proposed in the framework of the Bohr Hamiltonian to describe shape transitions in nuclei. A more detailed account can be found in [1]. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
48. Importance of elastic scattering in nucleon-exotic nucleus experiments.
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Karataglidis, S.
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ELASTIC scattering , *NUCLEAR optical potentials , *MICROSCOPY , *DATA analysis , *PHENOMENOLOGY - Abstract
In any experiment involving the interaction of two hadronic, many-body systems, the underlying interaction is conventionally described by an optical potential. Usually, this is of phenomenological, local, form, with real and imaginary parts each of which has parameters which are determined by fits to elastic scattering data. In order to predict observables for a wide range of targets, those data must cover a wider range of nuclei so that experiments with individual targets may be described appropriately. Further, for other experiments, obtaining the relative wave functions between the interacting systems requires the optical potential. Unfortunately, for nuclei far from the valley of stability such a global approach is inappropriate given the large differences in density at the surfaces due to halos and skins. In that case, phenomenology requires the measurements of elastic scattering data for the specific interacting systems. An alternative approach is to use microscopic formulations of the optical potential, such as the Melbourne g-folding potential. Aspects of both of these approaches for intermediate energies, given the interest in establishing facilities for exotic nuclear experiments at intermediate energies, will be discussed. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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49. HESS J1731-347 and the existence of exotic matter: Kaon condensation in neutron stars.
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Koliogiannis, Polychronis, Petousis, Vlasios, Veselský, Martin, and Moustakidis, Charalampos
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- *
NEUTRON stars , *KAONS , *PHASE transitions , *NUCLEAR matter , *MICROSCOPY - Abstract
The recent observation of a compact star with the lowest observable mass of 0.77+0.20 –0.17 M⊙ within the supernova remnant HESS J1731-347 has redefined our understanding for the dense nuclear matter equation of state and enhances the existence of exotic matter. In the present work, we investigate the possible existence of kaon condensation in hadronic neutron stars through the framework of the Momentum-Dependent Interaction nuclear model describing the dense nuclear matter. We concentrate on the strangeness content of the proton and its implications on both the microscopic and macroscopic properties of neutron stars. The aforementioned quantity is of interest as it is also directly related to the location of the phase transition to kaons. The simultaneous description of the compact object within the HESS J1731-347 and the maximum observable neutron star mass imposes severe constraints on the strangeness content of the proton and the critical density for kaon condensation. The present study along with observations of neutron stars, may help to provide tighter constraints on the equation of state of dense nuclear matter and, even more, to shed light to the existence of an exotic core in neutron stars. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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50. Atomic insights into shock-induced alloying reaction of premixed Ni/Al nanolaminates.
- Author
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Xie, Yifan, Shao, Jian-Li, Liu, Rui, and Chen, Pengwan
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- *
MOLECULAR dynamics , *MICROSCOPY , *DIFFUSION coefficients , *MATERIALS handling , *MANUFACTURING processes , *CHEMICAL preconcentration , *CRYSTALLIZATION kinetics - Abstract
In material processing and handling processes, premixed interlayer often replace the ideal Ni/Al interface, which would become a new origin of alloying reaction. This work investigates shock-induced reaction mechanism and kinetics of premixed Ni/Al nanolaminates with molecular dynamics simulations and theoretical analysis. The reaction is found to be driven by the crystallization evolution in premixed interlayer and the diffusion of premixed atoms. Among them, multi-stage reaction patterns are strongly manifested by the crystallization evolution characteristics. Specifically, "crystallization-dissolution-secondary growth" and "crystallization-dissolution" of B2 phase respectively correspond to the solid-state and solid-liquid reaction cases, where crystallizations are fitted well by Johnson–Mehl–Avrami kinetics model. Interestingly, the different growth mechanisms of B2 grain are revealed, namely nuclei coalescence and atomic diffusion. Moreover, the analysis of microscopic diffusion theory indicates a certain non-random diffusion nature for solid-state reaction initiation, but near-purely random diffusion for solid-liquid reaction initiation. The diffused Al atoms possess a limited diffusion coefficient and enhanced diffusion correlation, resulting in extremely slow mixing rate in Ni layer. In addition, the influence law of Ni concentration in premixed interlayer on reactivity parameters can be quantitatively described by a quadratic function. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
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