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322 results on '"Graziotto, A"'

1. Enhanced fractional quantum Hall gaps in a two-dimensional electron gas coupled to a hovering split-ring resonator

Author

Enkner, Josefine, Graziotto, Lorenzo, Boriçi, Dalin, Appugliese, Felice, Reichl, Christian, Scalari, Giacomo, Regnault, Nicolas, Wegscheider, Werner, Ciuti, Cristiano, and Faist, Jérôme

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

The magnetotransport of a high-mobility two-dimensional electron gas coupled to a hovering split-ring resonator with controllable distance is studied in the quantum Hall regime. The measurements reveal an enhancement by more than a factor 2 of the quantum Hall energy gaps at the fractional filling factors 4/3, 5/3, and 7/5, alongside a concurrent reduction in exchange splitting at odd integer filling factors. Theoretically, we show the strength of both effects to be quantitatively compatible with the emergence of an effective electron-electron long-range attractive interaction mediated by the exchange of virtual cavity photons in the presence of significant spatial gradients of the cavity electric vacuum fields. These results unveil a compelling interplay between cavity quantum electrodynamics and electronic correlations in two-dimensional systems, with profound implications for the manipulation and control of quantum phases in 2D materials.

Published
2024

2. Testing the Renormalization of the von Klitzing Constant by Cavity Vacuum Fields

Author

Enkner, Josefine, Graziotto, Lorenzo, Appugliese, Felice, Rokaj, Vasil, Wang, Jie, Ruggenthaler, Michael, Reichl, Christian, Wegscheider, Werner, Rubio, Angel, and Faist, Jérôme

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

In light of recent developments demonstrating the impact of cavity vacuum fields inducing the breakdown of topological protection in the integer quantum Hall effect, a compelling question arises: what effects might cavity vacuum fields have on fundamental constants in solid-state systems? In this work we present an experiment that assesses the possibility of the von Klitzing constant itself being modified. By employing a Wheatstone bridge, we precisely measure the difference between the quantized Hall resistance of a cavity-embedded Hall bar and the resistance standard, achieving an accuracy down to 1 part in 105 for the lowest Landau level. While our results do not suggest any deviation that could imply a modified Hall resistance, our work represents pioneering efforts in exploring the fundamental implications of vacuum fields in solid-state systems.

Published
2023

3. Theory of infrared double-resonance Raman spectrum in graphene: the role of the zone-boundary electron-phonon enhancement

Author

Graziotto, Lorenzo, Macheda, Francesco, Sohier, Thibault, Calandra, Matteo, and Mauri, Francesco

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Computational Physics
Abstract

We theoretically investigate the double-resonance Raman spectrum of monolayer graphene down to infrared laser excitation energies. By using first-principles density functional theory calculations, we improve upon previous theoretical predictions based on conical models or tight-binding approximations, and rigorously justify the evaluation of the electron-phonon enhancement found in Ref. [Venanzi, T., Graziotto, L. et al., Phys. Rev. Lett. 130, 256901 (2023)]. We proceed to discuss the effects of such enhancement on the room temperature graphene resistivity, hinting towards a possible reconciliation of theoretical and experimental discrepancies., Comment: 19 pages, 18 figures

Published
2023

4. Infrared resonance Raman of bilayer graphene: signatures of massive fermions and band structure on the 2D peak

Author

Graziotto, Lorenzo, Macheda, Francesco, Venanzi, Tommaso, Marchese, Guglielmo, Sotgiu, Simone, Ouaj, Taoufiq, Stellino, Elena, Fasolato, Claudia, Postorino, Paolo, Metzelaars, Marvin, Kögerler, Paul, Beschoten, Bernd, Calandra, Matteo, Ortolani, Michele, Stampfer, Christoph, Mauri, Francesco, and Baldassarre, Leonetta

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Few-layer graphene possesses low-energy carriers which behave as massive fermions, exhibiting intriguing properties in both transport and light scattering experiments. Lowering the excitation energy of resonance Raman spectroscopy down to 1.17 eV we target these massive quasiparticles in the split bands close to the K point. The low excitation energy weakens some of the Raman processes which are resonant in the visible, and induces a clearer frequency-separation of the sub-structures of the resonance 2D peak in bi- and trilayer samples. We follow the excitation-energy dependence of the intensity of each sub-structure and, comparing experimental measurements on bilayer graphene with ab initio theoretical calculations, we trace back such modifications on the joint effects of probing the electronic dispersion close to the band splitting and enhancement of electron-phonon matrix elements., Comment: 22 pages, 12 figures

Published
2023
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5. Terahertz chiral metamaterial cavities breaking time-reversal symmetry

Author

Andberger, Johan, Graziotto, Lorenzo, Sacchi, Luca, Beck, Mattias, Scalari, Giacomo, and Faist, Jérôme

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

We demonstrate terahertz chiral metamaterial cavities that break time-reversal symmetry by coupling the degenerate linearly polarized modes of two orthogonal sets of nano-antenna arrays using the inter-Landau level transition of a two-dimensional electron gas in a perpendicular magnetic field, realizing normalized light-matter coupling rates up to $\Omega_R/\omega_{\mathrm{cav}} = 0.78$. The deep sub-wavelength confinement and gap of the nano-antennas means that the ultra-strong coupling regime can be reached even with a very small number of carriers, making it viable to be used with a variety of 2D materials, including graphene. In addition it possesses a non-degenerate chiral ground state that can be used to study the effect of circularly polarized electromagnetic quantum fluctuations by means of weakly-perturbing magneto-transport measurements., Comment: 17 pages, 8 figures

Published
2023

6. Probing enhanced electron-phonon coupling in graphene by infrared resonance Raman spectroscopy

Author

Venanzi, Tommaso, Graziotto, Lorenzo, Macheda, Francesco, Sotgiu, Simone, Ouaj, Taoufiq, Stellino, Elena, Fasolato, Claudia, Postorino, Paolo, Mišeikis, Vaidotas, Metzelaars, Marvin, Kögerler, Paul, Beschoten, Bernd, Coletti, Camilla, Roddaro, Stefano, Calandra, Matteo, Ortolani, Michele, Stampfer, Christoph, Mauri, Francesco, and Baldassarre, Leonetta

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We report on resonance Raman spectroscopy measurements with excitation photon energy down to 1.16 eV on graphene, to study how low-energy carriers interact with lattice vibrations. Thanks to the excitation energy close to the Dirac point at $\mathbf{K}$, we unveil a giant increase of the intensity ratio between the double-resonant 2D and 2D$^\prime$ peaks with respect to that measured in graphite. Comparing with fully \textit{ab initio} theoretical calculations, we conclude that the observation is explained by an enhanced, momentum-dependent coupling between electrons and Brillouin zone-boundary optical phonons. This finding applies to two dimensional Dirac systems and has important consequences for the modeling of transport in graphene devices operating at room temperature., Comment: 6 pages, 3 figures

Published
2022
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10. Correlative multimodal optical and X-ray fluorescence imaging of brominated fluorophores.

Author

Adair, Liam D., Graziotto, Marcus E., Koh, Terry, Kidman, Clinton J., Schwehr, Bradley J., Hackett, Mark J., Massi, Massimiliano, Harris, Hugh H., and New, Elizabeth J.

Subjects
*X-ray imaging, *X-ray fluorescence, *FLUOROPHORES, *X-ray microscopy, *FLUORESCENCE microscopy, *STAINS & staining (Microscopy)
Abstract

Imaging with multiple modalities can maximise the information gained from the analysis of a single sample. probes for optical fluorescence and X-ray fluorescence microscopy based on brominated 4-amino-1,8-naphthalimide and BODIPY scaffolds have been successfully designed and synthesised. Herein we show that these prototype probes, based on each of these scaffolds, can be imaged in two different cancer cell lines, and that the respective optical fluorescence and X-ray fluorescence signals are well correlated in these images. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Near-Infrared Ratiometric Fluorescent Probe for Detecting Endogenous Cu2+ in the Brain

Author

Zhu, Jianping, primary, Graziotto, Marcus E., additional, Cottam, Veronica, additional, Hawtrey, Tom, additional, Adair, Liam D., additional, Trist, Benjamin G., additional, Pham, Nguyen T.H., additional, Rouaen, Jourdin R. C., additional, Ohno, Carolyn, additional, Heisler, Marcus, additional, Vittorio, Orazio, additional, Double, Kay L., additional, and New, Elizabeth J., additional

Published
2024
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14. Infrared Resonance Raman of Bilayer Graphene: Signatures of Massive Fermions and Band Structure on the 2D Peak

Author

Graziotto, Lorenzo, primary, Macheda, Francesco, additional, Venanzi, Tommaso, additional, Marchese, Guglielmo, additional, Sotgiu, Simone, additional, Ouaj, Taoufiq, additional, Stellino, Elena, additional, Fasolato, Claudia, additional, Postorino, Paolo, additional, Metzelaars, Marvin, additional, Kögerler, Paul, additional, Beschoten, Bernd, additional, Calandra, Matteo, additional, Ortolani, Michele, additional, Stampfer, Christoph, additional, Mauri, Francesco, additional, and Baldassarre, Leonetta, additional

Published
2024
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15. Subcellular targeted anion transporters

Author

Ryder, William G., primary, Graziotto, Marcus E., additional, Levina, Aviva, additional, Hawkins, Bryson, additional, Hibbs, David E., additional, New, Elizabeth J., additional, and Gale, Philip A., additional

Published
2024
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18. Probing Enhanced Electron-Phonon Coupling in Graphene by Infrared Resonance Raman Spectroscopy

Author

Venanzi, Tommaso, primary, Graziotto, Lorenzo, additional, Macheda, Francesco, additional, Sotgiu, Simone, additional, Ouaj, Taoufiq, additional, Stellino, Elena, additional, Fasolato, Claudia, additional, Postorino, Paolo, additional, Mišeikis, Vaidotas, additional, Metzelaars, Marvin, additional, Kögerler, Paul, additional, Beschoten, Bernd, additional, Coletti, Camilla, additional, Roddaro, Stefano, additional, Calandra, Matteo, additional, Ortolani, Michele, additional, Stampfer, Christoph, additional, Mauri, Francesco, additional, and Baldassarre, Leonetta, additional

Published
2023
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20. A Bimodal Fluorescence-Raman Probe for Cellular Imaging

Author

Jiarun Lin, Marcus E. Graziotto, Peter A. Lay, and Elizabeth J. New

Subjects
fluorescent probe, Raman spectroscopy, multimodal imaging, lipid droplets, Cytology, QH573-671
Abstract

Biochemical changes in specific organelles underpin cellular function, and studying these changes is crucial to understand health and disease. Fluorescent probes have become important biosensing and imaging tools as they can be targeted to specific organelles and can detect changes in their chemical environment. However, the sensing capacity of fluorescent probes is highly specific and is often limited to a single analyte of interest. A novel approach to imaging organelles is to combine fluorescent sensors with vibrational spectroscopic imaging techniques; the latter provides a comprehensive map of the relative biochemical distributions throughout the cell to gain a more complete picture of the biochemistry of organelles. We have developed NpCN1, a bimodal fluorescence-Raman probe targeted to the lipid droplets, incorporating a nitrile as a Raman tag. NpCN1 was successfully used to image lipid droplets in 3T3-L1 cells in both fluorescence and Raman modalities, reporting on the chemical composition and distribution of the lipid droplets in the cells.

Published
2021
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23. Towards multimodal cellular imaging: optical and X-ray fluorescence.

Author

Graziotto, Marcus E., Kidman, Clinton J., Adair, Liam D., James, Simon A., Harris, Hugh H., and New, Elizabeth J.

Subjects
*CELL imaging, *OPTICAL images, *X-ray imaging, *MICROSCOPY, *X-ray microscopy
Abstract

Imaging techniques permit the study of the molecular interactions that underlie health and disease. Each imaging technique collects unique chemical information about the cellular environment. Multimodal imaging, using a single probe that can be detected by multiple imaging modalities, can maximise the information extracted from a single cellular sample by combining the results of different imaging techniques. Of particular interest in biological imaging is the combination of the specificity and sensitivity of optical fluorescence microscopy (OFM) with the quantitative and element-specific nature of X-ray fluorescence microscopy (XFM). Together, these techniques give a greater understanding of how native elements or therapeutics affect the cellular environment. This review focuses on recent studies where both techniques were used in conjunction to study cellular systems, demonstrating the breadth of biological models to which this combination of techniques can be applied and the potential for these techniques to unlock untapped knowledge of disease states. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Experimental analysis of seasonal processes in shallow landslide through downscaled observations

Author

Lorenzo Panzeri, Michele Mondani, Andrea Graziotto, Monica Corti, Monica Papini, and Laura Longoni

Abstract

Shallow landslides are phenomena involving small parts of land and are triggered by huge intensity rainfall events of short duration or more moderate but prolonged over time. The area and thickness of such slips are typically reduced, but they are still harmful because there are no warning signs and no information on their possible evolution.Since the middle of the 20th century, heavy precipitation events have been more frequent and intense. In light of the current climate crisis, it is crucial to thoroughly examine the effects of these occurrences in order to establish triggering thresholds in mountain regions. This work deals with the experimental study of these landslides through the laboratory simulations on a small-scale slope, reproduced at the Gap2 lab of the Lecco Campus. Different experiments have been performed reproducing the seasonal conditions of the slopes. In particular, extreme rainfall events, soil conditions with different volumetric water content percentages were compared with moderate rainfall events in order to assess the different timing of landslide triggering.To investigate the behaviour of surface landslides under these conditions and to visualise in detail the processes related to water circulation, a multidisciplinary approach was adopted that consist of observations using geological, geophysical and photogrammetric methodologies and instrumentation. These technologies include modified pressure transmitters for the pore water pressure evaluation, GoPro’s cameras, TDR (Time Domain Reflectometry) for the volumetric water content evaluation and a georesistivimeter (IRIS Syscal Pro). In this way hydrogeological processes can be deeply analysed from different perspectives and can highlight peculiarities and assess in detail their evolution leading to collapse.Through the information obtained from geophysics, it is possible to visualise the formation of cracks within the landslide body in advance, also allowing considerations regarding the different water contributions of the simulated rainfall and the initial water content in the soil. The experimental results were then compared with a mathematical model.

Published
2023
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26. Unravelling the Mystery of COVID‐19 Pathogenesis: Spike Protein and Cu Can Synergize to Trigger ROS Production.

Author

Katarzyna Lesiów, Monika, Witwicki, Maciej, Tan, Nian Kee, Graziotto, Marcus Edward, and New, Elizabeth Joy

Subjects
COVID-19, COPPER, SARS-CoV-2, PATIENT experience, COPPER ions
Abstract

The COVID‐19 pandemic has had a devastating impact on global health, highlighting the need to understand how the SARS‐CoV‐2 virus damages the lungs in order to develop effective treatments. Recent research has shown that patients with COVID‐19 experience severe oxidative damage to various biomolecules. We propose that the overproduction of reactive oxygen species (ROS) in SARS‐CoV‐2 infection involves an interaction between copper ions and the virus's spike protein. We tested two peptide fragments, Ac‐ELDKYFKNH‐NH2 (L1) and Ac‐WSHPQFEK‐NH2 (L2), derived from the spike protein of the Wuhan strain and the β variant, respectively, and found that they bind Cu(II) ions and form a three‐nitrogen complexes at lung pH. Our research demonstrates that these complexes trigger the overproduction of ROS, which can break both DNA strands and transform DNA into its linear form. Using A549 cells, we demonstrated that ROS overproduction occurs in the mitochondria, not in the cytoplasm. Our findings highlight the importance of the interaction between copper ions and the virus's spike protein in the development of lung damage and may aid in the development of therapeutic procedures. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Der Blick der totalen Sympathie

Author

Graziotto, Roberto

Abstract

Internationale katholische Zeitschrift Communio, Bd. 35 Nr. 3 (2006): Internationale katholische Zeitschrift Communio, Band 35, Heft 3

Published
2022
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28. Versatile naphthalimide tetrazines for fluorogenic bioorthogonal labelling

Author

Denis Jacquemin, Amandeep Kaur, Sarah R. Ball, Pauline M. Vérité, Elizabeth J. New, Marcus E. Graziotto, Liam D. Adair, and Margaret Sunde

Subjects
chemistry.chemical_classification, Biological studies, 010405 organic chemistry, Biomolecule, 010402 general chemistry, 01 natural sciences, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, Combinatorial chemistry, Fluorescence, 0104 chemical sciences, 3. Good health, Chemistry, Tetrazine, chemistry.chemical_compound, chemistry, Chemistry (miscellaneous), Labelling, Bioorthogonal chemistry, Biological imaging, Molecular Biology, Linker
Abstract

Fluorescent probes for biological imaging have revealed much about the functions of biomolecules in health and disease. Fluorogenic probes, which are fluorescent only upon a bioorthogonal reaction with a specific partner, are particularly advantageous as they ensure that fluorescent signals observed in biological imaging arise solely from the intended target. In this work, we report the first series of naphthalimide tetrazines for bioorthogonal fluorogenic labelling. We establish that all of these compounds can be used for imaging through photophysical, analytical and biological studies. The best candidate was Np6mTz, where the tetrazine ring is appended to the naphthalimide at its 6-position via a phenyl linker in a meta configuration. Taking our synthetic scaffold, we generated two targeted variants, LysoNpTz and MitoNpTz, which successfully localized within the lysosomes and mitochondria respectively, without the requirement of genetic modification. In addition, the naphthalimide tetrazine system was used for the no-wash imaging of insulin amyloid fibrils in vitro, providing a new method that can monitor their growth kinetics and morphology. Since our synthetic approach is simple and modular, these new naphthalimide tetrazines provide a novel scaffold for a range of bioorthogonal tetrazine-based imaging agents for selective staining and sensing of biomolecules., New naphthalimide tetrazine probes permit fluorescent imaging of biomolecules in vitro and in living cells. They can be modified to provide previously unknown information about health and disease in biological systems.

Published
2021
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31. Resonant Raman scattering in the infrared: the case of MoSe2

Author

Tommaso Venanzi, Michele Ortolani, Simone Sotgiu, Lorenzo Graziotto, Leonetta Baldassarre, and Elena Stellino

Subjects
Brillouin zone, symbols.namesake, Materials science, Phonon, Scattering, symbols, Density of states, Direct and indirect band gaps, Photon energy, Raman spectroscopy, Molecular physics, Raman scattering
Abstract

We investigate Raman scattering of MoSe 2 crystals with excitation energies in the visible and in the infrared (from 1.16 eV to 2.33 eV). We show that, despite the lower scattering efficiency at longer wavelengths, it is possible to measure also MoSe 2 monolayers with photon energy of 1.16 eV, by placing the flakes on hexagonal BN slabs on Au substrates.The lineshape of the Raman modes is shown to be highly dependent on the excitation energy due to resonant processes. In particular, we observe effects of resonant Raman scattering with the indirect band gap (1.14 eV) of MoSe 2 yielding information on the electronic and phonon density of states. By the calculation of the two-phonon density of states in different position of the Brillouin zone, we are able to reproduce some experimental features of the second order Raman spectra.

Published
2021
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32. Respekt und Horizonterweiterung

Author

Graziotto, Johanna

Abstract

Johanna Graziotto (Studentin der Germanistik und Geschichtswissenschaft) berichtet über ihre Erfahrungen im Marsilius Brückenseminar „Bioökonomie als Garant für Nachhaltigkeit? - Naturwissenschaftliche Grundlagen, politische Herausforderungen und gesellschaftliche Akzeptanz“ (Marsilius Studien)., Forum Marsilius-Kolleg, Bd. 19 (2021): Jahresbericht 2019/2020

Published
2021
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33. Chemical tools for understanding the biological activity of platinum anticancer agents

Author

Graziotto, Marcus Edward

Subjects
mitochondria, tetrazine, platinum, fluorescence, naphthalimide
Abstract

Platinum-based chemotherapeutics are widely used for chemotherapy, but their continued use is restricted by patient side effects and resistance. To maximise efficacy and minimise side effects, there is a need to personalise the treatment to the patient and their cancer, which requires a better understanding of the biological interactions of platinum complexes. This thesis has investigated these interactions through new strategies and techniques. Novel monofunctional platinum complexes were investigated in order to distinguish how these complexes differ from clinical agents. Two members of the series had a dramatic divergence in cytotoxicity which was ascribed to their cellular accumulation. Their protein binding profiles were characterised by SEC-ICP-MS for the first time, indicating that the monofunctional complexes react with unique intracellular protein targets. Fluorogenic probes were recognised as tools that would help to unravel further information on biological platinum interactions. With no fluorogenic naphthalimide tetrazines reported to date, a novel series of compounds were synthesised. These compounds exhibited a strong fluorogenic response in vitro and in vivo. Their versatility was demonstrated by labelling of insulin fibrils for high-resolution imaging. Based on this scaffold, probes that monitor organelle health were developed. The first probe reported on the distribution of lysosomes within cells. The second probe had a fluorescent response that was sensitive to the mitochondrial membrane potential, which is an indicator of cellular health. Both probes were used in preliminary studies with platinum complexes, revealing that the mitochondria are disrupted and that the lysosomes do not change after 1 h of treatment. The tools developed in this work have revealed insights about how platinum complexes interact with cells. It highlights the importance of studying these interactions and their translation to the clinic to improve patient outcomes.

Published
2021

34. Terahertz transitions in n-type Ge/SiGe parabolic quantum wells

Author

Michele Virgilio, Michele Montanari, David Stark, Michele Ortolani, Giacomo Scalari, L. Graziotto, M. De Seta, Giovanni Capellini, L. Di Gaspare, Leonetta Baldassarre, Luca Persichetti, Cedric Corley, and C. Ciano

Subjects
Coupling, Materials science, Settore FIS/03, Physics::Instrumentation and Detectors, business.industry, Terahertz radiation, Physics::Optics, Heterojunction, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Characterization (materials science), Condensed Matter::Materials Science, Optoelectronics, business, Quantum well
Abstract

Ge/SiGe heterostructures are promising in the view of silicon-foundry compatible THz optoelectronic applications. Here we present a structural and optical characterization of Ge/SiGe parabolic quantum wells that represent ideal systems for room-temperature THz emission and strong light-matter coupling investigation.

Published
2021

36. Terahertz transitions in n-type Ge/SiGe Parabolic Quantum Wells

Author

Ciano, C., primary, Montanari, M., additional, Graziotto, L., additional, Persichetti, L., additional, Corley, C., additional, Baldassarre, L., additional, Ortolani, M., additional, Di Gaspare, L., additional, Capellini, G., additional, Stark, D., additional, Scalari, G., additional, Virgilio, M., additional, and De Seta, M., additional

Published
2021
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44. Temporal and tissue specific regulation of RP-associated splicing factor genes PRPF3, PRPF31 and PRPC8--implications in the pathogenesis of RP.

Author

Huibi Cao, Jing Wu, Simon Lam, Rongqi Duan, Catherine Newnham, Robert S Molday, John J Graziotto, Eric A Pierce, and Jim Hu

Subjects
Medicine, Science
Abstract

Genetic mutations in several ubiquitously expressed RNA splicing genes such as PRPF3, PRP31 and PRPC8, have been found to cause retina-specific diseases in humans. To understand this intriguing phenomenon, most studies have been focused on testing two major hypotheses. One hypothesis assumes that these mutations interrupt retina-specific interactions that are important for RNA splicing, implying that there are specific components in the retina interacting with these splicing factors. The second hypothesis suggests that these mutations have only a mild effect on the protein function and thus affect only the metabolically highly active cells such as retinal photoreceptors.We examined the second hypothesis using the PRPF3 gene as an example. We analyzed the spatial and temporal expression of the PRPF3 gene in mice and found that it is highly expressed in retinal cells relative to other tissues and its expression is developmentally regulated. In addition, we also found that PRP31 and PRPC8 as well as snRNAs are highly expressed in retinal cells.Our data suggest that the retina requires a relatively high level of RNA splicing activity for optimal tissue-specific physiological function. Because the RP18 mutation has neither a debilitating nor acute effect on protein function, we suggest that retinal degeneration is the accumulative effect of decades of suboptimal RNA splicing due to the mildly impaired protein.

Published
2011
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