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1. Unlocking the out-of-plane dimension for photonic bound states in the continuum to achieve maximum optical chirality

Author

Kühner, Lucca, Wendisch, Fedja J., Antonov, Alexander A., Bürger, Johannes, Hüttenhofer, Ludwig, Menezes, Leonardo de S., Maier, Stefan A., Gorkunov, Maxim V., Kivshar, Yuri, and Tittl, Andreas

Subjects
Physics - Optics
Abstract

The realization of lossless metasurfaces with true chirality crucially requires the fabrication of three-dimensional structures, constraining their feasibility for experiments and hampering practical implementations. Even though the three-dimensional assembly of metallic nanostructures has been demonstrated previously, the resulting plasmonic resonances suffer from high intrinsic and radiative losses. The concept of photonic bound states in the continuum (BICs) is instrumental for tailoring radiative losses in diverse geometries, especially when implemented using lossless dielectrics, but applications have so far been limited to planar and intrinsically achiral structures. Here, we introduce a novel nanofabrication approach to unlock the height of generally flat all-dielectric metasurfaces as an accessible parameter for efficient resonance and functionality control. In particular, we realize out-of-plane symmetry breaking in quasi-BIC metasurfaces and leverage this design degree of freedom to demonstrate, for the first time, an optical all-dielectric quasi-BIC metasurface with maximum intrinsic chirality that responds selectively to light of a particular circular polarization depending on the structural handedness. Our experimental results not only open a new paradigm for all-dielectric BICs and chiral nanophotonics but also promise advances in the realization of efficient generation of optical angular momentum, holographic metasurfaces, and parity-time symmetry-broken optical systems., Comment: Main text and supporting information, 35 pages, 3 Figures manuscript + 13 Supporting Figures

Published
2022

3. Exosomal mitochondrial tRNAs and miRNAs as potential predictors of inflammation in renal proximal tubular epithelial cells

Author

Glory Ranches, Maximilian Zeidler, Roman Kessler, Martina Hoelzl, Michael W. Hess, Jonathan Vosper, Paul Perco, Herbert Schramek, Kai K. Kummer, Michaela Kress, Anne Krogsdam, Michael Rudnicki, Gert Mayer, and Alexander Huettenhofer

Subjects
MT: Oligonucleotides: Diagnostics and Biosensors, ncRNAs, mtRNAs, miRNAs, exosomes, renal proximal tubular epithelial cells, Therapeutics. Pharmacology, RM1-950
Abstract

Exosomes have emerged as a valuable repository of novel biomarkers for human diseases such as chronic kidney disease (CKD). From a healthy control group, we performed microRNA (miRNA) profiling of urinary exosomes and compared it with a cell culture model of renal proximal tubular epithelial cells (RPTECs). Thereby, a large fraction of abundant urinary exosomal miRNAs could also be detected in exosomes derived from RPTECs, indicating them as a suitable model system for investigation of CKD. We subsequently analyzed exosomes from RPTECs in pro-inflammatory and pro-fibrotic states, mimicking some aspects of CKD. Following cytokine treatment, we observed a significant increase in exosome release and identified 30 dysregulated exosomal miRNAs, predominantly associated with the regulation of pro-inflammatory and pro-fibrotic-related pathways. In addition to miRNAs, we also identified 16 dysregulated exosomal mitochondrial RNAs, highlighting a pivotal role of mitochondria in sensing renal inflammation. Inhibitors of exosome biogenesis and release significantly altered the abundance of selected candidate miRNAs and mitochondrial RNAs, thus suggesting distinct sorting mechanisms of different non-coding RNA (ncRNA) species into exosomes. Hence, these two exosomal ncRNA species might be employed as potential indicators for predicting the pathogenesis of CKD and also might enable effective monitoring of the efficacy of CKD treatment.

Published
2022
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4. Optimization of ohmic contacts to n-type GaAs nanowires

Author

Hüttenhofer, Ludwig, Xydias, Dionysios, Lewis, Ryan B., Rauwerdink, Sander, Tahraoui, Abbes, Küpers, Hanno, Geelhaar, Lutz, Marquardt, Oliver, and Ludwig, Stefan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

III-V nanowires are comprehensively studied because of their suitability for optoelectronic quantum technology applications. However, their small dimensions and the spatial separation of carriers from the wire surface render electrical contacting difficult. Systematically studying ohmic contact formation by diffusion to $n$-doped GaAs nanowires, we provide a set of optimal annealing parameters for Pd/Ge/Au ohmic contacts. We reproducibly achieve low specific contact resistances of $\sim2\times10^{-7}\,\Omega\text{cm}^2$ at room temperature becoming an order of magnitude higher at $T\simeq4.2\,$K. We provide a phenomenological model to describe contact resistances as a function of diffusion parameters. Implementing a transfer-matrix method, we numerically study the influence of the Schottky barrier on the contact resistance. Our results indicate that contact resistances can be predicted using various barrier shapes but further insights into structural properties would require a full microscopic understanding of the complex diffusion processes., Comment: 11 pages, 10 figures

Published
2017
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5. Intronic tRNAs of mitochondrial origin regulate constitutive and alternative splicing

Author

Simon M. Hoser, Anne Hoffmann, Andreas Meindl, Maximilian Gamper, Jörg Fallmann, Stephan H. Bernhart, Lisa Müller, Melanie Ploner, Matthias Misslinger, Leopold Kremser, Herbert Lindner, Stephan Geley, Heiner Schaal, Peter F. Stadler, and Alexander Huettenhofer

Subjects
nimtRNA, tRNA-lookalikes, Intronic splicing enhancer (ISE), Splicing regulatory element, numtDNA, tRNA, Biology (General), QH301-705.5, Genetics, QH426-470
Abstract

Abstract Background The presence of nuclear mitochondrial DNA (numtDNA) has been reported within several nuclear genomes. Next to mitochondrial protein-coding genes, numtDNA sequences also encode for mitochondrial tRNA genes. However, the biological roles of numtDNA remain elusive. Results Employing in silico analysis, we identify 281 mitochondrial tRNA homologs in the human genome, which we term nimtRNAs (nuclear intronic mitochondrial-derived tRNAs), being contained within introns of 76 nuclear host genes. Despite base changes in nimtRNAs when compared to their mtRNA homologs, a canonical tRNA cloverleaf structure is maintained. To address potential functions of intronic nimtRNAs, we insert them into introns of constitutive and alternative splicing reporters and demonstrate that nimtRNAs promote pre-mRNA splicing, dependent on the number and positioning of nimtRNA genes and splice site recognition efficiency. A mutational analysis reveals that the nimtRNA cloverleaf structure is required for the observed splicing increase. Utilizing a CRISPR/Cas9 approach, we show that a partial deletion of a single endogenous nimtRNALys within intron 28 of the PPFIBP1 gene decreases inclusion of the downstream-located exon 29 of the PPFIBP1 mRNA. By employing a pull-down approach followed by mass spectrometry, a 3′-splice site-associated protein network is identified, including KHDRBS1, which we show directly interacts with nimtRNATyr by an electrophoretic mobility shift assay. Conclusions We propose that nimtRNAs, along with associated protein factors, can act as a novel class of intronic splicing regulatory elements in the human genome by participating in the regulation of splicing.

Published
2020
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12. Exosomal mitochondrial tRNAs and miRNAs as potential predictors of inflammation in renal proximal tubular epithelial cells

Author

Ranches, Glory, primary, Zeidler, Maximilian, additional, Kessler, Roman, additional, Hoelzl, Martina, additional, Hess, Michael W., additional, Vosper, Jonathan, additional, Perco, Paul, additional, Schramek, Herbert, additional, Kummer, Kai K., additional, Kress, Michaela, additional, Krogsdam, Anne, additional, Rudnicki, Michael, additional, Mayer, Gert, additional, and Huettenhofer, Alexander, additional

Published
2022
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13. Exosomal mitochondrial tRNAs and miRNAs as potential predictors of inflammation in renal proximal tubular epithelial cells

Author

Glory Ranches, Maximilian Zeidler, Roman Kessler, Martina Hoelzl, Michael W. Hess, Jonathan Vosper, Paul Perco, Herbert Schramek, Kai K. Kummer, Michaela Kress, Anne Krogsdam, Michael Rudnicki, Gert Mayer, and Alexander Huettenhofer

Subjects
Drug Discovery, Molecular Medicine
Abstract

Exosomes have emerged as a valuable repository of novel biomarkers for human diseases such as chronic kidney disease (CKD). From a healthy control group, we performed microRNA (miRNA) profiling of urinary exosomes and compared it with a cell culture model of renal proximal tubular epithelial cells (RPTECs). Thereby, a large fraction of abundant urinary exosomal miRNAs could also be detected in exosomes derived from RPTECs, indicating them as a suitable model system for investigation of CKD. We subsequently analyzed exosomes from RPTECs in pro-inflammatory and pro-fibrotic states, mimicking some aspects of CKD. Following cytokine treatment, we observed a significant increase in exosome release and identified 30 dysregulated exosomal miRNAs, predominantly associated with the regulation of pro-inflammatory and pro-fibrotic-related pathways. In addition to miRNAs, we also identified 16 dysregulated exosomal mitochondrial RNAs, highlighting a pivotal role of mitochondria in sensing renal inflammation. Inhibitors of exosome biogenesis and release significantly altered the abundance of selected candidate miRNAs and mitochondrial RNAs, thus suggesting distinct sorting mechanisms of different non-coding RNA (ncRNA) species into exosomes. Hence, these two exosomal ncRNA species might be employed as potential indicators for predicting the pathogenesis of CKD and also might enable effective monitoring of the efficacy of CKD treatment.

Published
2021

14. Additional file 1 of Intronic tRNAs of mitochondrial origin regulate constitutive and alternative splicing

Author

Hoser, Simon M., Hoffmann, Anne, Meindl, Andreas, Gamper, Maximilian, Fallmann, Jörg, Bernhart, Stephan H., Müller, Lisa, Ploner, Melanie, Misslinger, Matthias, Kremser, Leopold, Lindner, Herbert, Geley, Stephan, Schaal, Heiner, Stadler, Peter F., and Huettenhofer, Alexander

Abstract

Additional file 1: Figure S1. Bioinformatic approach analysis. Performance evaluation of different MTL annotation strategies. Analysis of conservation densities of MTLs and numtDNAs. Figure S2. Intronic nimtRNA and snoRNA processing. The processing of intronic, Pol II- or Pol III-transcribed, plasmid encoded ncRNAs as assessed by northern blot analysis. Figure S3. NimtRNA effects on splicing. NimtRNA-mediated splicing increase as assessed by fluorescence. Position-dependent effects of a cluster of nimtRNAs as assessed by RT-qPCR. Figure S4. Proposed secondary structures of reverse-complementary nimtRNAs. Proposed secondary structures of nimtRNAs and their reverse-complementary counterparts as determined by tRNAscan or manually. Figure S5. TIDE analysis of the CRISPR/Cas9-targeted nimtRNA locus within intron 28 of PPFIBP1. CRISPR-induced nimtRNAs deletions within the PPFIBP1 gene assessed by TIDE analysis. Figure S6. HEXplorer profile of nimtRNATyr (67 nt). The HEXplorer score of nimtRNATyr as determined in silico. Figure S7. Intron characteristics affect nimtRNA-mediated splicing regulation. The efficiency of 3′ splice site recognition was increased by mutation to determine its impact on the nimtRNA-mediated splicing increase.

Published
2020
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16. Structure of the core Vaccinia Virus DNA-dependent RNA polymerase complex

Author

Grimm, C., primary, Hillen, H.S., additional, Bedenk, K., additional, Bartuli, J., additional, Neyer, S., additional, Zhang, Q., additional, Huettenhofer, A., additional, Erlacher, M., additional, Dienemann, C., additional, Schlosser, A., additional, Urlaub, H., additional, Boettcher, B., additional, Szalay, A., additional, Cramer, P., additional, and Fischer, U., additional

Published
2019
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17. Structure of the complete Vaccinia DNA-dependent RNA polymerase complex

Author

Grimm, C., primary, Hillen, S.H., additional, Bedenk, K., additional, Bartuli, J., additional, Neyer, S., additional, Zhang, Q., additional, Huettenhofer, A., additional, Erlacher, M., additional, Dienemann, C., additional, Schlosser, A., additional, Urlaub, H., additional, Boettcher, B., additional, Szalay, A.A., additional, Cramer, P., additional, and Fischer, U., additional

Published
2019
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18. A novel but frequent variant in LPA KIV-2 is associated with a pronounced Lp(a) and cardiovascular risk reduction

Author

Coassin, S., Erhart, G., Weissensteiner, H., de Araujo, M.E.G., Lamina, C., Schoenherr, S., Forer, L., Haun, M., Losso, J.L., Koettgen, A., Schmidt, K., Utermann, G., Peters, A., Gieger, C., Strauch, K., Finkenstedt, A., Bale, R., Zoller, H., Paulweber, B., Eckardt, K., Huettenhofer, A., Huber, L.A., and Kronenberg, F.

Subjects
Adult, Male, Kringle IV-type 2, DNA Copy Number Variations, Genotype, Lipoprotein(a), Lpa, Cvd Risk, Kringle Iv-type 2, Copy Number Variation, Copy number variation, Fast Track Clinical Research, Basic Science for the Clinician, Middle Aged, Polymorphism, Single Nucleotide, Linkage Disequilibrium, LPA, Editor's Choice, Phenotype, Kringles, Cardiovascular Diseases, Risk Factors, Humans, Protein Isoforms, Female, CVD risk, Aged
Abstract

Aims Lp(a) concentrations represent a major cardiovascular risk factor and are almost entirely controlled by one single locus (LPA). However, many genetic factors in LPA governing the enormous variance of Lp(a) levels are still unknown. Since up to 70% of the LPA coding sequence are located in a difficult to access hypervariable copy number variation named KIV-2, we hypothesized that it may contain novel functional variants with pronounced effects on Lp(a) concentrations. We performed a large scale mutation analysis in the KIV-2 using an extreme phenotype approach Methods and results We compiled an discovery set of 123 samples showing discordance between LPA isoform phenotype and Lp(a) concentrations and controls. Using ultra-deep sequencing, we identified a splice site variant (G4925A) in preferential association with the smaller LPA isoforms. Follow-up in a European general population (n = 2892) revealed an exceptionally high carrier frequency of 22.1% in the general population. The variant explains 20.6% of the Lp(a) variance in carriers of low molecular weight (LMW) apo(a) isoforms (P = 5.75e-38) and reduces Lp(a) concentrations by 31.3 mg/dL. Accordingly the odds ratio for cardiovascular disease was reduced from 1.39 [95% confidence interval (CI): 1.17-1.66, P = 1.89e-04] for wildtype LMW individuals to 1.19 [95% CI: 0.92; 1.56, P = 0.19] in LMW individuals who were additionally positive for G4925A. Functional studies point towards a reduction of splicing efficiency by this novel variant. Conclusion A highly frequent but until now undetected variant in the LPA KIV-2 region is strongly associated with reduced Lp(a) concentrations and reduced cardiovascular risk in LMW individuals.

Published
2017

19. SAFB2 enables the processing of suboptimal stem-loop structures in clustered primary miRNA transcripts

Author

Almina Jukic, Katharina Hutter, Alexander Huettenhofer, Andreas Villunger, Felix Eichin, Verena Labi, Michael Lohmueller, Simon M. Hoser, Sebastian Herzog, and Seymen Avci

Subjects
Microprocessor complex, biology, DGCR8, Cas9, microRNA, biology.protein, CRISPR, RNA, Computational biology, Stem-loop, Drosha
Abstract

SummaryMicroRNAs (miRNAs) are small noncoding RNAs that post-transcriptionally silence most protein-coding genes in mammals. They are generated from primary transcripts containing single or multiple clustered stem-loop structures that are thought to be recognized and cleaved by the DGCR8/DROSHA Microprocessor complex as independent units. Contrasting this view, we here report an unexpected mode of processing of a bicistronic cluster of the miR-15 family, miR-15a-16-1. We find that the primary miR-15a stem-loop is a poor Microprocessor substrate and is consequently not processed on its own, but that the presence of the neighboring primary miR-16-1 stem-loop on the same transcript can compensate for this deficiency in cis. Using a CRISPR/Cas9 screen, we identify SAFB2 (scaffold attachment factor B2) as an essential co-factor in this miR-16-1-assisted pri-miR-15 cleavage, and describe SAFB2 as a novel accessory protein of DROSHA. Notably, SAFB2-mediated cluster assistance expands to other clustered pri-miRNAs including miR-15b, miR-92a and miR-181b, indicating a general mechanism. Together, our study reveals an unrecognized function of SAFB2 in miRNA processing and suggests a scenario in which SAFB2 enables the binding and processing of suboptimal DGCR8/DROSHA substrates in clustered primary miRNA transcripts.Highlightsthe primary miR-15a stem-loop structure per se is a poor Microprocessor substratecleavage of pri-miR-15a requires the processing of an additional miRNA stem-loop on the same RNAsequential pri-miRNA processing or “cluster assistance” is mediated by SAFB proteinsSAFB2 associates with the Microprocessor

Published
2019
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20. SAFB2 Enables the Processing of Suboptimal Stem-Loop Structures in Clustered Primary miRNA Transcripts

Author

Seymen Avci, Michael Lohmüller, Katharina Hutter, Almina Jukic, Sebastian Herzog, Simon M. Hoser, Tamas G. Szabo, Felix Eichin, Verena Labi, Alexander Huettenhofer, and Andreas Villunger

Subjects
DGCR8, Computational biology, Cleavage (embryo), Cell Line, Microprocessor complex, Mice, 03 medical and health sciences, 0302 clinical medicine, Nuclear Matrix-Associated Proteins, microRNA, Animals, Humans, CRISPR, RNA Processing, Post-Transcriptional, Molecular Biology, Drosha, 030304 developmental biology, Cell Nucleus, 0303 health sciences, biology, Cas9, Inverted Repeat Sequences, RNA-Binding Proteins, Matrix Attachment Region Binding Proteins, Cell Biology, Stem-loop, MicroRNAs, HEK293 Cells, Receptors, Estrogen, biology.protein, Nucleic Acid Conformation, 030217 neurology & neurosurgery
Abstract

Many microRNAs (miRNAs) are generated from primary transcripts containing multiple clustered stem-loop structures that are thought to be recognized and cleaved by the Microprocessor complex as independent units. Here, we uncover an unexpected mode of processing of the bicistronic miR-15a-16-1 cluster. We find that the primary miR-15a stem-loop is not processed on its own but that the presence of the neighboring primary miR-16-1 stem-loop on the same transcript can compensate for this deficiency in cis. Using a CRISPR/Cas9 screen, we identify SAFB2 (scaffold attachment factor B2) as an essential co-factor in this miR-16-1-assisted pri-miR-15 cleavage and describe SAFB2 as an accessory protein of the Microprocessor. Notably, SAFB2-mediated cleavage expands to other clustered pri-miRNAs, indicating a general mechanism. Together, our study reveals an unrecognized function of SAFB2 in miRNA processing and suggests a scenario in which SAFB2 enables the binding and processing of suboptimal Microprocessor substrates in clustered primary miRNA transcripts.

Published
2020
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30. Exosomal mitochondrial tRNAs and miRNAs as potential predictors of inflammation in renal proximal tubular epithelial cells.

Author

Ranches G, Zeidler M, Kessler R, Hoelzl M, Hess MW, Vosper J, Perco P, Schramek H, Kummer KK, Kress M, Krogsdam A, Rudnicki M, Mayer G, and Huettenhofer A

Abstract

Exosomes have emerged as a valuable repository of novel biomarkers for human diseases such as chronic kidney disease (CKD). From a healthy control group, we performed microRNA (miRNA) profiling of urinary exosomes and compared it with a cell culture model of renal proximal tubular epithelial cells (RPTECs). Thereby, a large fraction of abundant urinary exosomal miRNAs could also be detected in exosomes derived from RPTECs, indicating them as a suitable model system for investigation of CKD. We subsequently analyzed exosomes from RPTECs in pro-inflammatory and pro-fibrotic states, mimicking some aspects of CKD. Following cytokine treatment, we observed a significant increase in exosome release and identified 30 dysregulated exosomal miRNAs, predominantly associated with the regulation of pro-inflammatory and pro-fibrotic-related pathways. In addition to miRNAs, we also identified 16 dysregulated exosomal mitochondrial RNAs, highlighting a pivotal role of mitochondria in sensing renal inflammation. Inhibitors of exosome biogenesis and release significantly altered the abundance of selected candidate miRNAs and mitochondrial RNAs, thus suggesting distinct sorting mechanisms of different non-coding RNA (ncRNA) species into exosomes. Hence, these two exosomal ncRNA species might be employed as potential indicators for predicting the pathogenesis of CKD and also might enable effective monitoring of the efficacy of CKD treatment., Competing Interests: P.P. is an employee at Delta 4 GmbH, Austria, and R.K. is an employee of Commonwealth Serum Laboratories Behring, Switzerland. All other authors declare no competing interests., (© 2022 The Author(s).)

Published
2022
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