37 results on '"Philipp Merkl"'
Search Results
2. Twist-tailoring Coulomb correlations in van der Waals homobilayers
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Philipp Merkl, Fabian Mooshammer, Samuel Brem, Anna Girnghuber, Kai-Qiang Lin, Leonard Weigl, Marlene Liebich, Chaw-Keong Yong, Roland Gillen, Janina Maultzsch, John M. Lupton, Ermin Malic, and Rupert Huber
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Science - Abstract
The crystallographic orientation of monolayers in van der Waals multi-layers controls their electronic and optical properties. Here the authors show how the twist angle affects Coulomb correlations governing the internal structure and the mutual interaction of excitons in homobilayers of WSe2.
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- 2020
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3. Artificial neural networks for intelligent cost estimation - a contribution to strategic cost management in the manufacturing supply chain.
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Frank Bodendorf, Philipp Merkl, and Jörg Franke
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- 2022
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4. Intelligent cost estimation by machine learning in supply management: A structured literature review.
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Frank Bodendorf, Philipp Merkl, and Jörg Franke
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- 2021
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5. Artificial neural networks for intelligent cost estimation – a contribution to strategic cost management in the manufacturing supply chain
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Philipp Merkl, Jörg Franke, and Frank Bodendorf
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Cost estimate ,Artificial neural network ,Computer science ,Strategy and Management ,Management Science and Operations Research ,Manufacturing supply chain ,Strategic cost management ,Industrial and Manufacturing Engineering ,Manufacturing engineering - Published
- 2021
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6. Ultrafast Nanoscopy of an Exciton Mott Transition in Twisted Bilayer WSe2
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Thomas Siday, Fabian Sandner, Samuel Brem, Martin Zizlsperger, Raul Perea-Causin, Felix Schiegl, Svenja Nerreter, Markus Plankl, Philipp Merkl, Fabian Mooshammer, Markus A. Huber, Ermin Malic, and Rupert Huber
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- 2022
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7. Ultrafast Nanoscopy of High-Density Exciton Phases in WSe
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Thomas, Siday, Fabian, Sandner, Samuel, Brem, Martin, Zizlsperger, Raul, Perea-Causin, Felix, Schiegl, Svenja, Nerreter, Markus, Plankl, Philipp, Merkl, Fabian, Mooshammer, Markus A, Huber, Ermin, Malic, and Rupert, Huber
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Transition Elements ,Electrons ,Electronics - Abstract
The density-driven transition of an exciton gas into an electron-hole plasma remains a compelling question in condensed matter physics. In two-dimensional transition metal dichalcogenides, strongly bound excitons can undergo this phase change after transient injection of electron-hole pairs. Unfortunately, unavoidable nanoscale inhomogeneity in these materials has impeded quantitative investigation into this elusive transition. Here, we demonstrate how ultrafast polarization nanoscopy can capture the Mott transition through the density-dependent recombination dynamics of electron-hole pairs within a WSe
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- 2022
8. Ultrafast Nanoscopy of High-Density Exciton Phases in WSe2
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Thomas Siday, Fabian Sandner, Samuel Brem, Martin Zizlsperger, Raul Perea-Causin, Felix Schiegl, Svenja Nerreter, Markus Plankl, Philipp Merkl, Fabian Mooshammer, Markus A. Huber, Ermin Malic, and Rupert Huber
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Mott transition exciton ultrafast dynamics near-field microscopy terahertz transition metal dichalcogenides ,Mechanical Engineering ,ddc:530 ,General Materials Science ,Bioengineering ,General Chemistry ,Condensed Matter Physics ,530 Physik - Abstract
The density-driven transition of an exciton gas into an electron–hole plasma remains a compelling question in condensed matter physics. In two-dimensional transition metal dichalcogenides, strongly bound excitons can undergo this phase change after transient injection of electron–hole pairs. Unfortunately, unavoidable nanoscale inhomogeneity in these materials has impeded quantitative investigation into this elusive transition. Here, we demonstrate how ultrafast polarization nanoscopy can capture the Mott transition through the density-dependent recombination dynamics of electron–hole pairs within a WSe2 homobilayer. For increasing carrier density, an initial monomolecular recombination of optically dark excitons transitions continuously into a bimolecular recombination of an unbound electron–hole plasma above 7 × 1012 cm–2. We resolve how the Mott transition modulates over nanometer length scales, directly evidencing the strong inhomogeneity in stacked monolayers. Our results demonstrate how ultrafast polarization nanoscopy could unveil the interplay of strong electronic correlations and interlayer coupling within a diverse range of stacked and twisted two-dimensional materials.
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- 2022
9. Ultrafast nanoscopy of an excitonic insulator-metal transition in twisted bilayer WSe2
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Martin Zizlsperger, Thomas Siday, Fabian Sandner, Samuel Brem, Raul Perea-Causin, Felix Schiegl, Svenja Nerreter, Markus Plankl, Philipp Merkl, Fabian Mooshammer, Markus A. Huber, Ermin Malic, and Rupert Huber
- Abstract
Many-body interactions between excitons in a transition-metal dichalcogenide bilayer drive a transition into an electron-hole liquid at high densities. Using ultrafast polarization nanoscopy, we unveil spatiotemporal dynamics of this continuous Mott transition on the nanoscale.
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- 2022
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10. Dual Channel High Power OPCPA System for 3-photon In-Vivo Brain Imaging
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Michael Schulz, Torsten Golz, Philipp Merkl, Thomas Braatz, Mihail Petev, Sebastian Starosielec, Ekaterina Zapolnova, Jan Heye Buss, and Robert Riedel
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A compact high power OPCPA system with two output channels at 1300 nm and 1700 nm and ultrashort pulses is presented for 3-photon in-vivo brain imaging with repetition rates of up to 4MHz.
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- 2022
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11. Twist-Tailoring Hybrid Excitons In Van Der Waals Homobilayers
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Chaw-Keong Yong, Philipp Merkl, Samuel Brem, Anna Girnghuber, Marlene Liebich, Rolang Gillen, Ermin Malic, Kai-Qiang Lin, Fabian Mooshammer, Janina Maultzsch, Rupert Huber, Simon Ovesen, and John M. Lupton
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Superconductivity ,Physics ,Phase transition ,symbols.namesake ,Thin layers ,Condensed matter physics ,Electric field ,Exciton ,symbols ,Coulomb ,van der Waals force ,Twist - Abstract
In homobilayer systems, the twist angle θ has emerged as a powerful tuning knob for tailoring novel phase transitions in atomically thin layers stacked at magic twist angles [1] – a paradigm shift for condensed-matter physics. For twisted bilayers of transition metal dichalcogenides, topological phases [2] and even potential signatures of a superconducting state [3] have been discussed. Yet, a precise understanding of the underlying Coulomb correlations has remained challenging.
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- 2021
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12. Proximity control of interlayer exciton-phonon hybridization in van der Waals heterostructures
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Ermin Malic, Gunnar Berghäuser, Philipp Merkl, Chaw-Keong Yong, Marlene Liebich, Rupert Huber, and Isabella Hofmeister
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Phonon ,Science ,Exciton ,General Physics and Astronomy ,02 engineering and technology ,Orbital overlap ,Two-dimensional materials ,Polaron ,01 natural sciences ,Article ,General Biochemistry, Genetics and Molecular Biology ,Condensed Matter::Materials Science ,symbols.namesake ,chemistry.chemical_compound ,0103 physical sciences ,Tungsten diselenide ,010306 general physics ,Infrared spectroscopy ,Infrared spectroscopy, Two-dimensional materials ,Condensed Matter::Quantum Gases ,Physics ,Multidisciplinary ,Condensed matter physics ,ddc:530 ,General Chemistry ,530 Physik ,Condensed Matter::Mesoscopic Systems and Quantum Hall Effect ,021001 nanoscience & nanotechnology ,chemistry ,Quantum dot ,symbols ,van der Waals force ,0210 nano-technology ,Ground state - Abstract
Van der Waals stacking has provided unprecedented flexibility in shaping many-body interactions by controlling electronic quantum confinement and orbital overlap. Theory has predicted that also electron-phonon coupling critically influences the quantum ground state of low-dimensional systems. Here we introduce proximity-controlled strong-coupling between Coulomb correlations and lattice dynamics in neighbouring van der Waals materials, creating new electrically neutral hybrid eigenmodes. Specifically, we explore how the internal orbital 1s-2p transition of Coulomb-bound electron-hole pairs in monolayer tungsten diselenide resonantly hybridizes with lattice vibrations of a polar capping layer of gypsum, giving rise to exciton-phonon mixed eigenmodes, called excitonic Lyman polarons. Tuning orbital exciton resonances across the vibrational resonances, we observe distinct anticrossing and polarons with adjustable exciton and phonon compositions. Such proximity-induced hybridization can be further controlled by quantum designing the spatial wavefunction overlap of excitons and phonons, providing a promising new strategy to engineer novel ground states of two-dimensional systems., Here, the authors demonstrate proximity-controlled strong-coupling between Coulomb correlations and lattice dynamics in neighbouring van der Waals materials (WSe2 and a gypsum layer), creating electrically neutral hybrid exciton-phonon eigenmodes called excitonic Lyman polarons.
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- 2021
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13. Tripartite Motif 22 (TRIM22) protein restricts herpes simplex virus 1 by epigenetic silencing of viral immediate-early genes
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Tejaswini S. Reddi, Philipp Merkl, David M. Knipe, Norman L. Letvin, and So-Yon Lim
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viruses ,Cultured tumor cells ,Herpesvirus 1, Human ,medicine.disease_cause ,Pathology and Laboratory Medicine ,Virus Replication ,Biochemistry ,Epigenesis, Genetic ,Histones ,Tripartite Motif Proteins ,chemistry.chemical_compound ,Heterochromatin ,Medicine and Health Sciences ,Biology (General) ,Genetics ,DNA virus ,Small interfering RNA ,Precipitation Techniques ,Nucleic acids ,Medical Microbiology ,Viral Pathogens ,Viruses ,Herpes Simplex Virus-1 ,Cell lines ,Disease Susceptibility ,Pathogens ,Biological cultures ,Research Article ,Herpesviruses ,QH301-705.5 ,Immunology ,Biology ,TRIM22 ,Transfection ,Research and Analysis Methods ,Microbiology ,Virus ,Cell Line ,Minor Histocompatibility Antigens ,Virology ,medicine ,Immunoprecipitation ,Humans ,HeLa cells ,Gene Silencing ,Molecular Biology Techniques ,Non-coding RNA ,Gene ,Molecular Biology ,Microbial Pathogens ,Genes, Immediate-Early ,Organisms ,Biology and Life Sciences ,RC581-607 ,Cell cultures ,Viral Replication ,Herpes Simplex Virus ,Gene regulation ,Repressor Proteins ,Herpes simplex virus ,Viral replication ,chemistry ,RNA ,Parasitology ,Gene expression ,Immunologic diseases. Allergy ,DNA viruses ,DNA - Abstract
Intrinsic resistance is a crucial line of defense against virus infections, and members of the Tripartite Ring Interaction Motif (TRIM) family of proteins are major players in this system, such as cytoplasmic TRIM5α or nuclear promyelocytic leukemia (PML/TRIM19) protein. Previous reports on the antiviral function of another TRIM protein, TRIM22, emphasized its innate immune role as a Type I and Type II interferon-stimulated gene against RNA viruses. This study shows that TRIM22 has an additional intrinsic role against DNA viruses. Here, we report that TRIM22 is a novel restriction factor of HSV-1 and limits ICP0-null virus replication by increasing histone occupancy and heterochromatin, thereby reducing immediate-early viral gene expression. The corresponding wild-type equivalent of the virus evades the TRIM22-specific restriction by a mechanism independent of ICP0-mediated degradation. We also demonstrate that TRIM22 inhibits other DNA viruses, including representative members of the β- and γ- herpesviruses. Allelic variants in TRIM22 showed different degrees of anti-herpesviral activity; thus, TRIM22 genetic variability may contribute to the varying susceptibility to HSV-1 infection in humans. Collectively, these results argue that TRIM22 is a novel restriction factor and expand the list of restriction factors functioning in the infected cell nucleus to counter DNA virus infection., Author summary The host immune response to herpesviruses includes intrinsic immunity, which is a constitutively active line of defense. Members of the Tripartite Motif (TRIM) superfamily of proteins, such as cytoplasmic TRIM5α and nuclear TRIM19, are examples of such restriction factors against the prototypical α-herpesvirus, herpes simplex virus-1 (HSV-1). Previous reports on the antiviral function of the protein encoded by TRIM22, a gene closely related to the TRIM5 gene, emphasized its antiretroviral role. We show that TRIM22 has an additional role as a restriction factor against herpesviruses. We found that TRIM22 inhibits a mutant form of HSV-1, by promoting chromatin compaction of the viral DNA encoding immediate-early viral genes–this consequently inhibits viral replication and reduces virus yields. Unlike other restriction factors that are degraded by the viral infected cell polypeptide 0 (ICP0), TRIM22 is not degraded by ICP0. We also show that TRIM22 inhibits representative members of the β-herpesvirus (cytomegalovirus) and γ- herpesviruses (Epstein-Barr virus). In addition, different TRIM22 genetic variants show differing levels of HSV-1 inhibition. Together, these results argue for the importance of the TRIM22 gene as a restriction factor against herpesviruses, and offer a novel avenue for further investigation on the role of TRIM genes in host genetic variation in herpesviral susceptibility.
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- 2021
14. A Multi-Perspective Approach to Support Collaborative Cost Management in Supplier-Buyer Dyads
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Philipp Merkl, Qiao Xie, Frank Bodendorf, and Joerg Franke
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Economics and Econometrics ,Decision support system ,Process management ,Cost estimate ,Total cost ,Computer science ,Supply chain ,Cost accounting ,Management Science and Operations Research ,General Business, Management and Accounting ,Original equipment manufacturer ,Industrial and Manufacturing Engineering ,Joint cost ,Activity-based costing - Abstract
Joint cost management is a decisive factor for sustainable collaboration in supplier-buyer dyads. For both parties the establishment of an accurate cost estimation (CE) framework supports managing suppliers’ costs as well as manufacturer’s quotation costing. Grounded on resource dependence theory and following a design science research approach, this study aims to develop a multi-perspective CE system inspired by statistical learning , deep learning- decision-making and multi-agent theory. We evaluate our system in a single case and computer simulation study using empirical data coming from observations and archives at a large Bavarian original equipment manufacturer (OEM). The results indicate that our CE approach can select the most significant cost-drivers and predict total costs of parts and assemblies with high accuracy to support the supplier in efficiently managing its costs. In making the CE blackbox model transparent using a combination of model agnostic post-hoc explainable artificial intelligence approaches we create user acceptance for both suppliers and OEMs. All CE-artifacts are ensembled in a multi-agent system being able to automatically manage costs with suppliers and furthermore, as a model extension, can lead to a collaborative price agreement. Our system supports supply chain managers on both sides in entering into a sustainable long partnership.
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- 2021
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15. Tailoring Coulomb correlations in twisted WSe2 bilayers
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Ermin Malic, Rupert Huber, Fabian Mooshammer, Roland Gillen, Philipp Merkl, Janina Maultsch, Leonard Weigl, Anna Girnghuber, John M. Lupton, Chaw-Keong Yong, Samuel Brem, and Kai-Qiang Lin
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Physics ,Red shift ,Trace (linear algebra) ,Exciton ,Binding energy ,Coulomb ,Twist angle ,Electron ,Molecular physics ,Photon counting - Abstract
Phase-locked few-cycle mid-infrared pulses trace how the twist angle alone renormalizes the binding energy of excitons in twisted WSe2 homobilayers by a factor of two and tunes their lifetime by a factor of twenty.
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- 2021
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16. Excitons in twisted van der Waals bilayers: Internal structure and ultrafast dynamics
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Rupert Huber, Marlene Liebich, Philipp Merkl, Simon Ovesen, Kai-Qiang Lin, Rolang Gillen, Anna Girnghuber, Fabian Mooshammer, Janina Maultzsch, John M. Lupton, Ermin Malic, Chaw-Keong Yong, and Samuel Brem
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Materials science ,Terahertz radiation ,Exciton ,Dynamics (mechanics) ,Binding energy ,02 engineering and technology ,Condensed Matter::Mesoscopic Systems and Quantum Hall Effect ,021001 nanoscience & nanotechnology ,01 natural sciences ,Molecular physics ,Condensed Matter::Materials Science ,symbols.namesake ,Transition metal ,0103 physical sciences ,symbols ,Twist angle ,van der Waals force ,010306 general physics ,0210 nano-technology ,Ultrashort pulse - Abstract
By probing internal 1s-2p transitions with phase-locked mid-infrared pulses, we reveal the internal structure and binding energy of photo-generated excitons in transition metal dichalcogenide bilayers. Furthermore, we trace how the twist angle precisely controls the ultrafast formation of interlayer excitons and tunes excitonic hybridization in hetero- and homobilayers, respectively.
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- 2020
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17. Twist-tailoring Coulomb correlations in van der Waals homobilayers
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Rupert Huber, Janina Maultzsch, Marlene Liebich, Kai-Qiang Lin, Fabian Mooshammer, Leonard Weigl, John M. Lupton, Ermin Malic, Anna Girnghuber, Chaw-Keong Yong, Samuel Brem, Roland Gillen, and Philipp Merkl
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Phase transition ,Nonlinear optics ,Solid-state physics ,Science ,Exciton ,Atom and Molecular Physics and Optics ,General Physics and Astronomy ,02 engineering and technology ,Two-dimensional materials ,01 natural sciences ,Resonance (particle physics) ,Physical Chemistry ,General Biochemistry, Genetics and Molecular Biology ,Article ,symbols.namesake ,Condensed Matter::Materials Science ,Ultrafast photonics ,0103 physical sciences ,Coulomb ,lcsh:Science ,010306 general physics ,Electronic band structure ,Physics ,Multidisciplinary ,Condensed matter physics ,ddc:530 ,General Chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Condensed Matter::Mesoscopic Systems and Quantum Hall Effect ,530 Physik ,3. Good health ,symbols ,Quasiparticle ,lcsh:Q ,van der Waals force ,0210 nano-technology - Abstract
The recent discovery of artificial phase transitions induced by stacking monolayer materials at magic twist angles represents a paradigm shift for solid state physics. Twist-induced changes of the single-particle band structure have been studied extensively, yet a precise understanding of the underlying Coulomb correlations has remained challenging. Here we reveal in experiment and theory, how the twist angle alone affects the Coulomb-induced internal structure and mutual interactions of excitons. In homobilayers of WSe2, we trace the internal 1s–2p resonance of excitons with phase-locked mid-infrared pulses as a function of the twist angle. Remarkably, the exciton binding energy is renormalized by up to a factor of two, their lifetime exhibits an enhancement by more than an order of magnitude, and the exciton-exciton interaction is widely tunable. Our work opens the possibility of tailoring quasiparticles in search of unexplored phases of matter in a broad range of van der Waals heterostructures., The crystallographic orientation of monolayers in van der Waals multi-layers controls their electronic and optical properties. Here the authors show how the twist angle affects Coulomb correlations governing the internal structure and the mutual interaction of excitons in homobilayers of WSe2.
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- 2020
18. Dielectric Engineering of Electronic Correlations in a van der Waals Heterostructure
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Malte Selig, Kenji Watanabe, Rupert Huber, Alexey Chernikov, Philipp Merkl, Ermin Malic, Alexander Graf, Christian Schüller, Philipp Nagler, Jonas Zipfel, Philipp Steinleitner, Tobias Korn, Takashi Taniguchi, Samuel Brem, and Gunnar Berghäuser
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Materials science ,Terahertz radiation ,Exciton ,FOS: Physical sciences ,Physics::Optics ,Bioengineering ,02 engineering and technology ,Dielectric ,01 natural sciences ,Condensed Matter::Materials Science ,symbols.namesake ,0103 physical sciences ,Monolayer ,General Materials Science ,Dichalcogenides, atomically thin 2D crystals, van der Waals heterostructures, dielectric engineering, dark excitons ,010306 general physics ,Spectroscopy ,Condensed Matter - Materials Science ,Condensed matter physics ,Mechanical Engineering ,ddc:530 ,Materials Science (cond-mat.mtrl-sci) ,Heterojunction ,General Chemistry ,530 Physik ,Condensed Matter::Mesoscopic Systems and Quantum Hall Effect ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Quasiparticle ,symbols ,van der Waals force ,0210 nano-technology - Abstract
Heterostructures of van der Waals bonded layered materials offer unique means to tailor dielectric screening with atomic-layer precision, opening a fertile field of fundamental research. The optical analyses used so far have relied on interband spectroscopy. Here we demonstrate how a capping layer of hexagonal boron nitride (hBN) renormalizes the internal structure of excitons in a WSe$_2$ monolayer using intraband transitions. Ultrabroadband terahertz probes sensitively map out the full complex-valued mid-infrared conductivity of the heterostructure after optical injection of $1s$ A excitons. This approach allows us to trace the energies and linewidths of the atom-like $1s$-$2p$ transition of optically bright and dark excitons as well as the densities of these quasiparticles. The fundamental excitonic resonance red shifts and narrows in the WSe$_2$/hBN heterostructure compared to the bare monolayer. Furthermore, the ultrafast temporal evolution of the mid-infrared response function evidences the formation of optically dark excitons from an initial bright population. Our results provide key insight into the effect of non local screening on electron-hole correlations and open new possibilities of dielectric engineering of van der Waals heterostructures.
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- 2018
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19. RNA polymerase I (Pol I) passage through nucleosomes depends on Pol I subunits binding its lobe structure
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Joachim Griesenbeck, Gernot Längst, Christoph Engel, Philipp Milkereit, Philipp Merkl, Katrin Schwank, Michael Pilsl, Herbert Tschochner, and Tobias Fremter
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0301 basic medicine ,DNA Replication ,Transcription, Genetic ,Protein subunit ,viruses ,RNA polymerase II ,Saccharomyces cerevisiae ,Biochemistry ,Ribosome ,DNA, Ribosomal ,RNA polymerase III ,03 medical and health sciences ,Transcription (biology) ,RNA Polymerase I ,RNA polymerase I ,Nucleosome ,Gene Regulation ,Promoter Regions, Genetic ,Molecular Biology ,030102 biochemistry & molecular biology ,biology ,Chemistry ,RNA Polymerase III ,Cell Biology ,Processivity ,Chromatin ,Cell biology ,Nucleosomes ,Protein Subunits ,030104 developmental biology ,biology.protein ,RNA Polymerase II ,Ribosomes ,Protein Binding - Abstract
RNA polymerase I (Pol I) is a highly efficient enzyme specialized in synthesizing most ribosomal RNAs. After nucleosome deposition at each round of rDNA replication, the Pol I transcription machinery has to deal with nucleosomal barriers. It has been suggested that Pol I–associated factors facilitate chromatin transcription, but it is unknown whether Pol I has an intrinsic capacity to transcribe through nucleosomes. Here, we used in vitro transcription assays to study purified WT and mutant Pol I variants from the yeast Saccharomyces cerevisiae and compare their abilities to pass a nucleosomal barrier with those of yeast Pol II and Pol III. Under identical conditions, purified Pol I and Pol III, but not Pol II, could transcribe nucleosomal templates. Pol I mutants lacking either the heterodimeric subunit Rpa34.5/Rpa49 or the C-terminal part of the specific subunit Rpa12.2 showed a lower processivity on naked DNA templates, which was even more reduced in the presence of a nucleosome. Our findings suggest that the lobe-binding subunits Rpa34.5/Rpa49 and Rpa12.2 facilitate passage through nucleosomes, suggesting possible cooperation among these subunits. We discuss the contribution of Pol I–specific subunit domains to efficient Pol I passage through nucleosomes in the context of transcription rate and processivity.
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- 2019
20. Multibranch pulse synthesis and electro-optic detection of subcycle multi-terahertz electric fields
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Rupert Huber, Dominik Peller, Lukas Z. Kastner, Matthias Knorr, Christian Meineke, and Philipp Merkl
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Physics ,business.industry ,Terahertz radiation ,ddc:530 ,Nonlinear optics ,Physics::Optics ,02 engineering and technology ,021001 nanoscience & nanotechnology ,Laser ,530 Physik ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,law.invention ,Pulse (physics) ,010309 optics ,Optical rectification ,Optics ,law ,Electric field ,0103 physical sciences ,Waveform ,Group velocity ,500 Naturwissenschaften ,0210 nano-technology ,business - Abstract
We present a robust, compact pulse synthesis scheme generating intense phase-locked subcycle multi-terahertz waveforms. The ultrabroadband laser fundamental is split into two parallel branches driving optical rectification in crystals of GaSe and LiGaS2, each operated at the group velocity matching point. The coherent combination of the resulting pulses yields a continuous multi-terahertz spectrum covering 1.5 optical octaves. The corresponding 0.8-cycle electric field waveform is directly mapped out by electro-optic sampling, revealing peak fields of 15 kV/cm at a repetition rate of 0.4 MHz. The multiplexable and power scalable scheme opens the door to strong-field custom-tailored waveforms driving nonlinear optics and light wave electronics. (C) 2019 Optical Society of America
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- 2019
21. RNA polymerase I passage through nucleosomes depends on its lobe binding subunits
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K. Schwank, Philipp Milkereit, Herbert Tschochner, Joachim Griesenbeck, Gernot Längst, Philipp Merkl, Christoph Engel, T. Fremter, and Michael Pilsl
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biology ,Transcription (biology) ,Chemistry ,viruses ,Protein subunit ,RNA polymerase I ,biology.protein ,Nucleosome ,RNA polymerase II ,Processivity ,RNA polymerase III ,Chromatin ,Cell biology - Abstract
RNA polymerase I (Pol I) is a highly efficient enzyme specialized to synthesize most of the ribosomal RNA. After nucleosome deposition at each round of replication the Pol I transcription machinery has to deal with nucleosomal barriers. It was suggested that Pol I-associated factors facilitate chromatin transcription, but it is not known whether Pol I has an intrinsic capacity to transcribe through nucleosomes. Here we used in vitro transcription assays to study purified Pol I of the yeast S. cerevisiae and Pol I mutants in comparison to Pol II and Pol III to pass a nucleosome. Under identical conditions, purified Pol I and Pol III, but not Pol II, were able to transcribe nucleosomal templates. Pol I mutants lacking either the heterodimeric subunit Rpa34.5/Rpa49 or the C-terminal part of the specific subunit Rpa12.2 showed a lower processivity on naked DNA templates, which was even more reduced in the presence of a nucleosome. The contribution of Pol I specific subunit domains to efficient passage through nucleosomes in context with transcription rate and processivity is discussed.
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- 2019
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22. Ultrafast transition between exciton phases in van der Waals heterostructures
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Philipp Nagler, Philipp Steinleitner, Christian Schüller, Philipp Merkl, Johannes Holler, Samuel Brem, Anna Girnghuber, Tobias Korn, Simon Ovesen, Fabian Mooshammer, Kai-Qiang Lin, Rupert Huber, John M. Lupton, and Ermin Malic
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Phase transition ,Materials science ,Exciton ,Binding energy ,FOS: Physical sciences ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,Superfluidity ,symbols.namesake ,Condensed Matter::Materials Science ,Mesoscale and Nanoscale Physics (cond-mat.mes-hall) ,Valleytronics ,General Materials Science ,Condensed Matter::Quantum Gases ,Condensed Matter - Materials Science ,Quantum Physics ,Condensed matter physics ,Condensed Matter - Mesoscale and Nanoscale Physics ,Mechanical Engineering ,ddc:530 ,Materials Science (cond-mat.mtrl-sci) ,Heterojunction ,General Chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Condensed Matter::Mesoscopic Systems and Quantum Hall Effect ,530 Physik ,0104 chemical sciences ,Mechanics of Materials ,symbols ,Nanodot ,van der Waals force ,Quantum Physics (quant-ph) ,0210 nano-technology ,Optics (physics.optics) ,Physics - Optics - Abstract
Heterostructures of atomically thin van der Waals bonded monolayers have opened a unique platform to engineer Coulomb correlations, shaping excitonic, Mott insulating, or superconducting phases. In transition metal dichalcogenide heterostructures, electrons and holes residing in different monolayers can bind into spatially indirect excitons with a strong potential for optoelectronics, valleytronics, Bose condensation, superfluidity, and moir\'e-induced nanodot lattices. Yet these ideas require a microscopic understanding of the formation, dissociation, and thermalization dynamics of correlations including ultrafast phase transitions. Here we introduce a direct ultrafast access to Coulomb correlations between monolayers; phase-locked mid-infrared pulses allow us to measure the binding energy of interlayer excitons in WSe2/WS2 hetero-bilayers by revealing a novel 1s-2p resonance, explained by a fully quantum mechanical model. Furthermore, we trace, with subcycle time resolution, the transformation of an exciton gas photogenerated in the WSe2 layer directly into interlayer excitons. Depending on the stacking angle, intra- and interlayer species coexist on picosecond scales and the 1s-2p resonance becomes renormalized. Our work provides a direct measurement of the binding energy of interlayer excitons and opens the possibility to trace and control correlations in novel artificial materials., Comment: This is a post-peer-review, pre-copyedit version of an article published in Nature Materials. The final authenticated version is available online at https://doi.org/10.1038/s41563-019-0337-0
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- 2019
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23. Ultrafast Transition from Intra- to Interlayer Exciton Phases in a Van Der Waals Heterostructure
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Philipp Merkl, Fabian Mooshammer, Philipp Steinleitner, Anna Girnghuber, Kai-Qiang Lin, Philipp Nagler, Johannes Holler, Christian Schüller, John M. Lupton, Tobias Korn, Simon Ovesen, Samuel Brem, Ermin Malic, and Rupert Huber
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- 2019
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24. Role for a Filamentous Nuclear Assembly of IFI16, DNA, and Host Factors in Restriction of Herpesviral Infection
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David M. Knipe and Philipp Merkl
- Subjects
Gene Expression Regulation, Viral ,Heterochromatin ,viruses ,RNA polymerase II ,Herpesvirus 1, Human ,Virus Replication ,Microbiology ,Cell Line ,Epigenesis, Genetic ,Host-Microbe Biology ,03 medical and health sciences ,chemistry.chemical_compound ,Transcription (biology) ,Interferon ,Virology ,DNA virus ,medicine ,Humans ,Epigenetics ,Gene Silencing ,supramolecular organizing center ,030304 developmental biology ,0303 health sciences ,Microscopy ,biology ,epigenetics ,030302 biochemistry & molecular biology ,DNA replication ,Nuclear Proteins ,Phosphoproteins ,QR1-502 ,3. Good health ,Cell biology ,chemistry ,Viral replication ,DNA, Viral ,biology.protein ,chromatin ,Protein Multimerization ,signaling ,DNA ,medicine.drug ,Research Article - Abstract
Mammalian cells exhibit numerous strategies to recognize and contain viral infections. The best-characterized antiviral responses are those that are induced within the cytosol by receptors that activate interferon responses or shut down translation. Antiviral responses also occur in the nucleus, yet these intranuclear innate immune responses are poorly defined at the receptor-proximal level. In this study, we explored the ability of cells to restrict infection by assembling viral DNA into transcriptionally silent heterochromatin within the nucleus. We found that the IFI16 restriction factor forms filaments on DNA within infected cells. These filaments recruit antiviral restriction factors to prevent viral replication in various cell types. Mechanistically, IFI16 filaments inhibit the recruitment of RNA polymerase II to viral genes. We propose that IFI16 filaments with associated restriction factors constitute a “restrictosome” structure that can signal to other parts of the nucleus where foreign DNA is located that it should be silenced., Several host cell nuclear factors are known to restrict herpes simplex virus 1 (HSV-1) replication, but their mechanisms of action remain to be defined. Interferon-inducible protein 16 (IFI16) and the nuclear domain 10-associated proteins, such as promyelocytic leukemia (PML) protein, localize to input viral genomes, but they are also capable of restricting progeny viral transcription. In this study, we used structured illumination microscopy to show that after HSV DNA replication, IFI16 forms nuclear filamentous structures on DNA within a subset of nuclear replication compartments in HSV-1 ICP0-null mutant virus-infected human cells. The ability to form filaments in different cell types correlates with the efficiency of restriction, and the kinetics of filament formation and epigenetic changes are similar. Thus, both are consistent with the filamentous structures being involved in epigenetic silencing of viral progeny DNA. IFI16 filaments recruit other restriction factors, including PML, Sp100, and ATRX, to aid in the restriction. Although the filaments are only in a subset of the replication compartments, IFI16 reduces the levels of elongation-competent RNA polymerase II (Pol II) in all replication compartments. Therefore, we propose that IFI16 filaments with associated restriction factors that form in replication compartments constitute a “restrictosome” structure that signals in cis and trans to silence the progeny viral DNA throughout the infected cell nucleus. The IFI16 filamentous structure may constitute the first known nuclear supramolecular organizing center for signaling in the cell nucleus.
- Published
- 2019
25. RNA polymerase I transcription fidelity, speed and processivity depend on the interplay of its lobe binding subunits
- Author
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Herbert Tschochner, Joachim Griesenbeck, Philipp Milkereit, Gernot Längst, Philipp Merkl, T. Fremter, and Michael Pilsl
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biology ,Chemistry ,Transcription (biology) ,viruses ,biology.protein ,RNA polymerase I ,RNA ,RNA polymerase II ,Processivity ,In vitro transcription ,Polymerase ,Yeast ,Cell biology - Abstract
Eukaryotic RNA polymerases I and III (Pol I and III) consist of core subunits, which are conserved in RNA polymerase II (Pol II). Additionally, Pol I and III have specific subunits, associating with the so-called ‘lobe’ structure first described within Pol II. In Pol I of the yeastS. cerevisiae, these are Rpa34.5, and the N-terminal domains of Rpa49 and Rpa12.2, here referred to as the lobe-binding module (lb-module). We analyzed functions of the lb-module in a definedin vitrotranscription system. Cooperation between lb-module components influenced transcription fidelity, elongation speed, and release of stalled Pol I complexes to continue elongation. Interestingly, lb-module containing Pol I and III, but not Pol II, were able to transcribe nucleosomal templates. Our data suggest, how the Pol I specific subunits may contribute to accurate and processive transcription of ribosomal RNA genes.
- Published
- 2018
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26. Ultrabroadband etalon-free detection of infrared transients by van-der-Waals contacted sub-10-µm GaSe detectors
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Philipp Merkl, Christoph Lange, Philipp Steinleitner, Jürgen Raab, Imke Gronwald, Matthias Knorr, and Rupert Huber
- Subjects
Materials science ,Terahertz radiation ,business.industry ,Infrared ,ddc:530 ,02 engineering and technology ,Substrate (electronics) ,021001 nanoscience & nanotechnology ,530 Physik ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,010309 optics ,Crystal ,Optical rectification ,symbols.namesake ,Optics ,0103 physical sciences ,symbols ,van der Waals force ,0210 nano-technology ,business ,Refractive index ,Fabry–Pérot interferometer - Abstract
We demonstrate ultrabroadband electro-optic detection of multi-THz transients using mechanically exfoliated flakes of gallium selenide of a thickness of less than 10 mu m, contacted to a diamond substrate by van-der-Waals bonding. While the low crystal thickness allows for extremely broadband phase matching, the excellent optical contact with the index-matched substrate suppresses multiple optical reflections. The high quality of our structure makes our scheme suitable for the undistorted and artifact-free observation of electromagnetic waveforms covering the entire THz spectral range up to the near-infrared regime without the need for correction for the electro-optic response function. With the current revolution of chemically inert quasi-two-dimensional layered materials, we anticipate that exfoliated vander-Waals materials on index-matched substrates will open new flexible ways of ultrabroadband electro-optic detection at unprecedented frequencies. (C) 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement
- Published
- 2018
27. Mechanisms of Host IFI16, PML, and Daxx Protein Restriction of Herpes Simplex Virus 1 Replication
- Author
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David M. Knipe, Megan H. Orzalli, and Philipp Merkl
- Subjects
DNA Replication ,Gene Expression Regulation, Viral ,0301 basic medicine ,viruses ,Immunology ,Genome, Viral ,Herpesvirus 1, Human ,Promyelocytic Leukemia Protein ,Biology ,Virus Replication ,medicine.disease_cause ,Microbiology ,Cell Line ,Small hairpin RNA ,03 medical and health sciences ,chemistry.chemical_compound ,Death-associated protein 6 ,Transcription (biology) ,Virology ,medicine ,Humans ,RNA, Small Interfering ,Gene ,Adaptor Proteins, Signal Transducing ,Nuclear Proteins ,DNA virus ,Phosphoproteins ,Genome Replication and Regulation of Viral Gene Expression ,Cell biology ,HEK293 Cells ,030104 developmental biology ,Herpes simplex virus ,chemistry ,Viral replication ,Insect Science ,DNA, Viral ,Host-Pathogen Interactions ,RNA Interference ,Co-Repressor Proteins ,DNA ,Molecular Chaperones - Abstract
The initial events after DNA virus infection involve a race between epigenetic silencing of the incoming viral DNA by host cell factors and expression of viral genes. Several host gene products, including the nuclear domain 10 (ND10) components PML (promyelocytic leukemia) and Daxx (death domain-associated protein 6), as well as IFI16 (interferon-inducible protein 16), have been shown to restrict herpes simplex virus 1 (HSV-1) replication. Whether IFI16 and ND10 components work together or separately to restrict HSV-1 replication is not known. To determine the combinatorial effects of IFI16 and ND10 proteins on viral infection, we depleted Daxx or PML in primary human foreskin fibroblasts (HFFs) in the presence or absence of IFI16. Daxx or IFI16 depletion resulted in higher ICP0 mutant viral yields, and the effects were additive. Surprisingly, small interfering RNA (siRNA) depletion of PML in the HFF cells led to decreased ICP0-null virus replication, while short hairpin RNA (shRNA) depletion led to increased ICP0-null virus replication, arguing that different PML isoforms or PML-related proteins may have restrictive or proviral functions. In normal human cells, viral DNA replication increases expression of all classes of HSV-1 genes. We observed that IFI16 repressed transcription from both parental and progeny DNA genomes. Taken together, our results show that the mechanisms of action of IFI16 and ND10 proteins are independent, at least in part, and that IFI16 exerts restrictive effects on both input and replicated viral genomes. These results raise the potential for distinct mechanisms of action of IFI16 on parental and progeny viral DNA molecules. IMPORTANCE Many human DNA viruses transcribe their genomes and replicate in the nucleus of a host cell, where they exploit the host cell nuclear machinery for their own replication. Host factors attempt to restrict viral replication by blocking such events, and viruses have evolved mechanisms to neutralize the host restriction factors. In this study, we provide information about the mechanisms of action of three host cell factors that restrict replication of herpes simplex virus (HSV). We found that these factors function independently and that one acts to restrict viral transcription from parental and progeny viral DNA genomes. These results provide new information about how cells counter DNA virus replication in the nucleus and provide possible approaches to enhance the ability of human cells to resist HSV infection.
- Published
- 2018
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- View/download PDF
28. Phase-locked multi-terahertz electric fields exceeding 13 MV/cm at 190 kHz repetition rate
- Author
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Emanuel Wittmann, Eberhard Riedle, Philipp Merkl, Dominik Peller, Christoph Lange, Jürgen Raab, Rupert Huber, Maximilian Tauer, and Matthias Knorr
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Optical amplifier ,Materials science ,business.industry ,Terahertz radiation ,Oscillation ,Amplifier ,ddc:530 ,Phase (waves) ,FOS: Physical sciences ,02 engineering and technology ,021001 nanoscience & nanotechnology ,OPTICAL PARAMETRIC AMPLIFICATION ,MIDINFRARED PULSES ,RESOLVED DETECTION ,MID-IR ,MU-M ,GENERATION ,SPECTROSCOPY ,TRANSIENTS ,GASE ,CRYSTALS ,530 Physik ,01 natural sciences ,Optical parametric amplifier ,Electromagnetic radiation ,Atomic and Molecular Physics, and Optics ,010309 optics ,Optics ,Electric field ,0103 physical sciences ,0210 nano-technology ,business ,Optics (physics.optics) ,Physics - Optics - Abstract
We demonstrate a compact source of energetic and phase-locked multi-terahertz pulses at a repetition rate of 190 kHz. Difference frequency mixing of the fundamental output of an Yb:KGW amplifier with the idler of an optical parametric amplifier in GaSe and LiGaS2 crystals yields a passively phase-locked train of waveforms tunable between 12 and 42 THz. The shortest multi-terahertz pulses contain 1.8 oscillation cycles within the intensity FWHM. Pulse energies of up to 0.16 {\mu}J and peak electric fields of 13 MV/cm are achieved. Electro-optic sampling reveals a phase stability better than 0.1 $\pi$ over multiple hours combined with free CEP tunability. The scalable scheme opens the door to strong-field terahertz optics at unprecedented repetition rates., Comment: 6 pages, 5 figures \copyright 2017 Optical Society of America. One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modifications of the content of this paper are prohibited
- Published
- 2017
29. Direct Observation of Ultrafast Exciton Formation in a Monolayer of WSe
- Author
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Philipp, Steinleitner, Philipp, Merkl, Philipp, Nagler, Joshua, Mornhinweg, Christian, Schüller, Tobias, Korn, Alexey, Chernikov, and Rupert, Huber
- Abstract
Many of the fundamental optical and electronic properties of atomically thin transition metal dichalcogenides are dominated by strong Coulomb interactions between electrons and holes, forming tightly bound atom-like states called excitons. Here, we directly trace the ultrafast formation of excitons by monitoring the absolute densities of bound and unbound electron-hole pairs in single monolayers of WSe
- Published
- 2017
30. Direct Observation of ultrafast exciton Formation in a monolayer of WSe2
- Author
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Philipp Nagler, Joshua Mornhinweg, Tobias Korn, Alexey Chernikov, Philipp Steinleitner, Christian Schüller, Rupert Huber, and Philipp Merkl
- Subjects
Exciton ,Physics::Optics ,Bioengineering ,02 engineering and technology ,Electron ,01 natural sciences ,Optical conductivity ,Condensed Matter::Materials Science ,0103 physical sciences ,Monolayer ,General Materials Science ,010306 general physics ,Chemistry ,Mechanical Engineering ,ddc:530 ,General Chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,530 Physik ,Femtosecond ,TRANSITION-METAL DICHALCOGENIDES ,GIANT BANDGAP RENORMALIZATION ,TUNGSTEN DISULFIDE ,MOS2 ,PHOTOLUMINESCENCE ,HETEROSTRUCTURES ,EXCITATION ,LINEWIDTH ,DYNAMICS ,STATES ,Dichalcogenides ,atomically thin 2D crystals ,exciton formation ,ultrafast dynamics ,Charge carrier ,Atomic physics ,0210 nano-technology ,Ultrashort pulse ,Excitation - Abstract
Many of the fundamental optical and electronic properties of atomically thin transition metal dichalcogenides are dominated by strong Coulomb interactions between electrons and holes, forming tightly bound atom-like states called excitons. Here, we directly trace the ultrafast formation of excitons by monitoring the absolute densities of bound and unbound electron hole pairs in single monolayers of WSe2 on a diamond substrate following femtosecond nonresonant optical excitation. To this end, phase locked mid-infrared probe pulses and field-sensitive electro-optic sampling are used to map out the full complex-valued optical conductivity of the nonequilibrium system and to discern the hallmark low-energy responses of bound and unbound pairs. While the spectral shape of the infrared response immediately after above-bandgap injection is dominated by free charge carriers, up to 60% of the electron-hole pairs are bound into excitons already on a subpicosecond time scale, evidencing extremely fast and efficient exciton formation. During the subsequent recombination phase, we still find a large density of free carriers in addition to excitons, indicating a nonequilibrium state of the photoexcited electron-hole system.
- Published
- 2017
31. Thiolutin is a zinc chelator that inhibits the Rpn11 and other JAMM metalloproteases
- Author
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Linda Lauinger, Raymond J. Deshaies, Frauke Melchior, Yaru Zhang, Tobias Schafmeier, Axel Diernfellner, Kyle P. Carter, Anton Shostak, Philipp Merkl, Nicolas Stankovic-Valentin, Simon Obermeyer, Albert A. Bowers, Walter Wever, Ibrahim Avi Cemel, Amy E. Palmer, Michael Brunner, Herbert Tschochner, Jing Li, and Nati Ha
- Subjects
0301 basic medicine ,Proteasome Endopeptidase Complex ,Streptomyces ,Article ,Deubiquitinating enzyme ,03 medical and health sciences ,Structure-Activity Relationship ,medicine ,Metalloprotein ,Structure–activity relationship ,Humans ,COP9 signalosome ,Enzyme Inhibitors ,Molecular Biology ,Chelating Agents ,chemistry.chemical_classification ,Metalloproteinase ,biology ,Dose-Response Relationship, Drug ,Cell Biology ,biology.organism_classification ,Thiolutin ,Pyrrolidinones ,Cell biology ,Zinc ,030104 developmental biology ,Biochemistry ,chemistry ,Proteasome ,biology.protein ,Metalloproteases ,Trans-Activators ,medicine.drug ,HeLa Cells - Abstract
Thiolutin is a disulfide-containing antibiotic and anti-angiogenic compound produced by Streptomyces. Its biological targets are not known. We show that reduced thiolutin is a zinc-chelator that inhibits the JAB1/MPN/Mov34 (JAMM) domain-containing metalloprotease Rpn11, a de-ubiquinating enzyme of the 19S proteasome. Thiolutin also inhibits the JAMM metalloproteases Csn5, the deneddylase of the COP9 signalosome, Associated-molecule-with-the-SH3-Domain-of-STAM (AMSH), which regulates ubiquitin-dependent sorting of cell-surface receptors, and Brcc36, a K63-specific deubiquitnase of BRCC36-containing isopeptidase complex (BRISC) and BRCA1-BRCA2-containing complex (BRCC). We provide evidence that other dithiolopyrrolones also function as inhibitors of JAMM metalloproteases.
- Published
- 2017
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32. Oleic acid is a precursor of linoleic acid and the male sex pheromone in Nasonia vitripennis
- Author
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Herbert Tschochner, Joachim Ruther, Rainer Merkl, Philipp Merkl, Birgit Blaul, and Robert Steinbauer
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Male ,Linoleic acid ,media_common.quotation_subject ,Wasps ,Insect ,Hymenoptera ,Biology ,Biochemistry ,Pheromones ,Linoleic Acid ,Nasonia vitripennis ,Lactones ,chemistry.chemical_compound ,Botany ,Animals ,Sex Attractants ,Molecular Biology ,media_common ,Diptera ,fungi ,Pupa ,biology.organism_classification ,Oleic acid ,chemistry ,Insect Science ,Sex pheromone ,Pheromone ,Nasonia ,Oleic Acid - Abstract
Linoleic acid (C18:2(Δ9,12), LA) is crucial for many cell functions in organisms. It has long been a paradigm that animals are unable to synthesize LA from oleic acid (C18:1(Δ9), OA) because they were thought to miss Δ(12)-desaturases for inserting a double bound at the Δ(12)-position. Today it is clear that this is not true for all animals because some insects and other invertebrates have been demonstrated to synthesize LA. However, the ability to synthesize LA is known in only five insect orders and no examples have been reported so far in the Hymenoptera. LA plays a particular role in the parasitic wasp Nasonia vitripennis, because it is the precursor of the male sex pheromone consisting of (4R,5R)- and (4R,5S)-5-hydroxy-4-decanolides. Here we demonstrate by stable isotope labeling that N. vitripennis is able to incorporate externally applied fully (13)C-labeled OA into the male sex pheromone suggesting that they convert initially OA into LA. To verify this assumption, we produced fly hosts (Lucilia caesar) which were experimentally enriched in (13)C-labeled OA and reared male parasitoids on these hosts. Chemical analysis of transesterified lipid raw extracts from hosts and parasitoids revealed that N. vitripennis but not L. caesar contained (13)C-labeled LA methyl ester. Furthermore, male wasps from the manipulated hosts produced significant amounts of (13)C-labeled sex pheromone. These results suggest that N. vitripennis possesses a Δ(12)-desaturase. The additional fitness relevant function as pheromone precursor might have favored the evolution of LA biosynthesis in N. vitripennis to make the wasps independent of the formerly essential nutrient.
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- 2014
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33. Analysis of S. cerevisiae RNA Polymerase I Transcription In Vitro
- Author
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Joachim Griesenbeck, Philipp Merkl, Philipp Milkereit, Michael Pilsl, and Herbert Tschochner
- Subjects
0301 basic medicine ,General transcription factor ,biology ,Chemistry ,Termination factor ,RNA polymerase II ,Cell biology ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,biology.protein ,RNA polymerase I ,Transcription factor II F ,Transcription factor II D ,RNA polymerase II holoenzyme ,Transcription factor II B ,030217 neurology & neurosurgery - Abstract
RNA polymerase I (Pol I) activity is crucial to provide cells with sufficient amounts of ribosomal RNA (rRNA). Synthesis of rRNA takes place in the nucleolus, is tightly regulated and is coordinated with synthesis and assembly of ribosomal proteins, finally resulting in the formation of mature ribosomes. Many studies on Pol I mechanisms and regulation in the model organism S. cerevisiae were performed using either complex in vitro systems reconstituted from more or less purified fractions or genetic analyses. While providing many valuable insights these strategies did not always discriminate between direct and indirect effects in transcription initiation and termination, when mutated forms of Pol I subunits or transcription factors were investigated. Therefore, a well-defined minimal system was developed which allows to reconstitute highly efficient promoter-dependent Pol I initiation and termination of transcription. Transcription can be initiated at a minimal promoter only in the presence of recombinant core factor and extensively purified initiation competent Pol I. Addition of recombinant termination factors triggers transcriptional pausing and release of the ternary transcription complex. This minimal system represents a valuable tool to investigate the direct impact of (lethal) mutations in components of the initiation and termination complexes on the mechanism and regulation of rRNA synthesis.
- Published
- 2016
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- View/download PDF
34. The Reb1-homologue Ydr026c/Nsi1 is required for efficient RNA polymerase I termination in yeast
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Philipp Milkereit, Attila Németh, Joachim Griesenbeck, Olivier Gadal, Philipp Merkl, Stephan Hamperl, Alarich Reiter, Herbert Tschochner, Hannah Seitz, Lydia Williams, Jorge Perez-Fernandez, Jochen Gerber, and Isabelle Léger
- Subjects
General Immunology and Microbiology ,General transcription factor ,biology ,General Neuroscience ,Termination factor ,RNA polymerase II ,Molecular biology ,General Biochemistry, Genetics and Molecular Biology ,Cell biology ,Terminator (genetics) ,Transcription (biology) ,Antitermination ,RNA polymerase I ,biology.protein ,Molecular Biology ,RNA polymerase II holoenzyme - Abstract
Several DNA cis-elements and trans-acting factors were described to be involved in transcription termination and to release the elongating RNA polymerases from their templates. Different models for the molecular mechanism of transcription termination have been suggested for eukaryotic RNA polymerase I (Pol I) from results of in vitro and in vivo experiments. To analyse the molecular requirements for yeast RNA Pol I termination, an in vivo approach was used in which efficient termination resulted in growth inhibition. This led to the identification of a Myb-like protein, Ydr026c, as bona fide termination factor, now designated Nsi1 (NTS1 silencing protein 1), since it was very recently described as silencing factor of ribosomal DNA. Possible Nsi1 functions in regard to the mechanism of transcription termination are discussed.
- Published
- 2012
- Full Text
- View/download PDF
35. Binding of the Termination Factor Nsi1 to Its Cognate DNA Site Is Sufficient To Terminate RNA Polymerase I Transcription In Vitro and To Induce Termination In Vivo
- Author
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Philipp Merkl, Jorge Perez-Fernandez, Philipp Milkereit, Jochen Gerber, Maria Böhm, Alarich Reiter, Joachim Griesenbeck, Rainer Deutzmann, Michael Pilsl, Lydia Williams, and Herbert Tschochner
- Subjects
Binding Sites ,Saccharomyces cerevisiae Proteins ,biology ,General transcription factor ,Base Sequence ,DNA polymerase ,Termination factor ,RNA polymerase II ,Cell Biology ,Articles ,Saccharomyces cerevisiae ,Molecular biology ,DNA binding site ,DNA-Binding Proteins ,Terminator (genetics) ,RNA Polymerase I ,Antitermination ,Transcription Termination, Genetic ,biology.protein ,DNA, Fungal ,Promoter Regions, Genetic ,Molecular Biology ,Transcription bubble ,Protein Binding - Abstract
Different models have been proposed explaining how eukaryotic gene transcription is terminated. Recently, Nsi1, a factor involved in silencing of ribosomal DNA (rDNA), was shown to be required for efficient termination of rDNA transcription by RNA polymerase I (Pol I) in the yeast Saccharomyces cerevisiae. Nsi1 contains Myb-like DNA binding domains and associates in vivo near the 3′ end of rRNA genes to rDNA, but information about which and how DNA sequences might influence Nsi1-dependent termination is lacking. Here, we show that binding of Nsi1 to a stretch of 11 nucleotides in the correct orientation was sufficient to pause elongating Pol I shortly upstream of the Nsi1 binding site and to release the transcripts in vitro. The same minimal DNA element triggered Nsi1-dependent termination of pre-rRNA synthesis using an in vivo reporter assay. Termination efficiency in the in vivo system could be enhanced by inclusion of specific DNA sequences downstream of the Nsi1 binding site. These data and the finding that Nsi1 blocks efficiently only Pol I-dependent RNA synthesis in an in vitro transcription system improve our understanding of a unique mechanism of transcription termination.
- Published
- 2014
36. RNA polymerase I termination: Where is the end?
- Author
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Jorge Perez-Fernandez, Jochen Gerber, Stephan Hamperl, Philipp Merkl, Joachim Griesenbeck, Attila Németh, and Herbert Tschochner
- Subjects
viruses ,Termination factor ,Biophysics ,Ternary Complex Factors ,Biology ,Biochemistry ,RNA polymerase III ,Structural Biology ,Transcription (biology) ,RNA Polymerase I ,Yeasts ,Genetics ,RNA polymerase I ,Transcriptional regulation ,RNA Precursors ,Animals ,Humans ,RRNA processing ,Molecular Biology ,RNA ,Processivity ,Cell biology ,RNA, Ribosomal ,Transcription Termination, Genetic ,Pol1 Transcription Initiation Complex Proteins - Abstract
The synthesis of ribosomal RNA (rRNA) precursor molecules by RNA polymerase I (Pol I) terminates with the dissociation of the protein-DNA-RNA ternary complex. Based on in vitro results the mechanism of Pol I termination appeared initially to be rather conserved and simple until this process was more thoroughly re-investigated in vivo. A picture emerged that Pol I termination seems to be connected to co-transcriptional processing, re-initiation of transcription and, possibly, other processes downstream of Pol I transcription units. In this article, our current understanding of the mechanism of Pol I termination and how this process might be implicated in other biological processes in yeast and mammals is summarized and discussed. This article is part of a Special Issue entitled: Transcription by Odd Pols.
- Published
- 2012
37. The Reb1-homologue Ydr026c/Nsi1 is required for efficient RNA polymerase I termination in yeast
- Author
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Alarich, Reiter, Stephan, Hamperl, Hannah, Seitz, Philipp, Merkl, Jorge, Perez-Fernandez, Lydia, Williams, Jochen, Gerber, Attila, Németh, Isabelle, Léger, Olivier, Gadal, Philipp, Milkereit, Joachim, Griesenbeck, and Herbert, Tschochner
- Subjects
DNA-Binding Proteins ,Saccharomyces cerevisiae Proteins ,Sequence Homology, Amino Acid ,Transcription, Genetic ,RNA Polymerase I ,Molecular Sequence Data ,Amino Acid Sequence ,Saccharomyces cerevisiae ,Article - Abstract
Several DNA cis-elements and trans-acting factors were described to be involved in transcription termination and to release the elongating RNA polymerases from their templates. Different models for the molecular mechanism of transcription termination have been suggested for eukaryotic RNA polymerase I (Pol I) from results of in vitro and in vivo experiments. To analyse the molecular requirements for yeast RNA Pol I termination, an in vivo approach was used in which efficient termination resulted in growth inhibition. This led to the identification of a Myb-like protein, Ydr026c, as bona fide termination factor, now designated Nsi1 (NTS1 silencing protein 1), since it was very recently described as silencing factor of ribosomal DNA. Possible Nsi1 functions in regard to the mechanism of transcription termination are discussed.
- Published
- 2012
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