Your search keyword '"Zsolt Balazs"' showing total 22 results

1. When career-boosting is on the line: Equity and inequality in grant evaluation, productivity, and the educational backgrounds of Marie Skłodowska-Curie Actions individual fellows in social sciences and humanities

Author

Tóth, Tamás, Demeter, Márton, Csuhai, Sándor, and Major, Zsolt Balázs

Published

2024

2. Supplementary Data from ROS Induction Targets Persister Cancer Cells with Low Metabolic Activity in NRAS-Mutated Melanoma

Author

Mitchell P. Levesque, Reinhard Dummer, Berend Snijder, Martin Distel, Thorsten Hornemann, Stuart L. Schreiber, Michael Krauthammer, Andreas Dzung, Annalisa Saltari, Andrea Aloia, Judith Wenzina, Vasanthi S. Viswanathan, Alaa Othman, Julien Mena, Rebekka Wegmann, Pål Johansen, Susana Pascoal, Aizhan Tastanova, Zsolt Balazs, Anja Irmisch, Nicola Zamboni, Andrea Bileck, Alexander Leitner, Phil F. Cheng, Verena Paulitschke, Nina Zila, Gergely Karsai, Patrick Turko, Luzia Briker, Jan Käsler, Corinne I. Stoffel, and Ossia M. Eichhoff

Abstract

Tumor Profiler Consortium author list

Published

2023

3. Table ST5 from ROS Induction Targets Persister Cancer Cells with Low Metabolic Activity in NRAS-Mutated Melanoma

Author

Mitchell P. Levesque, Reinhard Dummer, Berend Snijder, Martin Distel, Thorsten Hornemann, Stuart L. Schreiber, Michael Krauthammer, Andreas Dzung, Annalisa Saltari, Andrea Aloia, Judith Wenzina, Vasanthi S. Viswanathan, Alaa Othman, Julien Mena, Rebekka Wegmann, Pål Johansen, Susana Pascoal, Aizhan Tastanova, Zsolt Balazs, Anja Irmisch, Nicola Zamboni, Andrea Bileck, Alexander Leitner, Phil F. Cheng, Verena Paulitschke, Nina Zila, Gergely Karsai, Patrick Turko, Luzia Briker, Jan Käsler, Corinne I. Stoffel, and Ossia M. Eichhoff

Abstract

Table ST5: Table of the 15 most informative proteins upregulated in MEK inhibitor-resistant cell culture (ranked by log2 fold-change).

Published

2023

4. Suppl. Figure S13 from ROS Induction Targets Persister Cancer Cells with Low Metabolic Activity in NRAS-Mutated Melanoma

Author

Mitchell P. Levesque, Reinhard Dummer, Berend Snijder, Martin Distel, Thorsten Hornemann, Stuart L. Schreiber, Michael Krauthammer, Andreas Dzung, Annalisa Saltari, Andrea Aloia, Judith Wenzina, Vasanthi S. Viswanathan, Alaa Othman, Julien Mena, Rebekka Wegmann, Pål Johansen, Susana Pascoal, Aizhan Tastanova, Zsolt Balazs, Anja Irmisch, Nicola Zamboni, Andrea Bileck, Alexander Leitner, Phil F. Cheng, Verena Paulitschke, Nina Zila, Gergely Karsai, Patrick Turko, Luzia Briker, Jan Käsler, Corinne I. Stoffel, and Ossia M. Eichhoff

Abstract

S13: Immunohistochemical analysis of CyTof biomarker panel.

Published

2023

5. Suppl.Figure S16 from ROS Induction Targets Persister Cancer Cells with Low Metabolic Activity in NRAS-Mutated Melanoma

Author

Mitchell P. Levesque, Reinhard Dummer, Berend Snijder, Martin Distel, Thorsten Hornemann, Stuart L. Schreiber, Michael Krauthammer, Andreas Dzung, Annalisa Saltari, Andrea Aloia, Judith Wenzina, Vasanthi S. Viswanathan, Alaa Othman, Julien Mena, Rebekka Wegmann, Pål Johansen, Susana Pascoal, Aizhan Tastanova, Zsolt Balazs, Anja Irmisch, Nicola Zamboni, Andrea Bileck, Alexander Leitner, Phil F. Cheng, Verena Paulitschke, Nina Zila, Gergely Karsai, Patrick Turko, Luzia Briker, Jan Käsler, Corinne I. Stoffel, and Ossia M. Eichhoff

Abstract

S16: scRNA-sequencing analysis of xenograft tumors M130227

Published

2023

6. Data from ROS Induction Targets Persister Cancer Cells with Low Metabolic Activity in NRAS-Mutated Melanoma

Author

Mitchell P. Levesque, Reinhard Dummer, Berend Snijder, Martin Distel, Thorsten Hornemann, Stuart L. Schreiber, Michael Krauthammer, Andreas Dzung, Annalisa Saltari, Andrea Aloia, Judith Wenzina, Vasanthi S. Viswanathan, Alaa Othman, Julien Mena, Rebekka Wegmann, Pål Johansen, Susana Pascoal, Aizhan Tastanova, Zsolt Balazs, Anja Irmisch, Nicola Zamboni, Andrea Bileck, Alexander Leitner, Phil F. Cheng, Verena Paulitschke, Nina Zila, Gergely Karsai, Patrick Turko, Luzia Briker, Jan Käsler, Corinne I. Stoffel, and Ossia M. Eichhoff

Abstract

Clinical management of melanomas with NRAS mutations is challenging. Targeting MAPK signaling is only beneficial to a small subset of patients due to resistance that arises through genetic, transcriptional, and metabolic adaptation. Identification of targetable vulnerabilities in NRAS-mutated melanoma could help improve patient treatment. Here, we used multiomics analyses to reveal that NRAS-mutated melanoma cells adopt a mesenchymal phenotype with a quiescent metabolic program to resist cellular stress induced by MEK inhibition. The metabolic alterations elevated baseline reactive oxygen species (ROS) levels, leading these cells to become highly sensitive to ROS induction. In vivo xenograft experiments and single-cell RNA sequencing demonstrated that intratumor heterogeneity necessitates the combination of a ROS inducer and a MEK inhibitor to inhibit both tumor growth and metastasis. Ex vivo pharmacoscopy of 62 human metastatic melanomas confirmed that MEK inhibitor–resistant tumors significantly benefited from the combination therapy. Finally, oxidative stress response and translational suppression corresponded with ROS-inducer sensitivity in 486 cancer cell lines, independent of cancer type. These findings link transcriptional plasticity to a metabolic phenotype that can be inhibited by ROS inducers in melanoma and other cancers.Significance:Metabolic reprogramming in drug-resistant NRAS-mutated melanoma cells confers sensitivity to ROS induction, which suppresses tumor growth and metastasis in combination with MAPK pathway inhibitors.

Published

2023

7. Memory Th1 cells modulate heterologous diseases through innate function

Author

Nikolas Rakebrandt, Nima Yassini, Anna Kolz, Michelle Schorer, Katharina Lambert, Celine Rauld, Zsolt Balazs, Michael Krauthammer, José M. Carballido, Anneli Peters, and Nicole Joller

Abstract

Through immune memory, infections have a lasting effect on the host. While memory cells enable accelerated and enhanced responses upon re-challenge with the same pathogen, their impact on susceptibility to unrelated diseases is unclear. We identify a subset of memory T helper 1 (Th1) cells termed innate acting memory T (TIA) cells that originate from a viral infection and produce IFN-γ with innate kinetics upon heterologous challengein vivo. Activation of memory TIAcells is induced in response to IL-12 in combination with IL-18 or IL-33 but is TCR-independent. Rapid IFN-γ production by memory TIAcells is protective in subsequent heterologous challenge with the bacterial pathogenLegionella pneumophila. In contrast, antigen-independent re-activation of CD4+memory TIAcells accelerates disease onset in an autoimmune model of multiple sclerosis. Our findings demonstrate that memory Th1 cells can acquire additional TCR-independent functionality to mount rapid, innate-like responses that modulate susceptibility to heterologous challenges.

Published

2023

8. Live slow-frozen human tumor tissues viable for 2D, 3D, ex vivo cultures and single-cell RNAseq

Author

Gaetana Restivo, Aizhan Tastanova, Zsolt Balázs, Federica Panebianco, Maren Diepenbruck, Caner Ercan, Bodgan-T. Preca, Jürg Hafner, Walter P. Weber, Christian Kurzeder, Marcus Vetter, Simone Münst Soysal, Christian Beisel, Mohamed Bentires-Alj, Salvatore Piscuoglio, Michael Krauthammer, and Mitchell P. Levesque

Subjects

Biology (General), QH301-705.5

Abstract

Fresh vs. slow-frozen tissues from various malignancies are compared for the establishment of 2D, 3D and ex vivo cultures, as well as for scRNAseq analysis, and found to be comparable and suitable for cancer research.

Published

2022

9. Population genetics of PDE4B (phosphodiesterase‐4B) in neglected Native Americans: Implications for cancer pharmacogenetics

Author

Rennan Garcias Moreira, Julia Maria Saraiva‐Duarte, Alexandre Costa Pereira, Martha Sosa‐Macias, Carlos Galaviz‐Hernandez, Meddly Lesley Santolalla, Wagner C. S. Magalhães, Camila Zolini, Thiago Peixoto Leal, Zsolt Balázs, Adrián Llerena, Robert H. Gilman, José Geraldo Mill, Victor Borda, Heinner Guio, Timothy D. O’Connor, Eduardo Tarazona‐Santos, and Fernanda Rodrigues‐Soares

Subjects

Therapeutics. Pharmacology, RM1-950, Public aspects of medicine, RA1-1270

Abstract

Abstract PDE4B (phosphodiesterase‐4B) has an important role in cancer and in pharmacology of some disorders, such as inflammatory diseases. Remarkably in Native Americans, PDE4B variants are associated with acute lymphoblastic leukemia (ALL) relapse, as this gene modulates sensitivity of glucocorticoids used in ALL chemotherapy. PDE4B allele rs6683977.G, associated with genomic regions of Native American origin in US‐Hispanics (admixed among Native Americans, Europeans, and Africans), increases ALL relapse risk, contributing to an association between Native American ancestry and ALL relapse that disappeared with an extra‐phase of chemotherapy. This result insinuates that indigenous populations along the Americas may have high frequencies of rs6683977.G, but this has never been corroborated. We studied ancestry and PDE4B diversity in 951 healthy individuals from nine Latin American populations. In non‐admixed Native American populations rs6683977.G has frequencies greater than 90%, is in linkage disequilibrium with other ALL relapse associated and regulatory variants in PDE4B‐intron‐7, conforming haplotypes showing their highest worldwide frequencies in Native Americans (>0.82). Our findings inform the discussion on the pertinence of an extra‐phase of chemotherapy in Native American populations, and exemplifies how knowledge generated in US‐Hispanics is relevant for their even more neglected and vulnerable Native American ancestors along the American continent.

Published

2022

10. Comparative Evaluation of the Repair Bond Strength of Dental Resin Composite after Sodium Bicarbonate or Aluminum Oxide Air-Abrasion

Author

Kinga Dorottya Németh, Roland Told, Péter Szabó, Péter Maróti, Réka Szénai, Zsolt Balázs Pintér, Bálint Viktor Lovász, József Szalma, and Edina Lempel

Subjects

resin composite, repair bond strength, aluminum oxide, sodium bicarbonate, dental adhesive, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The dental prophylactic cleaning of a damaged resin-based composite (RBC) restoration with sodium bicarbonate can change the surface characteristics and influence the repair bond strength. The purpose of this study was to compare the effect of sodium bicarbonate (SB) and aluminum oxide (AO) surface treatments on the microtensile bond strength (µTBS) of repaired, aged RBC. Bar specimens were prepared from microhybrid RBC and aged in deionized water for 8 weeks. Different surface treatments (AO air-abrasion; SB air-polishing), as well as cleaning (phosphoric acid, PA; ethylene-diamine-tetraacetic-acid, EDTA) and adhesive applications (single bottle etch-and-rinse, ER; universal adhesive, UA), were used prior to the application of the repair RBC. Not aged and aged but not surface treated RBCs were used as positive and negative controls, respectively. The repaired blocks were cut into sticks using a precision grinding machine. The specimens were tested for tensile fracture and the µTBS values were calculated. Surface characteristics were assessed using scanning electron microscopy. AO-PA-UA (62.6 MPa) showed a 20% increase in µTBS compared to the NC (50.2 MPa), which proved to be the most significant. This was followed by SB-EDTA-UA (58.9 MPa) with an increase of 15%. In addition to AO-PA-UA, SB-EDTA-UA could also be a viable alternative in the RBC repair protocol.

Published

2023

11. Combined nanopore and single-molecule real-time sequencing survey of human betaherpesvirus 5 transcriptome

Author

Balázs Kakuk, Dóra Tombácz, Zsolt Balázs, Norbert Moldován, Zsolt Csabai, Gábor Torma, Klára Megyeri, Michael Snyder, and Zsolt Boldogkői

Subjects

Medicine, Science

Abstract

Abstract Long-read sequencing (LRS), a powerful novel approach, is able to read full-length transcripts and confers a major advantage over the earlier gold standard short-read sequencing in the efficiency of identifying for example polycistronic transcripts and transcript isoforms, including transcript length- and splice variants. In this work, we profile the human cytomegalovirus transcriptome using two third-generation LRS platforms: the Sequel from Pacific BioSciences, and MinION from Oxford Nanopore Technologies. We carried out both cDNA and direct RNA sequencing, and applied the LoRTIA software, developed in our laboratory, for the transcript annotations. This study identified a large number of novel transcript variants, including splice isoforms and transcript start and end site isoforms, as well as putative mRNAs with truncated in-frame ORFs (located within the larger ORFs of the canonical mRNAs), which potentially encode N-terminally truncated polypeptides. Our work also disclosed a highly complex meshwork of transcriptional read-throughs and overlaps.

Published

2021

12. Time-course transcriptome analysis of host cell response to poxvirus infection using a dual long-read sequencing approach

Author

Zoltán Maróti, Dóra Tombácz, István Prazsák, Norbert Moldován, Zsolt Csabai, Gábor Torma, Zsolt Balázs, Tibor Kalmár, Béla Dénes, Michael Snyder, and Zsolt Boldogkői

Subjects

Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective In this study, we applied two long-read sequencing (LRS) approaches, including single-molecule real-time and nanopore-based sequencing methods to investigate the time-lapse transcriptome patterns of host gene expression as a response to Vaccinia virus infection. Transcriptomes determined using short-read sequencing approaches are incomplete because these platforms are inefficient or fail to distinguish between polycistronic RNAs, transcript isoforms, transcriptional start sites, as well as transcriptional readthroughs and overlaps. Long-read sequencing is able to read full-length nucleic acids and can therefore be used to assemble complete transcriptome atlases. Results In this work, we identified a number of novel transcripts and transcript isoforms of Chlorocebus sabaeus. Additionally, analysis of the most abundant 768 host transcripts revealed a significant overrepresentation of the class of genes in the “regulation of signaling receptor activity” Gene Ontology annotation as a result of viral infection.

Published

2021

13. Collection and preprocessing of fine needle aspirate patient samples for single cell profiling and data analysis

Author

Aizhan Tastanova, Egle Ramelyte, Zsolt Balázs, Ulrike Menzel, Christian Beisel, Michael Krauthammer, Reinhard Dummer, and Mitchell Paul Levesque

Subjects

Bioinformatics, Cell isolation, Single Cell, Clinical Protocol, RNAseq, Science (General), Q1-390

Abstract

Summary: High cell viability and recovered cell concentration are typical quality control requirements for single-cell processing and quality data. This protocol describes procedures for sampling, live-cell biobanking, preprocessing for single-cell RNA sequencing, and analysis of fine-needle aspiration (FNA) samples of the skin. The minimally invasive nature of FNA collection is more accepted by patients and allows for frequent longitudinal sampling, resulting in high-quality single-cell sequencing data that capture cellular heterogeneity in clinical samples.

Published

2021

14. Template-switching artifacts resemble alternative polyadenylation

Author

Zsolt Balázs, Dóra Tombácz, Zsolt Csabai, Norbert Moldován, Michael Snyder, and Zsolt Boldogkői

Subjects

Template switching, Polyadenylation, RNA sequencing, Long-read sequencing, Direct RNA sequencing, Internal priming, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Alternative polyadenylation is commonly examined using cDNA sequencing, which is known to be affected by template-switching artifacts. However, the effects of such template-switching artifacts on alternative polyadenylation are generally disregarded, while alternative polyadenylation artifacts are attributed to internal priming. Results Here, we analyzed both long-read cDNA sequencing and direct RNA sequencing data of two organisms, generated by different sequencing platforms. We developed a filtering algorithm which takes into consideration that template-switching can be a source of artifactual polyadenylation when filtering out spurious polyadenylation sites. The algorithm outperformed the conventional internal priming filters based on comparison to direct RNA sequencing data. We also showed that the polyadenylation artifacts arise in cDNA sequencing at consecutive stretches of as few as three adenines. There was no substantial difference between the lengths of poly(A) tails at the artifactual and the true transcriptional end sites even though it is expected that internal priming artifacts have shorter poly(A) tails than genuine polyadenylated reads. Conclusions Our findings suggest that template switching plays an important role in the generation of spurious polyadenylation and support the need for more rigorous filtering of artifactual polyadenylation sites in cDNA data, or that alternative polyadenylation should be annotated using native RNA sequencing.

Published

2019

15. Long-read sequencing uncovers a complex transcriptome topology in varicella zoster virus

Author

István Prazsák, Norbert Moldován, Zsolt Balázs, Dóra Tombácz, Klára Megyeri, Attila Szűcs, Zsolt Csabai, and Zsolt Boldogkői

Subjects

Herpesvirus, Varicella zoster virus, Transcriptome, Oxford Nanopore Technologies, Long-read sequencing, RNA editing, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Varicella zoster virus (VZV) is a human pathogenic alphaherpesvirus harboring a relatively large DNA molecule. The VZV transcriptome has already been analyzed by microarray and short-read sequencing analyses. However, both approaches have substantial limitations when used for structural characterization of transcript isoforms, even if supplemented with primer extension or other techniques. Among others, they are inefficient in distinguishing between embedded RNA molecules, transcript isoforms, including splice and length variants, as well as between alternative polycistronic transcripts. It has been demonstrated in several studies that long-read sequencing is able to circumvent these problems. Results In this work, we report the analysis of the VZV lytic transcriptome using the Oxford Nanopore Technologies sequencing platform. These investigations have led to the identification of 114 novel transcripts, including mRNAs, non-coding RNAs, polycistronic RNAs and complex transcripts, as well as 10 novel spliced transcripts and 25 novel transcription start site isoforms and transcription end site isoforms. A novel class of transcripts, the nroRNAs are described in this study. These transcripts are encoded by the genomic region located in close vicinity to the viral replication origin. We also show that the ORF63 exhibits a complex structural variation encompassing the splice sites of VZV latency transcripts. Additionally, we have detected RNA editing in a novel non-coding RNA molecule. Conclusions Our investigations disclosed a composite transcriptomic architecture of VZV, including the discovery of novel RNA molecules and transcript isoforms, as well as a complex meshwork of transcriptional read-throughs and overlaps. The results represent a substantial advance in the annotation of the VZV transcriptome and in understanding the molecular biology of the herpesviruses in general.

Published

2018

16. Time-Course Transcriptome Profiling of a Poxvirus Using Long-Read Full-Length Assay

Author

Dóra Tombácz, István Prazsák, Gábor Torma, Zsolt Csabai, Zsolt Balázs, Norbert Moldován, Béla Dénes, Michael Snyder, and Zsolt Boldogkői

Subjects

vaccinia virus, long-read sequencing, nanopore sequencing, transcriptome profiling, gene expression, Medicine

Abstract

Viral transcriptomes that are determined using first- and second-generation sequencing techniques are incomplete. Due to the short read length, these methods are inefficient or fail to distinguish between transcript isoforms, polycistronic RNAs, and transcriptional overlaps and readthroughs. Additionally, these approaches are insensitive for the identification of splice and transcriptional start sites (TSSs) and, in most cases, transcriptional end sites (TESs), especially in transcript isoforms with varying transcript ends, and in multi-spliced transcripts. Long-read sequencing is able to read full-length nucleic acids and can therefore be used to assemble complete transcriptome atlases. Although vaccinia virus (VACV) does not produce spliced RNAs, its transcriptome has a high diversity of TSSs and TESs, and a high degree of polycistronism that leads to enormous complexity. We applied single-molecule, real-time, and nanopore-based sequencing methods to investigate the time-lapse transcriptome patterns of VACV gene expression.

Published

2021

17. High-Coverage Whole-Exome Sequencing Identifies Candidate Genes for Suicide in Victims with Major Depressive Disorder

Author

Dóra Tombácz, Zoltán Maróti, Tibor Kalmár, Zsolt Csabai, Zsolt Balázs, Shinichi Takahashi, Miklós Palkovits, Michael Snyder, and Zsolt Boldogkői

Subjects

Medicine, Science

Abstract

Abstract We carried out whole-exome ultra-high throughput sequencing in brain samples of suicide victims who had suffered from major depressive disorder and control subjects who had died from other causes. This study aimed to reveal the selective accumulation of rare variants in the coding and the UTR sequences within the genes of suicide victims. We also analysed the potential effect of STR and CNV variations, as well as the infection of the brain with neurovirulent viruses in this behavioural disorder. As a result, we have identified several candidate genes, among others three calcium channel genes that may potentially contribute to completed suicide. We also explored the potential implication of the TGF-β signalling pathway in the pathogenesis of suicidal behaviour. To our best knowledge, this is the first study that uses whole-exome sequencing for the investigation of suicide.

Published

2017

18. Multiple Long-Read Sequencing Survey of Herpes Simplex Virus Dynamic Transcriptome

Author

Dóra Tombácz, Norbert Moldován, Zsolt Balázs, Gábor Gulyás, Zsolt Csabai, Miklós Boldogkői, Michael Snyder, and Zsolt Boldogkői

Subjects

herpesviruses, herpes simplex virus, long-read sequencing, direct RNA sequencing, Pacific Biosciences, Oxford Nanopore Technologies, Genetics, QH426-470

Abstract

Long-read sequencing (LRS) has become increasingly important in RNA research due to its strength in resolving complex transcriptomic architectures. In this regard, currently two LRS platforms have demonstrated adequate performance: the Single Molecule Real-Time Sequencing by Pacific Biosciences (PacBio) and the nanopore sequencing by Oxford Nanopore Technologies (ONT). Even though these techniques produce lower coverage and are more error prone than short-read sequencing, they continue to be more successful in identifying polycistronic RNAs, transcript isoforms including splice and transcript end variants, as well as transcript overlaps. Recent reports have successfully applied LRS for the investigation of the transcriptome of viruses belonging to various families. These studies have substantially increased the number of previously known viral RNA molecules. In this work, we used the Sequel and MinION technique from PacBio and ONT, respectively, to characterize the lytic transcriptome of the herpes simplex virus type 1 (HSV-1). In most samples, we analyzed the poly(A) fraction of the transcriptome, but we also performed random oligonucleotide-based sequencing. Besides cDNA sequencing, we also carried out native RNA sequencing. Our investigations identified more than 2,300 previously undetected transcripts, including coding, and non-coding RNAs, multi-splice transcripts, as well as polycistronic and complex transcripts. Furthermore, we found previously unsubstantiated transcriptional start sites, polyadenylation sites, and splice sites. A large number of novel transcriptional overlaps were also detected. Random-primed sequencing revealed that each convergent gene pair produces non-polyadenylated read-through RNAs overlapping the partner genes. Furthermore, we identified novel replication-associated transcripts overlapping the HSV-1 replication origins, and novel LAT variants with very long 5’ regions, which are co-terminal with the LAT-0.7kb transcript. Overall, our results demonstrated that the HSV-1 transcripts form an extremely complex pattern of overlaps, and that entire viral genome is transcriptionally active. In most viral genes, if not in all, both DNA strands are expressed.

Published

2019

19. Dual Platform Long-Read RNA-Sequencing Dataset of the Human Cytomegalovirus Lytic Transcriptome

Author

Zsolt Balázs, Dóra Tombácz, Attila Szűcs, Michael Snyder, and Zsolt Boldogkői

Subjects

human cytomegalovirus, transcriptome, long-read sequencing, nanopore sequencing, CapSeq, Iso-Seq, Genetics, QH426-470

Published

2018

20. Long-Read Sequencing Revealed an Extensive Transcript Complexity in Herpesviruses

Author

Dóra Tombácz, Zsolt Balázs, Zsolt Csabai, Michael Snyder, and Zsolt Boldogkői

Subjects

herpesvirus, transcriptome, long-read sequencing, PacBio sequencing, Oxford Nanopore Technologies, transcript isoforms, Genetics, QH426-470

Abstract

Long-read sequencing (LRS) techniques are very recent advancements, but they have already been used for transcriptome research in all of the three subfamilies of herpesviruses. These techniques have multiplied the number of known transcripts in each of the examined viruses. Meanwhile, they have revealed a so far hidden complexity of the herpesvirus transcriptome with the discovery of a large number of novel RNA molecules, including coding and non-coding RNAs, as well as transcript isoforms, and polycistronic RNAs. Additionally, LRS techniques have uncovered an intricate meshwork of transcriptional overlaps between adjacent and distally located genes. Here, we review the contribution of LRS to herpesvirus transcriptomics and present the complexity revealed by this technology, while also discussing the functional significance of this phenomenon.

Published

2018

21. Long-Read Isoform Sequencing Reveals a Hidden Complexity of the Transcriptional Landscape of Herpes Simplex Virus Type 1

Author

Dóra Tombácz, Zsolt Csabai, Attila Szűcs, Zsolt Balázs, Norbert Moldován, Donald Sharon, Michael Snyder, and Zsolt Boldogkői

Subjects

human herpesvirus 1, herpes simplex virus type 1, transcriptome, transcriptional interference, full-length sequencing, long-read sequencing, Microbiology, QR1-502

Abstract

In this study, we used the amplified isoform sequencing technique from Pacific Biosciences to characterize the poly(A)+ fraction of the lytic transcriptome of the herpes simplex virus type 1 (HSV-1). Our analysis detected 34 formerly unidentified protein-coding genes, 10 non-coding RNAs, as well as 17 polycistronic and complex transcripts. This work also led us to identify many transcript isoforms, including 13 splice and 68 transcript end variants, as well as several transcript overlaps. Additionally, we determined previously unascertained transcriptional start and polyadenylation sites. We analyzed the transcriptional activity from the complementary DNA strand in five convergent HSV gene pairs with quantitative RT-PCR and detected antisense RNAs in each gene. This part of the study revealed an inverse correlation between the expressions of convergent partners. Our work adds new insights for understanding the complexity of the pervasive transcriptional overlaps by suggesting that there is a crosstalk between adjacent and distal genes through interaction between their transcription apparatuses. We also identified transcripts overlapping the HSV replication origins, which may indicate an interplay between the transcription and replication machineries. The relative abundance of HSV-1 transcripts has also been established by using a novel method based on the calculation of sequencing reads for the analysis.

Published

2017

22. Full-Length Isoform Sequencing Reveals Novel Transcripts and Substantial Transcriptional Overlaps in a Herpesvirus.

Author

Dóra Tombácz, Zsolt Csabai, Péter Oláh, Zsolt Balázs, István Likó, Laura Zsigmond, Donald Sharon, Michael Snyder, and Zsolt Boldogkői

Subjects

Medicine, Science

Abstract

Whole transcriptome studies have become essential for understanding the complexity of genetic regulation. However, the conventionally applied short-read sequencing platforms cannot be used to reliably distinguish between many transcript isoforms. The Pacific Biosciences (PacBio) RS II platform is capable of reading long nucleic acid stretches in a single sequencing run. The pseudorabies virus (PRV) is an excellent system to study herpesvirus gene expression and potential interactions between the transcriptional units. In this work, non-amplified and amplified isoform sequencing protocols were used to characterize the poly(A+) fraction of the lytic transcriptome of PRV, with the aim of a complete transcriptional annotation of the viral genes. The analyses revealed a previously unrecognized complexity of the PRV transcriptome including the discovery of novel protein-coding and non-coding genes, novel mono- and polycistronic transcription units, as well as extensive transcriptional overlaps between neighboring and distal genes. This study identified non-coding transcripts overlapping all three replication origins of the PRV, which might play a role in the control of DNA synthesis. We additionally established the relative expression levels of gene products. Our investigations revealed that the whole PRV genome is utilized for transcription, including both DNA strands in all coding and intergenic regions. The genome-wide occurrence of transcript overlaps suggests a crosstalk between genes through a network formed by interacting transcriptional machineries with a potential function in the control of gene expression.

Published

2016