Your search keyword '"Travin D"' showing total 11 results

1. Aging in birds

Author

Travin, D. Y. and Feniouk, B. A.

Published

2016

2. A full-body transcriptome and proteome resource for the European common carp

Author

Kolder, I. C. R. M., S. J. van der Plas-Duivesteijn, Tan, G., Wiegertjes, G. F., Forlenza, M., Guler, A. T., Travin, D. Y., Nakao, Miki, Moritomo, Tadaaki, Irnazarow, I., J. T. den Dunnen, Anvar, S. Y., Jansen, H. J., Dirks, R. P., Palmblad, M., Lenhard, B., Henkel, C. V., Spaink, H. P., Kolder, I. C. R. M., S. J. van der Plas-Duivesteijn, Tan, G., Wiegertjes, G. F., Forlenza, M., Guler, A. T., Travin, D. Y., Nakao, Miki, Moritomo, Tadaaki, Irnazarow, I., J. T. den Dunnen, Anvar, S. Y., Jansen, H. J., Dirks, R. P., Palmblad, M., Lenhard, B., Henkel, C. V., and Spaink, H. P.

Abstract

type:RESEARCH ARTICLE, [Background] / The common carp (Cyprinus carpio) is the oldest, most domesticated and one of the most cultured fish species for food consumption. Besides its economic importance, the common carp is also highly suitable for comparative physiological and disease studies in combination with the animal model zebrafish (Danio rerio). They are genetically closely related but offer complementary benefits for fundamental research, with the large body mass of common carp presenting possibilities for obtaining sufficient cell material for advanced transcriptome and proteome studies. / [Results] / Here we have used 19 different tissues from an F1 hybrid strain of the common carp to perform transcriptome analyses using RNA-Seq. For a subset of the tissues we also have performed deep proteomic studies. As a reference, we updated the European common carp genome assembly using low coverage Pacific Biosciences sequencing to permit high-quality gene annotation. These annotated gene lists were linked to zebrafish homologs, enabling direct comparisons with published datasets. Using clustering, we have identified sets of genes that are potential selective markers for various types of tissues. In addition, we provide a script for a schematic anatomical viewer for visualizing organ-specific expression data. / [Conclusions] / The identified transcriptome and proteome data for carp tissues represent a useful resource for further translational studies of tissue-specific markers for this economically important fish species that can lead to new markers for organ development. The similarity to zebrafish expression patterns confirms the value of common carp as a resource for studying tissue-specific expression in cyprinid fish. The availability of the annotated gene set of common carp will enable further research with both applied and fundamental purposes.

Published

2022

3. A full-body transcriptome and proteome resource for the European common carp

Author

Kolder, I. C. R. M., primary, van der Plas-Duivesteijn, S. J., additional, Tan, G., additional, Wiegertjes, G. F., additional, Forlenza, M., additional, Guler, A. T., additional, Travin, D. Y., additional, Nakao, M., additional, Moritomo, T., additional, Irnazarow, I., additional, den Dunnen, J. T., additional, Anvar, S. Y., additional, Jansen, H. J., additional, Dirks, R. P., additional, Palmblad, M., additional, Lenhard, B., additional, Henkel, C. V., additional, and Spaink, H. P., additional

Published

2016

4. IBCAO and IBCSO: Particular Importance of digital Bathymetry in Polar Regions

Author

Ott, Norbert, Schenke, Hans-Werner, Jakobsson, M., Macnab, R., and Travin, D.

Abstract

Portraying the seafloor topography is of great importance for many applications in geosciences, physical sciences and life sciences. Applications imply studies of geological seabed processes, ocean modeling, benthic habitat mapping and interactions of the solid earth with water, ice and air. But bathymetric mapping remains incomplete in the Arctic and Southern Oceans. To improve the knowledge about the seafloor topography two international initiatives are collecting and assembling bathymetric data for the production of bathymetric charts in polar regions. The International Bathymetric Chart of the Arctic Ocean (IBCAO) started in 1997. The first version was published in 2001; an updated second version is currently in press. The International Bathymetric Chart of the Southern Ocean (IBCSO) started late 2006; a first map is in progress and scheduled spring 2009. IBCAO and IBCSO are the first International Bathymetric Charts of the Intergovernmental Oceanographic Commission implemented in Geographic Information Systems (GIS). Based on regular grids with depth values, digital terrain models can be manipulated in a variety of computational processes. Additionally, consequent use of digital data speeds up data exchange, data modeling and publication of results, comprising cartographic charts and digital maps. Important byproducts are consistent bathymetric databases, related metainformation, and efficient working groups.

Published

2008

5. Marine Scientific Expeditions during IPY: Opportunities for Upgrading Bathymetric Maps of the Arctic and Southern Oceans

Author

Macnab, R., Jakobsson, M., Ott, Norbert, Schenke, Hans-Werner, and Travin, D.

Abstract

Bathymetric mapping remains incomplete in the Arctic and Southern Oceans. Some proposed International Polar Year activities could help improve the situation by collecting new soundings during vessel transits to and from their operating areas, and by making their observations available for inclusion in existing international databases.

Published

2007

6. Studies of Microcutting Kinematics on Designing Grinding Heads to Form the Sealing Surfaces on the Parts of Pipe Fitting

Author

Gaysin, S N, primary, Tsvik, L B, additional, Mukhin, S V, additional, and Travin, D V, additional

Published

2011

7. Application of mobile grinding-and-lapping machines in the process of sealing surfaces restore for the elements of pipe fittings

Author

Gaisin, S N, primary, Balakirev, V A, additional, and Travin, D V, additional

Published

2010

8. A Broad Spectrum Lasso Peptide Antibiotic Targeting the Bacterial Ribosome.

Author

Wright G, Jangra M, Travin D, Aleksandrova E, Kaur M, Darwish L, Koteva K, Klepacki D, Wang W, Tiffany M, Sokaribo A, Coombes B, Vázquez-Laslop N, Polikanov Y, and Mankin A

Abstract

Lasso peptides, biologically active molecules with a distinct structurally constrained knotted fold, are natural products belonging to the class of ribosomally-synthesized and posttranslationally modified peptides (RiPPs). Lasso peptides act upon several bacterial targets, but none have been reported to inhibit the ribosome, one of the main antibiotic targets in the bacterial cell. Here, we report the identification and characterization of the lasso peptide antibiotic, lariocidin (LAR), and its internally cyclized derivative, lariocidin B (LAR-B), produced by Paenabacillussp . M2, with broad-spectrum activity against many bacterial pathogens. We show that lariocidins inhibit bacterial growth by binding to the ribosome and interfering with protein synthesis. Structural, genetic, and biochemical data show that lariocidins bind at a unique site in the small ribosomal subunit, where they interact with the 16S rRNA and aminoacyl-tRNA, inhibiting translocation and inducing miscoding. LAR is unaffected by common resistance mechanisms, has a low propensity for generating spontaneous resistance, shows no human cell toxicity, and has potent in vivo activity in a mouse model of Acinetobacter baumannii infection. Our finding of the first ribosome-targeting lasso peptides uncovers new routes toward discovering alternative protein synthesis inhibitors and offers a new chemical scaffold for developing much-needed antibacterial drugs., Competing Interests: COMPETING INTERESTS STATEMENT The authors declare no competing interests.

Published

2024

9. Interaction between transcribing RNA polymerase and topoisomerase I prevents R-loop formation in E. coli.

Author

Sutormin D, Galivondzhyan A, Musharova O, Travin D, Rusanova A, Obraztsova K, Borukhov S, and Severinov K

Subjects

DNA Topoisomerases, Type I metabolism, DNA-Directed RNA Polymerases metabolism, R-Loop Structures, Transcription, Genetic, Escherichia coli, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism

Abstract

Bacterial topoisomerase I (TopoI) removes excessive negative supercoiling and is thought to relax DNA molecules during transcription, replication and other processes. Using ChIP-Seq, we show that TopoI of Escherichia coli (EcTopoI) is colocalized, genome-wide, with transcribing RNA polymerase (RNAP). Treatment with transcription elongation inhibitor rifampicin leads to EcTopoI relocation to promoter regions, where RNAP also accumulates. When a 14 kDa RNAP-binding EcTopoI C-terminal domain (CTD) is overexpressed, colocalization of EcTopoI and RNAP along the transcription units is reduced. Pull-down experiments directly show that the two enzymes interact in vivo. Using ChIP-Seq and Topo-Seq, we demonstrate that EcTopoI is enriched upstream (within up to 12-15 kb) of highly-active transcription units, indicating that EcTopoI relaxes negative supercoiling generated by transcription. Uncoupling of the RNAP:EcTopoI interaction by either overexpression of EcTopoI competitor (CTD or inactive EcTopoI Y319F mutant) or deletion of EcTopoI domains involved in the interaction is toxic for cells and leads to excessive negative plasmid supercoiling. Moreover, uncoupling of the RNAP:EcTopoI interaction leads to R-loops accumulation genome-wide, indicating that this interaction is required for prevention of R-loops formation., (© 2022. The Author(s).)

Published

2022

10. Sinorhizobium meliloti Functions Required for Resistance to Antimicrobial NCR Peptides and Bacteroid Differentiation.

Author

Nicoud Q, Barrière Q, Busset N, Dendene S, Travin D, Bourge M, Le Bars R, Boulogne C, Lecroël M, Jenei S, Kereszt A, Kondorosi E, Biondi EG, Timchenko T, Alunni B, and Mergaert P

Subjects

Antimicrobial Peptides genetics, Medicago truncatula microbiology, Nitrogen Fixation, Root Nodules, Plant microbiology, Sinorhizobium meliloti genetics, Symbiosis, Antimicrobial Peptides metabolism, Antimicrobial Peptides pharmacology, Drug Resistance, Bacterial, Medicago truncatula chemistry, Sinorhizobium meliloti drug effects, Sinorhizobium meliloti metabolism

Abstract

Legumes of the Medicago genus have a symbiotic relationship with the bacterium Sinorhizobium meliloti and develop root nodules housing large numbers of intracellular symbionts. Members of the n odule-specific c ysteine- r ich peptide (NCR) family induce the endosymbionts into a terminal differentiated state. Individual cationic NCRs are antimicrobial peptides that have the capacity to kill the symbiont, but the nodule cell environment prevents killing. Moreover, the bacterial broad-specificity peptide uptake transporter BacA and exopolysaccharides contribute to protect the endosymbionts against the toxic activity of NCRs. Here, we show that other S. meliloti functions participate in the protection of the endosymbionts; these include an additional broad-specificity peptide uptake transporter encoded by the yejABEF genes and lipopolysaccharide modifications mediated by lpsB and lpxXL , as well as rpoH1 , encoding a stress sigma factor. Strains with mutations in these genes show a strain-specific increased sensitivity profile against a panel of NCRs and form nodules in which bacteroid differentiation is affected. The lpsB mutant nodule bacteria do not differentiate, the lpxXL and rpoH1 mutants form some seemingly fully differentiated bacteroids, although most of the nodule bacteria are undifferentiated, while the yejABEF mutants form hypertrophied but nitrogen-fixing bacteroids. The nodule bacteria of all the mutants have a strongly enhanced membrane permeability, which is dependent on the transport of NCRs to the endosymbionts. Our results suggest that S. meliloti relies on a suite of functions, including peptide transporters, the bacterial envelope structures, and stress response regulators, to resist the aggressive assault of NCR peptides in the nodule cells. IMPORTANCE The nitrogen-fixing symbiosis of legumes with rhizobium bacteria has a predominant ecological role in the nitrogen cycle and has the potential to provide the nitrogen required for plant growth in agriculture. The host plants allow the rhizobia to colonize specific symbiotic organs, the nodules, in large numbers in order to produce sufficient reduced nitrogen for the plants' needs. Some legumes, including Medicago spp., produce massively antimicrobial peptides to keep this large bacterial population in check. These peptides, known as NCRs, have the potential to kill the rhizobia, but in nodules, they rather inhibit the division of the bacteria, which maintain a high nitrogen-fixing activity. In this study, we show that the tempering of the antimicrobial activity of the NCR peptides in the Medicago symbiont Sinorhizobium meliloti is multifactorial and requires the YejABEF peptide transporter, the lipopolysaccharide outer membrane, and the stress response regulator RpoH1.

Published

2021

11. COMICS: Cartoon Visualization of Omics Data in Spatial Context Using Anatomical Ontologies.

Author

Travin D, Popov I, Guler AT, Medvedev D, van der Plas-Duivesteijn S, Varela M, Kolder ICRM, Meijer AH, Spaink HP, and Palmblad M

Subjects

Animals, Biological Ontologies, Carps, Mice, Terminology as Topic, User-Computer Interface, Zebrafish, Data Display

Abstract

COMICS is an interactive and open-access web platform for integration and visualization of molecular expression data in anatomograms of zebrafish, carp, and mouse model systems. Anatomical ontologies are used to map omics data across experiments and between an experiment and a particular visualization in a data-dependent manner. COMICS is built on top of several existing resources. Zebrafish and mouse anatomical ontologies with their controlled vocabulary (CV) and defined hierarchy are used with the ontoCAT R package to aggregate data for comparison and visualization. Libraries from the QGIS geographical information system are used with the R packages "maps" and "maptools" to visualize and interact with molecular expression data in anatomical drawings of the model systems. COMICS allows users to upload their own data from omics experiments, using any gene or protein nomenclature they wish, as long as CV terms are used to define anatomical regions or developmental stages. Common nomenclatures such as the ZFIN gene names and UniProt accessions are provided additional support. COMICS can be used to generate publication-quality visualizations of gene and protein expression across experiments. Unlike previous tools that have used anatomical ontologies to interpret imaging data in several animal models, including zebrafish, COMICS is designed to take spatially resolved data generated by dissection or fractionation and display this data in visually clear anatomical representations rather than large data tables. COMICS is optimized for ease-of-use, with a minimalistic web interface and automatic selection of the appropriate visual representation depending on the input data.

Published

2018