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1. Identification and characterization of sugar-regulated promoters in Chaetomium thermophilum

Author

Reislöhner, S., Schermann, G., Kilian, M., Santamaría-Muñoz, D., Zimmerli, C., https://orcid.org/0000-0003-4388-1349, Kellner, N., Baßler, J., Brunner, M., and Hurt, E.

Abstract

The thermophilic fungus Chaetomium thermophilum has been used extensively for biochemical and high-resolution structural studies of protein complexes. However, subsequent functional analyses of these assemblies have been hindered owing to the lack of genetic tools compatible with this thermophile, which are typically suited to other mesophilic eukaryotic model organisms, in particular the yeast Saccharomyces cerevisiae. Hence, we aimed to find genes from C. thermophilum that are expressed under the control of different sugars and examine their associated 5’ untranslated regions as promoters responsible for sugar-regulated gene expression. To identify sugar-regulated promoters in C. thermophilum, we performed comparative xylose- versus glucose-dependent gene expression studies, which uncovered a number of enzymes with induced expression in the presence of xylose but repressed expression in glucose-supplemented media. Subsequently, we cloned the promoters of the two most stringently regulated genes, the xylosidase-like gene (XYL) and xylitol dehydrogenase (XDH), obtained from this genome-wide analysis in front of a thermostable yellow fluorescent protein (YFP) reporter. With this, we demonstrated xylose-dependent YFP expression by both Western blotting and live-cell imaging fluorescence microscopy. Prompted by these results, we expressed the C. thermophilum orthologue of a well-characterized dominant-negative ribosome assembly factor mutant, under the control of the XDH promoter, which allowed us to induce a nuclear export defect on the pre-60S subunit when C. thermophilum cells were grown in xylose- but not glucose-containing medium. Altogether, our study identified xylose-regulatable promoters in C. thermophilum, which might facilitate functional studies of genes of interest in this thermophilic eukaryotic model organism.

Published
2023

7. Structure of nascent 5S RNPs at the crossroad between ribosome assembly and MDM2-p53 pathways

Author

Castillo Duque de Estrada, N., Thoms, M., Flemming, D., Hammaren, H., Buschauer, R., Ameismeier, M., Baßler, J., Beck, M., https://orcid.org/0000-0002-7397-1321, Beckmann, R., and Hurt, E.

Abstract

The 5S ribonucleoprotein (RNP) is assembled from its three components (5S rRNA, Rpl5/uL18 and Rpl11/uL5) before being incorporated into the pre-60S subunit. However, when ribosome synthesis is disturbed, a free 5S RNP can enter the MDM2–p53 pathway to regulate cell cycle and apoptotic signaling. Here we reconstitute and determine the cryo-electron microscopy structure of the conserved hexameric 5S RNP with fungal or human factors. This reveals how the nascent 5S rRNA associates with the initial nuclear import complex Syo1–uL18–uL5 and, upon further recruitment of the nucleolar factors Rpf2 and Rrs1, develops into the 5S RNP precursor that can assemble into the pre-ribosome. In addition, we elucidate the structure of another 5S RNP intermediate, carrying the human ubiquitin ligase Mdm2, which unravels how this enzyme can be sequestered from its target substrate p53. Our data provide molecular insight into how the 5S RNP can mediate between ribosome biogenesis and cell proliferation.

Published
2023

17. Structure of the hexameric 5S RNP from C. thermophilum

Author

Castillo, N., primary, Thoms, M., additional, Flemming, D., additional, Hammaren, H.M., additional, Buschauer, R., additional, Ameismeier, M., additional, Bassler, J., additional, Beck, M., additional, Beckmann, R., additional, and Hurt, E., additional

Published
2022
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19. Facilitating research amongst radiographers through information literacy workshops

Author

Hurt, E, Mcloughlin, Alison Sarah rachel, Hurt, E, and Mcloughlin, Alison Sarah rachel

Abstract

Background Despite a strong research presence in Lancashire Teaching Hospitals NHS Foundation Trust (LTHTR), Allied Health Professionals are under-represented in developing and publicising research within the organisation inspired by day to day clinical practice and staff experiences. Two departments within the Trust, Library and Knowledge Services (LKS) and Research and Innovation (R&I), came together to enable a group of staff to develop the knowledge and skills they needed to access information and create new “home grown” research. Case Presentation A clinical librarian and an academic research nurse created a research engagement programme within the diagnostic radiography department at LTHTR, which included the development, delivery, and evaluation of six workshops. Sixteen individuals took part in these workshops, and data were collected on library usage, self-efficacy in information literacy, and research output before and after their delivery. Library membership increased by 50% in diagnostic radiography staff, literature search requests from this department increased by 133%, and all participants who attended at least one workshop reported an increased Information Literacy Self Efficacy Scale (ILSES) score. An increase in research activity and outputs were also attributed to the programme. Conclusions This project has resulted in a set of freely available workshop plans and support resources that can be customized for other healthcare professionals and has won several awards for its innovative use of departmental collaboration. Through our evaluation of the programme from workshop attendees and non-attenders, we have identified impacts, outputs, and barriers to engagement in order to continue to deliver this content to other departments and embed a “home grown” research culture at LTHTR.

Published
2021

33. Measurement of the band offsets of SiO[sub 2] on clean n- and p-type GaN(0001).

Author

Cook, T. E., Fulton, C. C., Mecouch, W. J., Tracy, K. M., Davis, R. F., Hurt, E. H., Lucovsky, G., and Nemanich, R. J.

Subjects
SILICA, GALLIUM nitride, INTERFACES (Physical sciences)
Abstract

The band alignment at the SiO[sub 2]-GaN interface is important for passivation of high voltage devices and for gate insulator applications. X-ray photoelectron spectroscopy and ultraviolet photoemission spectroscopy have been used to observe the interface electronic states as SiO[sub 2] was deposited on clean GaN(0001) surfaces. The substrates, grown by metallorganic chemical vapor deposition, were n-(1 × 10[sup 17]) and p-type (2 × 10[sup 18]) GaN on 6H-SiC(0001) with an AlN(0001) buffer layer. The GaN surfaces were atomically cleaned via an 860°C anneal in an NH[sub 3] atmosphere. For the clean surfaces, n-type GaN showed upward band bending of 0.3 ± 0.1 eV, while p-type GaN showed downward band bending of 1.3 ± 0.1 eV. The electron affinity for n- and p-type GaN was measured to be 2.9 ± 0.1 and 3.2 ± 0.1 eV, respectively. To avoid oxidizing the GaN, layers of Si were deposited on the clean GaN surface via ultrahigh vacuum e-beam deposition, and the Si was oxidized at 300°C by a remote O[sub 2] plasma. The substrates were annealed at 650°C for densification of the SiO[sub 2] films. Surface analysis techniques were performed after each step in the process, and yielded a valence band offset of 2.0 ± 0.2 eV and a conduction band offset of 3.6 ± 0.2 eV for the GaN-SiO[sub 2] interface for both p- and n-type samples. Interface dipoles of 1.8 and 1.5 eV were deduced for the GaN-SiO[sub 2] interface for the n- and p-type surfaces, respectively. [ABSTRACT FROM AUTHOR]

Published
2003
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36. The K+-dependent GTPase Nug1 is implicated in the association of the helicase Dbp10 to the immature peptidyl transferase centre during ribosome maturation

Author

Manikas, R-G, Thomson, E, Thoms, M, and Hurt, E

Abstract

Ribosome synthesis employs a number of energy-consuming enzymes in both eukaryotes and prokaryotes. One such enzyme is the conserved circularly permuted GTPase Nug1 (nucleostemin in human). Nug1 is essential for 60S subunit assembly and nuclear export, but its role and time of action during maturation remained unclear. Based on in vitro enzymatic assays using the Chaetomium thermophilum (Ct) orthologue, we show that Nug1 exhibits a low intrinsic GTPase activity that is stimulated by potassium ions, rendering Nug1 a cation-dependent GTPase. In vivo we observe 60S biogenesis defects upon depletion of yeast Nug1 or expression of a Nug1 nucleotide-binding mutant. Most prominently, the RNA helicase Dbp10 was lost from early pre-60S particles, which suggested a physical interaction that could be reconstituted in vitro using CtNug1 and CtDbp10. In vivo rRNA–protein crosslinking revealed that Nug1 and Dbp10 bind at proximal and partially overlapping sites on the 60S pre-ribosome, most prominently to H89 that will constitute part of the peptidyl transferase center (PTC). The binding sites of Dbp10 are the same as those identified for the prokaryotic helicase DbpA bound to the 50S subunit. We suggest that Dbp10 and DbpA are performing a conserved role during PTC formation in all organisms.

Published
2016

44. Co-translational capturing of nascent ribosomal proteins by their dedicated chaperones

Author

Pausch, P., Singh, U., Ahmed, Y.L., Pillet, B., Murat, G., Altegoer, F., Stier, G., Thoms, M., Hurt, E., Sinning, I., Bange, G., and Kressler, D.

Subjects
Fungal Proteins, Models, Molecular, Ribosomal Proteins, Protein Conformation, Gene Expression Regulation, Fungal, Two-Hybrid System Techniques, Escherichia coli, Saccharomyces cerevisiae, Chaetomium, Article, Molecular Chaperones, Protein Binding
Abstract

Exponentially growing yeast cells produce every minute >160,000 ribosomal proteins. Owing to their difficult physicochemical properties, the synthesis of assembly-competent ribosomal proteins represents a major challenge. Recent evidence highlights that dedicated chaperone proteins recognize the N-terminal regions of ribosomal proteins and promote their soluble expression and delivery to the assembly site. Here we explore the intuitive possibility that ribosomal proteins are captured by dedicated chaperones in a co-translational manner. Affinity purification of four chaperones (Rrb1, Syo1, Sqt1 and Yar1) selectively enriched the mRNAs encoding their specific ribosomal protein clients (Rpl3, Rpl5, Rpl10 and Rps3). X-ray crystallography reveals how the N-terminal, rRNA-binding residues of Rpl10 are shielded by Sqt1's WD-repeat β-propeller, providing mechanistic insight into the incorporation of Rpl10 into pre-60S subunits. Co-translational capturing of nascent ribosomal proteins by dedicated chaperones constitutes an elegant mechanism to prevent unspecific interactions and aggregation of ribosomal proteins on their road to incorporation., The synthesis of ribosomes requires the orderly assembly of many proteins and large RNA molecules, a process that involves several assembly factors. Here the authors show that dedicated chaperones capture the N termini of specific nascent ribosomal proteins to promote folding and assembly into maturing ribosomes.

Published
2015

46. Cryo-EM structure of the 90S pre-ribosome

Author

Turk, M., primary, Cheng, J., additional, Berninghausen, O., additional, Kornprobst, M., additional, Flemming, D., additional, Kos-Braun, I.C., additional, Kos, M., additional, Thoms, M., additional, Hurt, E., additional, and Beckmann, R., additional

Published
2016
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49. Crystal structure of the Chaetomium thermophilum heterotrimeric Nup82 NTD-Nup159 TAIL-Nup145N APD complex

Author

Stuwe, T., primary, Bley, C.J., additional, Thierbach, K., additional, Petrovic, S., additional, Schilbach, S., additional, Mayo, D.J., additional, Perriches, T., additional, Rundlet, E.J., additional, Jeon, Y.E., additional, Collins, L.N., additional, Lin, D.H., additional, Paduch, M., additional, Koide, A., additional, Lu, V., additional, Fischer, J., additional, Hurt, E., additional, Koide, S., additional, Kossiakoff, A.A., additional, and Hoelz, A., additional

Published
2015
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50. Crystal structure of Chaetomium thermophilum Nup188 TAIL domain

Author

Stuwe, T., primary, Bley, C.J., additional, Thierbach, K., additional, Petrovic, S., additional, Schilbach, S., additional, Mayo, D.J., additional, Perriches, T., additional, Rundlet, E.J., additional, Jeon, Y.E., additional, Collins, L.N., additional, Lin, D.H., additional, Paduch, M., additional, Koide, A., additional, Lu, V., additional, Fischer, J., additional, Hurt, E., additional, Koide, S., additional, Kossiakoff, A.A., additional, and Hoelz, A., additional

Published
2015
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