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4. Structural dynamics of bacterial translation initiation factor IF2

Author

Wienk, H.L.J., Tishchenko, E., Belardinelli, R., Tomaselli, S., Dongre, R., Spurio, R., Folkers, G.E., Gualerzi, C.O., Boelens, R., NMR Spectroscopy, Sub NMR Spectroscopy, NMR Spectroscopy, and Sub NMR Spectroscopy

Subjects
Models, Molecular, Molecular Sequence Data, Biology, Prokaryotic Initiation Factor-2, Biochemistry, Guanosine Diphosphate, Geobacillus stearothermophilus, Bacterial Proteins, Eukaryotic initiation factor, Prokaryotic translation, mental disorders, Initiation factor, Amino Acid Sequence, Molecular Biology, eIF2, Sequence Homology, Amino Acid, Prokaryotic initiation factor-2, Cell Biology, EIF4A1, Ribosomal RNA, Cell biology, Protein Structure, Tertiary, Protein Synthesis and Degradation, ELONGATION-FACTOR-G, ESCHERICHIA-COLI, BACILLUS-STEAROTHERMOPHILUS, BINDING-SITE, G-DOMAIN, THERMUS-THERMOPHILUS, SIGNAL-TRANSDUCTION, PROTEIN STRUCTURES, SCALAR COUPLINGS, RELAXATION DATA, Guanosine Triphosphate, psychological phenomena and processes, Binding domain
Abstract

Bacterial translation initiation factor IF2 promotes ribosomal subunit association, recruitment, and binding of fMet-tRNA to the ribosomal P-site and initiation dipeptide formation. Here, we present the solution structures of GDP-bound and apo-IF2-G2 of Bacillus stearothermophilus and provide evidence that this isolated domain binds the 50 S ribosomal subunit and hydrolyzes GTP. Differences between the free and GDP-bound structures of IF2-G2 suggest that domain reorganization within the G2-G3-C1 regions underlies the different structural requirements of IF2 during the initiation process. However, these structural signals are unlikely forwarded from IF2-G2 to the C-terminal fMet-tRNA binding domain (IF2-C2) because the connected IF2-C1 and IF2-C2 modules show completely independent mobility, indicating that the bacterial interdomain connector lacks the rigidity that was found in the archaeal IF2 homolog aIF5B.

Published
2012
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5. Sequence-specific recognition of DNA by the C-terminal domain of Escherichia coli nucleoid-associated protein H-NS

Author

Sette, M., Spurio, R., Trotta, E., Brandizi, C., Brandi, Anna, Pon, C.L., Barbato, G., Boelens, R., Gualerzi, C.O., NMR Spectroscopy, and Sub NMR Spectroscopy

Abstract

The molecular determinants necessary and sufficient for recognition of its specific DNA target are contained in the C-domain (H-NSctd) of nucleoid-associated protein H-NS. H-NSctd protects from DNaseI cleavage a few short DNA segments of the H-NS-sensitive hns promoter whose sequences closely match the recently identified H-NS consensus motif (tCGt/aTa/tAATT) and, alone or fused to the protein oligomerization domain of phage λ CI repressor, inhibits transcription from the hns promoter in vitro and in vivo. The importance of H-NS oligomerization is indicated by the fact that with an extended hns promoter construct (400 bp), which allows protein oligomerization, DNA binding and transcriptional repression are highly and almost equally efficient with native H-NS and H-NSctd::λCI and much less effective with the monomeric H-NSctd. With a shorter (110 bp) construct, which does not sustain extensive protein oligomerization, transcriptional repression is less effective, but native H-NS, H-NSctd::λCI and monomeric H-NSctd have comparable activity on this construct. The specific H-NS-DNA interaction was investigated by NMR spectroscopy using monomeric H-NSctd and short DNA duplexes encompassing the H-NS target sequence of hns (TCCTTACATT) with the best fit (8/10) to the H-NS binding motif. H-NSctd binds specifically and with high affinity to the chosen duplexes via an overall electropositive surface involving four residues (Thr109, Arg113, Thr114 and Ala116) belonging to the same protein loop and Glu101. The DNA target is recognized by virtue of its sequence and of a TpA step which confers a structural irregularity to the B-DNA duplex.

Published
2009

7. Structural Dynamics of Bacterial Translation Initiation Factor IF2

Author

NMR Spectroscopy, Sub NMR Spectroscopy, Wienk, H.L.J., Tishchenko, E., Belardinelli, R., Tomaselli, S., Dongre, R., Spurio, R., Folkers, G.E., Gualerzi, C.O., Boelens, R., NMR Spectroscopy, Sub NMR Spectroscopy, Wienk, H.L.J., Tishchenko, E., Belardinelli, R., Tomaselli, S., Dongre, R., Spurio, R., Folkers, G.E., Gualerzi, C.O., and Boelens, R.

Published
2012

11. Free B.st IF2-G2

Author

Wienk, H., primary, Tishchenko, E., additional, Belardinelli, R., additional, Tomaselli, S., additional, Dongre, R., additional, Spurio, R., additional, Folkers, G.E., additional, Gualerzi, C.O., additional, and Boelens, R., additional

Published
2012
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12. IF2-G2 GDP complex

Author

Wienk, H., primary, Tishchenko, E., additional, Belardinelli, R., additional, Tomaselli, S., additional, Dongre, R., additional, Spurio, R., additional, Folkers, G.E., additional, Gualerzi, C.O., additional, and Boelens, R., additional

Published
2012
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23. The C-terminal subdomain (IF2 C-2) contains the entire fMet-tRNA binding site of initiation factor IF2.

Author

Spurio, R, Brandi, L, Caserta, E, Pon, C L, Gualerzi, C O, Misselwitz, R, Krafft, C, Welfle, K, and Welfle, H

Abstract

Previous protein unfolding studies had suggested that IF2 C, the 24. 5-kDa fMet-tRNA binding domain of Bacillus stearothermophilus translation initiation factor IF2, may consist of two subdomains. In the present work, the four Phe residues of IF2 C (positions 531, 599, 657, and 721) were replaced with Trp, yielding four variant proteins having intrinsic fluorescence markers in different positions of the molecule. Comparison of the circular dichroism and Trp fluorescence changes induced by increasing concentrations of guanidine hydrochloride demonstrated that IF2 C indeed consists of two subdomains: the more stable N-terminal (IF2 C-1) subdomain containing Trp-599, and the less stable C-terminal (IF2 C-2) subdomain containing Trp-721. Isolated subdomain IF2 C-2, which consists of just 110 amino acids (from Glu-632 to Ala-741), was found to bind fMet-tRNA with the same specificity and affinity as native IF2 or IF2 C-domain. Trimming IF2 C-2 from both N and C termini demonstrated that the minimal fragment still capable of fMet-binding consists of 90 amino acids. IF2 C-2 was further characterized by circular dichroism; by urea-, guanidine hydrochloride-, and temperature-induced unfolding; and by differential scanning calorimetry. The results indicate that IF2 C-2 is a globular molecule containing predominantly beta structures (25% antiparallel and 8% parallel beta strands) and turns (19%) whose structural properties are not grossly affected by the presence or absence of the N-terminal subdomain IF2 C-1.

Published
2000

28. Nuclearite search with the MACRO detector at Gran Sasso

Author

M. Ambrosio, R. Antolini, C. Aramo, G. Auriemma, A. Baldini, G. C. Barbarino, B. C. Barish, G. Battistoni, R. Bellotti, C. Bemporad, H. Bilokon, V. Bisi, C. Bloise, C. Bower, S. Bussino, F. Cafagna, M. Calicchio, D. Campana, M. Carboni, M. Castellano, S. Cecchini, F. Cei, V. Chiarella, B. C. Choudhary, S. Coutu, L. D. Benedictis, G. D. Cataldo, H. Dekhissi, E. D. Marzo, J. Derkaoui, M. D. Vincenzi, A. D. Credico, O. Erriquez, C. Favuzzi, C. Forti, P. Fusco, G. Giacomelli, G. Giannini, N. Giglietto, M. Giorgini, M. Grassi, L. Gray, A. Grillo, F. Guarino, P. Guarnaccia, C. Gustavino, A. Habig, K. Hanson, R. Heinz, Y. Huang, E. Iarocci, E. Katsavounidis, E. Kearns, H. Kim, S. Kyriazopoulou, E. Lamanna, C. Lane, T. Lari, D. S. Levin, P. Lipari, N. P. Longley, M. J. Longo, F. Maaroufi, G. Mandrioli, S. Manzoor, A. Margiotta, A. Marini, A. Marzari Chiesa, M. N. Mazziotta, D. G. Michael, S. Mikheyev, L. Miller, P. Monacelli, T. Montaruli, M. Monteno, S. Mufson, J. Musser, D. Nicolo, C. Orth, G. Osteria, M. Ouchrif, O. Palamara, V. Patera, L. Patrizii, R. Pazzi, C. W. Peck, S. Petrera, P. Pistilli, V. Popa, V. Pugliese, A. Raino, A. Rastelli, J. Reynoldson, F. Ronga, U. Rubizzo, C. Satriano, L. Satta, E. Scapparone, K. Scholberg, A. Sciubba, P. Serra, M. Severi, M. Sioli, M. Sitta, P. Spinelli, M. Spinetti, M. Spurio, R. Steinberg, J. L. Stone, L. R. Sulak, A. Surdo, G. Tarle, V. Togo, D. Ugolotti, M. Vakili, C. W. Walter, R. Webb, BERNARDINI, Paolo, DE MITRI, Ivan, MANCARELLA, Giovanni, MARTELLO, Daniele, PERRONE, Lorenzo, M., Ambrosio, R., Antolini, C., Aramo, G., Auriemma, A., Baldini, G. C., Barbarino, B. C., Barish, G., Battistoni, R., Bellotti, C., Bemporad, Bernardini, Paolo, H., Bilokon, V., Bisi, C., Bloise, C., Bower, S., Bussino, F., Cafagna, M., Calicchio, D., Campana, M., Carboni, M., Castellano, S., Cecchini, F., Cei, V., Chiarella, B. C., Choudhary, S., Coutu, L. D., Benedicti, G. D., Cataldo, H., Dekhissi, E. D., Marzo, DE MITRI, Ivan, J., Derkaoui, M. D., Vincenzi, A. D., Credico, O., Erriquez, C., Favuzzi, C., Forti, P., Fusco, G., Giacomelli, G., Giannini, N., Giglietto, M., Giorgini, M., Grassi, L., Gray, A., Grillo, F., Guarino, P., Guarnaccia, C., Gustavino, A., Habig, K., Hanson, R., Heinz, Y., Huang, E., Iarocci, E., Katsavounidi, E., Kearn, H., Kim, S., Kyriazopoulou, E., Lamanna, C., Lane, T., Lari, D. S., Levin, P., Lipari, N. P., Longley, M. J., Longo, F., Maaroufi, Mancarella, Giovanni, G., Mandrioli, S., Manzoor, A., Margiotta, A., Marini, Martello, Daniele, A., Marzari Chiesa, M. N., Mazziotta, D. G., Michael, S., Mikheyev, L., Miller, P., Monacelli, T., Montaruli, M., Monteno, S., Mufson, J., Musser, D., Nicolo, C., Orth, G., Osteria, M., Ouchrif, O., Palamara, V., Patera, L., Patrizii, R., Pazzi, C. W., Peck, Perrone, Lorenzo, S., Petrera, P., Pistilli, V., Popa, V., Pugliese, A., Raino, A., Rastelli, J., Reynoldson, F., Ronga, U., Rubizzo, C., Satriano, L., Satta, E., Scapparone, K., Scholberg, A., Sciubba, P., Serra, M., Severi, M., Sioli, M., Sitta, P., Spinelli, M., Spinetti, M., Spurio, R., Steinberg, J. L., Stone, L. R., Sulak, A., Surdo, G., Tarle, V., Togo, D., Ugolotti, M., Vakili, C. W., Walter, R., Webb, Ambrosio, M, Antolini, R, Aramo, C, Auriemma, G, Baldini, A, Barbarino, Gc, Barish, Bc, Battistoni, G, Bellotti, R, Bemporad, C, Bernardini, P, Bilokon, H, Bisi, V, Bloise, C, Bower, C, Bussino, Severino Angelo Maria, Cafagna, F, Calicchio, M, Campana, D, Carboni, M, Castellano, M, Cecchini, S, Cei, F, Chiarella, V, Choudhary, Bc, Coutu, S, De Benedictis, L, De Cataldo, G, Dekhissi, H, De Marzo, E, De Mitri, I, Derkaoui, J, De Vincenzi, M, Di Credico, A, Erriquez, O, Favuzzi, C, Forti, C, Fusco, P, Giacomelli, G, Giannini, G, Giglietto, N, Giorgini, M, Grassi, M, Gray, L, Grillo, A, Guarino, F, Guarnaccia, P, Gustavino, C, Habig, A, Hanson, K, Heinz, R, Huang, Y, Iarocci, E, Katsavounidis, E, Kearns, E, Kim, H, Kyriazopoulou, S, Lamanna, E, Lane, C, Lari, T, Levin, D, Lipari, P, Longley, Np, Longo, Mj, Maaroufi, F, Mancarella, G, Mandrioli, G, Manzoor, S, Margiotta, A, Marini, A, Martello, D, Marzari Chiesa, A, Mazziotta, Mn, Michael, Dg, Mikheyev, S, Miller, L, Monacelli, P, Montaruli, T, Monteno, M, Mufson, S, Musser, J, Nicolo, D, Orth, C, Osteria, G, Ouchrif, M, Palamara, O, Patera, V, Patrizii, L, Pazzi, R, Peck, Cw, Perrone, L, Petrera, S, Pistilli, P, Popa, V, Pugliese, V, Raino, A, Rastelli, A, Reynoldson, J, Ronga, F, Rubizzo, U, Satriano, C, Satta, L, Scapparone, E, Scholberg, K, Sciubba, A, Serra, P, Severi, M, Sioli, M, Sitta, M, Spinelli, P, Spinetti, M, Spurio, M, Steinberg, R, Stone, Jl, Sulak, Lr, Surdo, A, Tarle, G, Togo, V, Ugolotti, D, Vakili, M, Walter, Cw, Webb, R., and M. Ambrosio, R. Antolini, C. Aramo, G. Auriemma, A. Baldini, G. C. Barbarino, B. C. Barish, G. Battistoni, R. Bellotti, C. Bemporad, P. Bernardini, H. Bilokon, V. Bisi, C. Bloise, C. Bower, S. Bussino, F. Cafagna, M. Calicchio, D. Campana, M. Carboni, M. Castellano, S. Cecchini, F. Cei, V. Chiarella, B. C. Choudhary, S. Coutu, L. De Benedictis, G. De Cataldo, H. Dekhissi, C. De Marzo, I. De Mitri, J. Derkaoui, M. De Vincenzi, A. Di Credico, O. Erriquez, C. Favuzzi, C. Forti, P. Fusco, G. Giacomelli, G. Giannini , N. Giglietto, M. Giorgini, M. Grassi, L. Gray, A. Grillo, F. Guarino, P. Guarnaccia, C. Gustavino, A. Habig, K. Hanson, R. Heinz, Y. Huang, E. Iarocci, E. Katsavounidis, E. Kearns, H. Kim, S. Kyriazopoulou, E. Lamanna, C. Lane, T. Lari, D. S. Levin, P. Lipari, N. P. Longley, M. J. Longo, F. Maarou, G. Mancarella, G. Mandrioli, S. Manzoor, A. Margiotta, A. Marini, D. Martello, A. Marzari-Chiesa, M. N. Mazziotta, D. G. Michael, S. Mikheyev, L. Miller, P. Monacelli, T. Montaruli, M. Monteno, S. Mufson, J. Musser, D. Nicolo, C. Orth, G. Osteria, M. Ouchrif, O. Palamara, V. Patera, L. Patrizii, R. Pazzi, C. W. Peck, L. Perrone, S. Petrera, P. Pistilli, V. Popa, V. Pugliese, A. Raino, A. Rastelli, J. Reynoldson, F. Ronga, U. Rubizzo, C. Satriano, L. Satta, E. Scapparone, K. Scholberg, A. Sciubba, P. Serra, M. Severi, M. Sioli, M. Sitta, P. Spinelli, M. Spinetti, M. Spurio, R. Steinberg, J. L. Stone, L. R. Sulak, A. Surdo, G. Tarlè, V. Togo, D. Ugolotti, M. Vakili, C. W. Walter, R. Webb

Subjects
Physics and Astronomy (miscellaneous), MACRO, Engineering (miscellaneous), Gran Sasso
Abstract

In this paper we present the results of a search for nuclearites in the penetrating cosmic radiation using the scintillator and track-etch subdetectors of the MACRO apparatus. The analyses cover the beta = v/c range at the detector depth (3700 hg/cm(2)) 10(-5) < beta < 1; for beta = 2 x 10(-3) the flux limit is 2.7 x 10(-16) cm(-2)s(-1)sr(-1) for an isotropic flux of nuclearites, and twice this value for a flux of downgoing nuclearites.

Published
2000

29. Pangenome analysis of Paenibacillus polymyxa strains reveals the existence of multiple and functionally distinct Paenibacillus species.

Author

Maggi F, Giuliodori AM, Brandi A, Cimarelli L, Alcántara R, Pallotti S, Amantini C, Petrelli D, Fabbretti A, Spurio R, and Napolioni V

Subjects
Multilocus Sequence Typing, DNA, Bacterial genetics, Paenibacillus polymyxa genetics, Paenibacillus polymyxa classification, Genome, Bacterial, Phylogeny, Paenibacillus genetics, Paenibacillus classification, Paenibacillus metabolism
Abstract

Paenibacillus polymyxa , a Gram-positive bacterium commonly found in soil and plant roots, plays an important role in the environment due to its nitrogen-fixing ability and is renowned for producing antibiotics like polymyxin. In this study, we present a robust framework for investigating the evolutionary and taxonomic connections of strains belonging to P. polymyxa available at the National Center for Biotechnology Information, as well as five new additional strains isolated at the University of Camerino (Italy), through pangenome analysis. These strains can produce secondary metabolites active against Staphylococcus aureus and Klebsiella pneumoniae . Employing techniques such as digital DNA-DNA hybridization (dDDH), average nucleotide identity (ANI) estimation, OrthoFinder, and ribosomal multilocus sequence typing, we consistently divided these P. polymyxa strains into four clusters, which differ significantly in terms of ANI and dDDH percentages, both considered as reference indices for separating bacterial species. Moreover, the strains of Cluster 2 were re-classified as belonging to the Paenibacillus ottowii species. By comparing the pangenomes, we identified the core genes of each cluster and analyzed them to recognize distinctive features in terms of biosynthetic/metabolic potential. The comparison of pangenomes also allowed us to pinpoint differences between clusters in terms of genetic variability and the percentage of the genome dedicated to core and accessory genes. In conclusion, the data obtained from our analyses of strains belonging to the P. polymyxa species converge toward a necessary reclassification, which will require a fundamental contribution from microbiologists in the near future., Importance: The development of sequencing technologies has led to an exponential increase in microbial sequencing data. Accurately identifying bacterial species remains a challenge because of extensive intra-species variability, the need for multiple identification methods, and the rapid rate of taxonomic changes. A substantial contribution to elucidating the relationships among related bacterial strains comes from comparing their genomic sequences. This comparison also allows for the identification of the "pangenome," which is the set of genes shared by all individuals of a species, as well as the set of genes that are unique to subpopulations. Here, we applied this approach to Paenibacillus polymyxa , a species studied for its potential as a biofertilizer and biocontrol agent and known as an antibiotic producer. Our work highlights the need for a more efficient classification of this bacterial species and provides a better delineation of strains with different properties., Competing Interests: The authors declare no conflict of interest.

Published
2024
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30. Versatile and Portable Cas12a-mediated Detection of Antibiotic Resistance Markers.

Author

Vargas-Reyes M, Alcántara R, Alfonsi S, Peñaranda K, Petrelli D, Spurio R, Pajuelo MJ, and Milon P

Abstract

Antimicrobial resistance (AMR) is a global public health problem particularly accentuated in low- and middle-income countries, largely due to a lack of access to sanitation and hygiene, lack of awareness and knowledge, and the inadequacy of molecular laboratories for timely and accurate surveillance programs. This study introduces a versatile molecular detection toolbox (C12a) for antibiotic resistance gene markers using CRISPR/Cas12a coupled to PCR. Our toolbox can detect less than 3×10 -7 ng of DNA (100 attoMolar) or 10 2 CFU/mL. High concordance was observed when comparing the C12a toolbox with sequenced genomes and antibiotic susceptibility tests for the blaCTX-M-15 and floR antibiotic resistance genes (ARGs), which confer resistance to cefotaxime and other β-lactams, and amphenicols, respectively. C12a INT , designed to detect the Integrase 1 gene, confirmed a high prevalence of the integrase/integron system in E. coli containing multiple ARGs. The C12a toolbox was tested across a wide range of laboratory infrastructure including a portable setup. When combined with lateral flow assays (LFA), C12a exhibited competitive performance, making it a promising solution for on-site ARG detection. Altogether, this work presents a collection of molecular tools (primers, crRNAs, probes) and validated assays for rapid, versatile, and portable detection of antibiotic resistance markers, highlighting the C12a toolbox potential for applications in surveillance and ARG identification in clinical and environmental settings., Competing Interests: Disclosure of interest The authors report there are no competing interests to declare.

Published
2024
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31. Vehicle transmission of antibiotic-resistant pathogens mediated by plastic debris in aquatic ecosystems.

Author

Ferheen I, Spurio R, and Marcheggiani S

Abstract

Plastic materials are emerging environmental pollutants acting as potential vehicles for accumulation and spread of multidrug-resistant bacteria. The current study investigates the role of plastics in favoring the dispersal of specific pathogens and their associated antibiotic resistant genes (ARGs). Artificial plastic substrates (APSs) were submerged in seven sampling points of Lake Bracciano (Italy), and after one-month both APSs and raw water (RW) samples were collected. Through the combination of standard microbiological and biochemical techniques, 272 bacterial strains were identified and characterized for antibiotic resistant profiling. Our results revealed a notable difference in terms of diversity and abundance of pathogenic bacteria recovered from APSs, compared to RW. In addition, higher resistance patterns were detected in APSs isolates, with frequent appearance of relevant ARGs and class 1 integrons. These findings reinforce the idea that plastic materials in aquatic ecosystems serve as a reservoir for superbugs, significantly contributing to the dissemination of ARGs., Competing Interests: The authors have no conflicts of interest to declare., (© 2024 Published by Elsevier Inc.)

Published
2024
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32. Emerging Issues on Antibiotic-Resistant Bacteria Colonizing Plastic Waste in Aquatic Ecosystems.

Author

Ferheen I, Spurio R, and Marcheggiani S

Abstract

Antibiotic-resistant bacteria (ARB) adhesion onto plastic substrates is a potential threat to environmental and human health. This current research investigates the prevalence of two relevant human pathogens, Staphylococcus spp. and Klebsiella spp., and their sophisticated equipment of antibiotic-resistant genes (ARGs), retrieved from plastic substrates submerged into an inland water body. The results of microbiological analysis on selective and chromogenic media revealed the presence of colonies with distinctive phenotypes, which were identified using biochemical and molecular methods. 16S rDNA sequencing and BLAST analysis confirmed the presence of Klebsiella spp., while in the case of Staphylococcus spp., 63.6% of strains were found to be members of Lysinibacillus spp., and the remaining 36.3% were identified as Exiguobacterium acetylicum . The Kirby-Bauer disc diffusion assay was performed to test the susceptibility of the isolates to nine commercially available antibiotics, while the genotypic resistant profile was determined for two genes of class 1 integrons and eighteen ARGs belonging to different classes of antibiotics. All isolated bacteria displayed a high prevalence of resistance against all tested antibiotics. These findings provide insights into the emerging risks linked to colonization by potential human opportunistic pathogens on plastic waste commonly found in aquatic ecosystems.

Published
2024
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33. FAST, a method based on split-GFP for the detection in solution of proteins synthesized in cell-free expression systems.

Author

Pham TD, Poletti C, Tientcheu TMN, Cuccioloni M, Spurio R, Fabbretti A, Milon P, and Giuliodori AM

Subjects
Green Fluorescent Proteins metabolism, Fluorescence, Escherichia coli genetics, Escherichia coli metabolism, Coloring Agents metabolism
Abstract

Cell-free protein synthesis (CFPS) systems offer a versatile platform for a wide range of applications. However, the traditional methods for detecting proteins synthesized in CFPS, such as radioactive labeling, fluorescent tagging, or electrophoretic separation, may be impractical, due to environmental hazards, high costs, technical complexity, and time consuming procedures. These limitations underscore the need for new approaches that streamline the detection process, facilitating broader application of CFPS. By harnessing the reassembly capabilities of two GFP fragments-specifically, the GFP1-10 and GFP11 fragments-we have crafted a method that simplifies the detection of in vitro synthesized proteins called FAST (Fluorescent Assembly of Split-GFP for Translation Tests). FAST relies on the fusion of the small tag GFP11 to virtually any gene to be expressed in CFPS. The in vitro synthesized protein:GFP11 can be rapidly detected in solution upon interaction with an enhanced GFP1-10 fused to the Maltose Binding Protein (MBP:GFP1-10). This interaction produces a fluorescent signal detectable with standard fluorescence readers, thereby indicating successful protein synthesis. Furthermore, if required, detection can be coupled with the purification of the fluorescent complex using standardized MBP affinity chromatography. The method's versatility was demonstrated by fusing GFP11 to four distinct E. coli genes and analyzing the resulting protein synthesis in both a homemade and a commercial E. coli CFPS system. Our experiments confirmed that the FAST method offers a direct correlation between the fluorescent signal and the amount of synthesized protein:GFP11 fusion, achieving a sensitivity threshold of 8 ± 2 pmol of polypeptide, with fluorescence plateauing after 4 h. Additionally, FAST enables the investigation of translation inhibition by antibiotics in a dose-dependent manner. In conclusion, FAST is a new method that permits the rapid, efficient, and non-hazardous detection of protein synthesized within CFPS systems and, at the same time, the purification of the target protein., (© 2024. The Author(s).)

Published
2024
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34. Detection of Morganella morganii bound to a plastic substrate in surface water.

Author

Ferheen I, Spurio R, Mancini L, and Marcheggiani S

Subjects
Humans, Ecosystem, Anti-Bacterial Agents pharmacology, Drug Resistance, Multiple, Bacterial genetics, beta-Lactamases genetics, beta-Lactamases metabolism, Morganella morganii genetics, Enterobacteriaceae Infections microbiology
Abstract

Objectives: Around the globe, escalation in rare opportunistic microbial infections is alarming as they are heading steadily towards 'superbug' status. In aquatic ecosystems, plastic fosters multidrug-resistant pathogenic bacteria and plays a significant role in trafficking antibiotic-resistant genes. In this study, we focused on a multidrug-resistant bacterial strain isolated from microbial communities found on plastic substrates of a volcanic lake in central Italy., Methods: Extended-spectrum beta-lactamase-producing strains were isolated from both raw water and plastic substrates for a comparative investigation using microbiological and molecular methods, and antibiotic susceptibility profiling was performed against a panel of ten antibiotics., Results: Molecular identification and Basic Local Alignment Search Tool analysis confirmed an almost identical sequencing pattern of two isolated strains and their homology with Morganella morganii. Antibiotic susceptibility tests revealed their resistance to almost all tested antibiotics. Class 1 integron-associated gene (intI1) and seven antibiotic resistance genes were detected in both strains, confirming their superbug status., Conclusion: To our knowledge, this is the first study on the characterization of extended-spectrum beta-lactamase-producing M. morganii isolated from the biofilm of plastic substrates, depicting the potential toxicity of plastic in harbouring and dispersing virulent, multidrug-resistant, opportunistic human pathogens., Competing Interests: Competing Interests The authors have no conflicts of interest to declare., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2023
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35. The dynamic cycle of bacterial translation initiation factor IF3.

Author

Nakamoto JA, Evangelista W, Vinogradova DS, Konevega AL, Spurio R, Fabbretti A, and Milón P

Subjects
Bacterial Proteins chemistry, Binding Sites, Fluorescence Resonance Energy Transfer, Kinetics, Models, Molecular, Prokaryotic Initiation Factor-1 metabolism, Prokaryotic Initiation Factor-2 metabolism, Prokaryotic Initiation Factor-3 chemistry, Protein Binding, Protein Conformation, Protein Domains, RNA, Transfer, Met metabolism, Ribosome Subunits, Small, Bacterial metabolism, Bacterial Proteins metabolism, Peptide Chain Initiation, Translational, Prokaryotic Initiation Factor-3 metabolism
Abstract

Initiation factor IF3 is an essential protein that enhances the fidelity and speed of bacterial mRNA translation initiation. Here, we describe the dynamic interplay between IF3 domains and their alternative binding sites using pre-steady state kinetics combined with molecular modelling of available structures of initiation complexes. Our results show that IF3 accommodates its domains at velocities ranging over two orders of magnitude, responding to the binding of each 30S ligand. IF1 and IF2 promote IF3 compaction and the movement of the C-terminal domain (IF3C) towards the P site. Concomitantly, the N-terminal domain (IF3N) creates a pocket ready to accept the initiator tRNA. Selection of the initiator tRNA is accompanied by a transient accommodation of IF3N towards the 30S platform. Decoding of the mRNA start codon displaces IF3C away from the P site and rate limits translation initiation. 70S initiation complex formation brings IF3 domains in close proximity to each other prior to dissociation and recycling of the factor for a new round of translation initiation. Altogether, our results describe the kinetic spectrum of IF3 movements and highlight functional transitions of the factor that ensure accurate mRNA translation initiation., (© The Author(s) 2021. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published
2021
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36. Characterization of the Self-Resistance Mechanism to Dityromycin in the Streptomyces Producer Strain.

Author

Fabbretti A, Çapuni R, Giuliodori AM, Cimarelli L, Miano A, Napolioni V, La Teana A, and Spurio R

Subjects
Amino Acid Substitution, Binding Sites, Depsipeptides biosynthesis, Escherichia coli drug effects, Escherichia coli genetics, Mutagenesis, Site-Directed, Protein Biosynthesis, Protein Interaction Domains and Motifs, Ribosomal Proteins genetics, Secondary Metabolism, Streptomyces genetics, Anti-Bacterial Agents pharmacology, Depsipeptides pharmacology, Drug Resistance, Bacterial, Ribosome Subunits, Small, Bacterial genetics, Streptomyces drug effects
Abstract

Dityromycin is a peptide antibiotic isolated from the culture broth of the soil microorganism Streptomyces sp. strain AM-2504. Recent structural studies have shown that dityromycin targets the ribosomal protein S12 in the 30S ribosomal subunit, inhibiting translocation. Herein, by using in vitro protein synthesis assays, we identified the resistance mechanism of the producer strain to the secondary metabolite dityromycin. The results show that the self-resistance mechanism of the Streptomyces sp. strain AM-2504 is due to a specific modification of the ribosome. In particular, two amino acid substitutions, located in a highly conserved region of the S12 protein corresponding to the binding site of the antibiotic, were found. These mutations cause a substantial loss of affinity of the dityromycin for the 30S ribosomal subunit, protecting the producer strain from the toxic effect of the antibiotic. In addition to providing a detailed description of the first mechanism of self-resistance based on a mutated ribosomal protein, this work demonstrates that the molecular determinants of the dityromycin resistance identified in Streptomyces can be transferred to Escherichia coli ribosomes, where they can trigger the same antibiotic resistance mechanism found in the producer strain. IMPORTANCE The World Health Organization has identified antimicrobial resistance as a substantial threat to human health. Because of the emergence of pathogenic bacteria resistant to multiple antibiotics worldwide, there is a need to identify the mode of action of antibiotics and to unravel the basic mechanisms responsible for drug resistance. Antibiotic producers' microorganisms can protect themselves from the toxic effect of the drug using different strategies; one of the most common involves the modification of the antibiotic's target site. In this work, we report a detailed analysis of the molecular mechanism, based on protein modification, devised by the soil microorganism Streptomyces sp. strain AM-2504 to protect itself from the activity of the peptide antibiotic dityromycin. Furthermore, we demonstrate that this mechanism can be reproduced in E. coli , thereby eliciting antibiotic resistance in this human commensal bacterium., (Copyright © 2019 Fabbretti et al.)

Published
2019
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37. Draft Genome Sequence of Streptomyces sp. Strain AM-2504, Identified by 16S rRNA Comparative Analysis as a Streptomyces kasugaensis Strain.

Author

Napolioni V, Cimarelli L, Miano A, La Teana A, Çapuni R, Giuliodori AM, Fabbretti A, and Spurio R

Abstract

We report here the draft genome sequence of Streptomyces sp. strain AM-2504, a microorganism producing a broad range of biotechnologically relevant molecules. The comparative analysis of its 16S rRNA sequence allowed the assignment of this strain to the Streptomyces kasugaensis species, thus fostering functional characterization of the secondary metabolites produced by this microorganism., (Copyright © 2019 Napolioni et al.)

Published
2019
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38. Transcriptional and post-transcriptional events trigger de novo infB expression in cold stressed Escherichia coli.

Author

Brandi A, Giangrossi M, Paoloni S, Spurio R, Giuliodori AM, Pon CL, and Gualerzi CO

Subjects
Cold Temperature, Escherichia coli genetics, Gene Expression Regulation, Bacterial genetics, Protein Biosynthesis genetics, Protein Processing, Post-Translational genetics, RNA Stability genetics, RNA, Messenger genetics, Ribosomes genetics, Cold-Shock Response genetics, Prokaryotic Initiation Factor-2 genetics, Promoter Regions, Genetic genetics, Transcription, Genetic
Abstract

After a 37 to 10°C temperature downshift the level of translation initiation factor IF2, like that of IF1 and IF3, increases at least 3-fold with respect to the ribosomes. To clarify the mechanisms and conditions leading to cold-stress induction of infB expression, the consequences of this temperature shift on infB (IF2) transcription, infB mRNA stability and translation were analysed. The Escherichia coli gene encoding IF2 is part of the metY-nusA-infB operon that contains three known promoters (P-1, P0 and P2) in addition to two promoters P3 and P4 identified in this study, the latter committed to the synthesis of a monocistronic mRNA encoding exclusively IF2. The results obtained indicate that the increased level of IF2 following cold stress depends on three mechanisms: (i) activation of all the promoters of the operon, P-1 being the most cold-responsive, as a likely consequence of the reduction of the ppGpp level that follows cold stress; (ii) a large increase in infB mRNA half-life and (iii) the cold-shock induced translational bias that ensures efficient translation of infB mRNA by the translational apparatus of cold shocked cells. A comparison of the mechanisms responsible for the cold shock induction of the three initiation factors is also presented., (© The Author(s) 2019. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published
2019
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39. Translation initiation factor IF2 contributes to ribosome assembly and maturation during cold adaptation.

Author

Brandi A, Piersimoni L, Feto NA, Spurio R, Alix JH, Schmidt F, and Gualerzi CO

Subjects
Cold Temperature adverse effects, Escherichia coli genetics, Escherichia coli physiology, Protein Biosynthesis genetics, RNA, Messenger genetics, Ribosome Subunits genetics, Ribosomes genetics, Adaptation, Physiological genetics, Cold-Shock Response genetics, Peptide Chain Initiation, Translational, Prokaryotic Initiation Factor-2 genetics
Abstract

Cold-stress in Escherichia coli induces de novo synthesis of translation initiation factors IF1, IF2 and IF3 while ribosome synthesis and assembly slow down. Consequently, the IFs/ribosome stoichiometric ratio increases about 3-fold during the first hours of cold adaptation. The IF1 and IF3 increase plays a role in translation regulation at low temperature (cold-shock-induced translational bias) but so far no specific role could be attributed to the extra copies of IF2. In this work, we show that the extra-copies of IF2 made after cold stress are associated with immature ribosomal subunits together with at least another nine proteins involved in assembly and/or maturation of ribosomal subunits. This finding, coupled with evidence that IF2 is endowed with GTPase-associated chaperone activity that promotes refolding of denatured GFP, and the finding that two cold-sensitive IF2 mutations cause the accumulation of immature ribosomal particles, indicate that IF2 is yet another GTPase protein that participates in ribosome assembly/maturation, especially at low temperatures. Overall, these findings are instrumental in redefining the functional role of IF2, which cannot be regarded as being restricted to its well documented functions in translation initiation of bacterial mRNA., (© The Author(s) 2019. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published
2019
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40. Antibiotics Targeting the 30S Ribosomal Subunit: A Lesson from Nature to Find and Develop New Drugs.

Author

Giuliodori AM, Spurio R, Milón P, and Fabbretti A

Subjects
Anti-Bacterial Agents chemistry, Bacteria chemistry, Biological Products chemistry, Humans, Microbial Sensitivity Tests, Anti-Bacterial Agents pharmacology, Bacteria drug effects, Biological Products pharmacology, Drug Discovery, Ribosome Subunits, Small, Bacterial drug effects
Abstract

The use of antibiotics has revolutionized medicine, greatly improving our capacity to save millions of lives from otherwise deadly bacterial infections. Unfortunately, the health-associated benefits provided by antibiotics have been counteracted by bacteria developing or acquiring resistance mechanisms. The negative impact to public health is now considered of high risk due to the rapid spreading of multi-resistant strains. More than 60 % of clinically relevant antibiotics of natural origin target the ribosome, the supramolecular enzyme which translates the genetic information into proteins. Although many of these antibiotics bind the small ribosomal subunit, only a few are reported to inhibit the initiation of protein synthesis, with none reaching commercial availability. Counterintuitively, translation initiation is the most divergent phase of protein synthesis between prokaryotes and eukaryotes, a fact which is a solid premise for the successful identification of drugs with reduced probability of undesired effects to the host. Such a paradox is one of its kind and deserves special attention. In this review, we explore the inhibitors that bind the 30S ribosomal subunit focusing on both the compounds with proved effects on the translation initiation step and the underreported translation initiation inhibitors. In addition, we explore recent screening tests and approaches to discover new drugs targeting translation., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2018
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41. Development of a graphene oxide-based assay for the sequence-specific detection of double-stranded DNA molecules.

Author

Giuliodori AM, Brandi A, Kotla S, Perrozzi F, Gunnella R, Ottaviano L, Spurio R, and Fabbretti A

Subjects
Fluorescence, Fluorescent Dyes, Biosensing Techniques methods, DNA isolation & purification, Graphite chemistry, Oxides chemistry, Polymerase Chain Reaction methods
Abstract

Graphene oxide (GO) is a promising material for the development of cost-effective detection systems. In this work, we have devised a simple and rapid GO-based method for the sequence-specific identification of DNA molecules generated by PCR amplification. The csp genes of Escherichia coli, which share a high degree of sequence identity, were selected as paradigm DNA templates. All tested csp genes were amplified with unlabelled primers, which can be rapidly removed at the end of the PCR taking advantage of the preferential binding to GO of single-stranded versus duplex DNA molecules. The amplified DNAs (targets) were heat-denatured and hybridized to a fluorescently-labelled single strand oligonucleotide (probe), which recognizes a region of the target DNAs displaying sequence variability. This interaction is extremely specific, taking place with high efficiency only when target and probe show perfect or near perfect matching. Upon GO addition, the unbound fraction of the probe was captured and its fluorescence quenched by the GO's molecular properties. On the other hand, the probe-target complexes remained in solution and emitted a fluorescent signal whose intensity was related to their degree of complementarity.

Published
2017
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42. Monitoring of freshwater toxins in European environmental waters by using novel multi-detection methods.

Author

Rodriguez I, Fraga M, Alfonso A, Guillebault D, Medlin L, Baudart J, Jacob P, Helmi K, Meyer T, Breitenbach U, Holden NM, Boots B, Spurio R, Cimarelli L, Mancini L, Marcheggiani S, Albay M, Akcaalan R, Köker L, and Botana LM

Subjects
Alkaloids, Bacterial Toxins analysis, Bacterial Toxins chemistry, Bridged Bicyclo Compounds, Heterocyclic analysis, Bridged Bicyclo Compounds, Heterocyclic chemistry, Chromatography, Liquid methods, Cyanobacteria growth & development, Cyanobacteria Toxins, Environmental Monitoring instrumentation, Eutrophication, Flow Cytometry, France, Germany, Italy, Limit of Detection, Marine Toxins, Microcystins chemistry, Molecular Structure, Peptides, Cyclic analysis, Peptides, Cyclic chemistry, Tandem Mass Spectrometry methods, Tropanes analysis, Tropanes chemistry, Turkey, Uracil analogs & derivatives, Uracil analysis, Uracil chemistry, Water Pollutants, Chemical chemistry, Environmental Monitoring methods, Fresh Water chemistry, Microcystins analysis, Water Pollutants, Chemical analysis
Abstract

Monitoring the quality of freshwater is an important issue for public health. In the context of the European project μAqua, 150 samples were collected from several waters in France, Germany, Ireland, Italy, and Turkey for 2 yr. These samples were analyzed using 2 multitoxin detection methods previously developed: a microsphere-based method coupled to flow-cytometry, and an ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) method. The presence of microcystins, nodularin, domoic acid, cylindrospermopsin, and several analogues of anatoxin-a (ATX-a) was monitored. No traces of cylindrospermopsin or domoic acid were found in any of the environmental samples. Microcystin-LR and microcystin-RR were detected in 2 samples from Turkey and Germany. In the case of ATX-a derivatives, 75% of samples contained mainly H 2 -ATX-a and small amounts of H 2 -homoanatoxin-a, whereas ATX-a and homoanatoxin-a were found in only 1 sample. These results confirm the presence and wide distribution of dihydro derivatives of ATX-a toxins in European freshwaters. Environ Toxicol Chem 2017;36:645-654. © 2016 SETAC., (© 2016 SETAC.)

Published
2017
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43. Detection of Human Enteric Viruses in Freshwater from European Countries.

Author

D'Ugo E, Marcheggiani S, Fioramonti I, Giuseppetti R, Spurio R, Helmi K, Guillebault D, Medlin LK, Simeonovski I, Boots B, Breitenbach U, Koker L, Albay M, and Mancini L

Subjects
Enterovirus classification, Enterovirus genetics, Europe, Humans, Polymerase Chain Reaction, Enterovirus isolation & purification, Lakes virology, Rivers virology
Abstract

The transmission of water-borne pathogens typically occurs by a faecal-oral route, through inhalation of aerosols, or by direct or indirect contact with contaminated water. Previous molecular-based studies have identified viral particles of zoonotic and human nature in surface waters. Contaminated water can lead to human health issues, and the development of rapid methods for the detection of pathogenic microorganisms is a valuable tool for the prevention of their spread. The aims of this work were to determine the presence and identity of representative human pathogenic enteric viruses in water samples from six European countries by quantitative polymerase chain reaction (q-PCR) and to develop two quantitative PCR methods for Adenovirus 41 and Mammalian Orthoreoviruses. A 2-year survey showed that Norovirus, Mammalian Orthoreovirus and Adenoviruses were the most frequently identified enteric viruses in the sampled surface waters. Although it was not possible to establish viability and infectivity of the viruses considered, the detectable presence of pathogenic viruses may represent a potential risk for human health. The methodology developed may aid in rapid detection of these pathogens for monitoring quality of surface waters.

Published
2016
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44. Compaction of isolated Escherichia coli nucleoids: Polymer and H-NS protein synergetics.

Author

Wegner AS, Wintraecken K, Spurio R, Woldringh CL, de Vries R, and Odijk T

Subjects
Algorithms, DNA, Bacterial chemistry, DNA, Bacterial genetics, Escherichia coli chemistry, Escherichia coli genetics, Escherichia coli Proteins chemistry, Escherichia coli Proteins genetics, Fimbriae Proteins chemistry, Fimbriae Proteins genetics, Kinetics, Microscopy, Fluorescence, Plasmids chemistry, Plasmids genetics, Plasmids metabolism, Polyethylene Glycols chemistry, Polyethylene Glycols metabolism, Polymers chemistry, Protein Binding, DNA, Bacterial metabolism, Escherichia coli metabolism, Escherichia coli Proteins metabolism, Fimbriae Proteins metabolism, Polymers metabolism
Abstract

Escherichia coli nucleoids were compacted by the inert polymer polyethylene glycol (PEG) in the presence of the H-NS protein. The protein by itself appears to have little impact on the size of the nucleoids as determined by fluorescent microscopy. However, it has a significant impact on the nucleoidal collapse by PEG. This is quantitatively explained by assuming the H-NS protein enhances the effective diameter of the DNA helix leading to an increase in the depletion forces induced by the PEG. Ultimately, however, the free energy of the nucleoid itself turns out to be independent of the H-NS concentration. This is because the enhancement of the supercoil excluded volume is negligible. The experiments on the nucleoids are corroborated by dynamic light scattering and EMSA analyses performed on DNA plasmids in the presence of PEG and H-NS., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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45. A Derivative of the Thiopeptide GE2270A Highly Selective against Propionibacterium acnes.

Author

Fabbretti A, He CG, Gaspari E, Maffioli S, Brandi L, Spurio R, Sosio M, Jabes D, and Donadio S

Subjects
Administration, Topical, Clindamycin pharmacology, Drug Resistance, Microbial drug effects, Microbial Sensitivity Tests methods, Peptide Elongation Factor Tu metabolism, Propionibacterium acnes metabolism, Skin microbiology, Anti-Bacterial Agents pharmacology, Peptides, Cyclic pharmacology, Propionibacterium acnes drug effects, Thiazoles pharmacology
Abstract

A chemical derivative of the thiopeptide GE2270A, designated NAI003, was found to possess a substantially reduced antibacterial spectrum in comparison to the parent compound, being active against just a few Gram-positive bacteria. In particular, NAI003 retained low MICs against all tested isolates of Propionibacterium acnes and, to a lesser extent, against Enterococcus faecalis. Furthermore, NAI003 showed a time- and dose-dependent killing of both a clindamycin-resistant and a clindamycin-sensitive P. acnes isolate. Gel shift experiments indicated that, like the parent compound, NAI003 retained the ability to bind to elongation factors Tu (EF-Tus) derived from Escherichia coli, E. faecalis, or P. acnes, albeit with reduced efficiency. In contrast, EF-Tus derived from the NAI003-insensitive Staphylococcus aureus or Streptococcus pyogenes did not bind this compound. These results were confirmed by in vitro studies using a hybrid translation system, which indicated that NAI003 can inhibit most efficiently protein synthesis driven by the P. acnes EF-Tu. P. acnes mutants resistant to NAI003 were isolated by direct plating. With one exception, all analyzed strains carried mutations in the tuf gene, encoding EF-Tu. Because of its selective effect on P. acnes in comparison to resident skin flora, NAI003 represents a promising candidate for the topical treatment of acne, which has already completed a phase 1 clinical study., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published
2015
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46. SaDA: From Sampling to Data Analysis-An Extensible Open Source Infrastructure for Rapid, Robust and Automated Management and Analysis of Modern Ecological High-Throughput Microarray Data.

Author

Singh KS, Thual D, Spurio R, and Cannata N

Subjects
Ecology methods, Environmental Monitoring methods, Environmental Microbiology, Information Management methods, Microarray Analysis, Software
Abstract

One of the most crucial characteristics of day-to-day laboratory information management is the collection, storage and retrieval of information about research subjects and environmental or biomedical samples. An efficient link between sample data and experimental results is absolutely important for the successful outcome of a collaborative project. Currently available software solutions are largely limited to large scale, expensive commercial Laboratory Information Management Systems (LIMS). Acquiring such LIMS indeed can bring laboratory information management to a higher level, but most of the times this requires a sufficient investment of money, time and technical efforts. There is a clear need for a light weighted open source system which can easily be managed on local servers and handled by individual researchers. Here we present a software named SaDA for storing, retrieving and analyzing data originated from microorganism monitoring experiments. SaDA is fully integrated in the management of environmental samples, oligonucleotide sequences, microarray data and the subsequent downstream analysis procedures. It is simple and generic software, and can be extended and customized for various environmental and biomedical studies.

Published
2015
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47. Detection of emerging and re-emerging pathogens in surface waters close to an urban area.

Author

Marcheggiani S, D'Ugo E, Puccinelli C, Giuseppetti R, D'Angelo AM, Gualerzi CO, Spurio R, Medlin LK, Guillebault D, Baudart-Lenfant J, Weigel W, Helmi K, and Mancini L

Subjects
Bacteria genetics, Communicable Diseases, Emerging microbiology, Enterovirus genetics, Fresh Water, Humans, Phylogeny, Polymerase Chain Reaction methods, Rivers parasitology, Viruses genetics, Viruses isolation & purification, Bacteria isolation & purification, Enterovirus isolation & purification, Microarray Analysis methods, Rivers microbiology, Water Microbiology
Abstract

Current knowledge about the spread of pathogens in aquatic environments is scarce probably because bacteria, viruses, algae and their toxins tend to occur at low concentrations in water, making them very difficult to measure directly. The purpose of this study was the development and validation of tools to detect pathogens in freshwater systems close to an urban area. In order to evaluate anthropogenic impacts on water microbiological quality, a phylogenetic microarray was developed in the context of the EU project µAQUA to detect simultaneously numerous pathogens and applied to samples from two different locations close to an urban area located upstream and downstream of Rome in the Tiber River. Furthermore, human enteric viruses were also detected. Fifty liters of water were collected and concentrated using a hollow-fiber ultrafiltration approach. The resultant concentrate was further size-fractionated through a series of decreasing pore size filters. RNA was extracted from pooled filters and hybridized to the newly designed microarray to detect pathogenic bacteria, protozoa and toxic cyanobacteria. Diatoms as indicators of the water quality status, were also included in the microarray to evaluate water quality. The microarray results gave positive signals for bacteria, diatoms, cyanobacteria and protozoa. Cross validation of the microarray was performed using standard microbiological methods for the bacteria. The presence of oral-fecal transmitted human enteric-viruses were detected using q-PCR. Significant concentrations of Salmonella, Clostridium, Campylobacter and Staphylococcus as well as Hepatitis E Virus (HEV), noroviruses GI (NoGGI) and GII (NoGII) and human adenovirus 41 (ADV 41) were found in the Mezzocammino site, whereas lower concentrations of other bacteria and only the ADV41 virus was recovered at the Castel Giubileo site. This study revealed that the pollution level in the Tiber River was considerably higher downstream rather than upstream of Rome and the downstream location was contaminated by emerging and re-emerging pathogens.

Published
2015
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48. Molecular tools for the selective detection of nine diatom species biomarkers of various water quality levels.

Author

Cimarelli L, Singh KS, Mai NT, Dhar BC, Brandi A, Brandi L, and Spurio R

Subjects
Base Sequence, Diatoms classification, Diatoms genetics, Fresh Water, Italy, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Water Quality, Biomarkers analysis, Diatoms isolation & purification, Oligonucleotide Array Sequence Analysis methods, Peptide Elongation Factor 1 genetics
Abstract

Our understanding of the composition of diatom communities and their response to environmental changes is currently limited by laborious taxonomic identification procedures. Advances in molecular technologies are expected to contribute more efficient, robust and sensitive tools for the detection of these ecologically relevant microorganisms. There is a need to explore and test phylogenetic markers as an alternative to the use of rRNA genes, whose limited sequence divergence does not allow the accurate discrimination of diatoms at the species level. In this work, nine diatom species belonging to eight genera, isolated from epylithic environmental samples collected in central Italy, were chosen to implement a panel of diatoms covering the full range of ecological status of freshwaters. The procedure described in this work relies on the PCR amplification of specific regions in two conserved diatom genes, elongation factor 1-a (eEF1-a) and silicic acid transporter (SIT), as a first step to narrow down the complexity of the targets, followed by microarray hybridization experiments. Oligonucleotide probes with the potential to discriminate closely related species were designed taking into account the genetic polymorphisms found in target genes. These probes were tested, refined and validated on a small-scale prototype DNA chip. Overall, we obtained 17 highly specific probes targeting eEF1-a and SIT, along with 19 probes having lower discriminatory power recognizing at the same time two or three species. This basic array was validated in a laboratory setting and is ready for tests with crude environmental samples eventually to be scaled-up to include a larger panel of diatoms. Its possible use for the simultaneous detection of diatoms selected from the classes of water quality identified by the European Water Framework Directive is discussed.

Published
2015
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49. Molecular detection of a potentially toxic diatom species.

Author

Dhar BC, Cimarelli L, Singh KS, Brandi L, Brandi A, Puccinelli C, Marcheggiani S, and Spurio R

Subjects
Italy, Mediterranean Sea, Oligonucleotide Probes, Diatoms isolation & purification, Oligonucleotide Array Sequence Analysis methods
Abstract

A few diatom species produce toxins that affect human and animal health. Among these, members of the Pseudo-nitzschia genus were the first diatoms unambiguously identified as producer of domoic acid, a neurotoxin affecting molluscan shell-fish, birds, marine mammals, and humans. Evidence exists indicating the involvement of another diatom genus, Amphora, as a potential producer of domoic acid. We present a strategy for the detection of the diatom species Amphora coffeaeformis based on the development of species-specific oligonucleotide probes and their application in microarray hybridization experiments. This approach is based on the use of two marker genes highly conserved in all diatoms, but endowed with sufficient genetic divergence to discriminate diatoms at the species level. A region of approximately 450 bp of these previously unexplored marker genes, coding for elongation factor 1-a (eEF1-a) and silicic acid transporter (SIT), was used to design oligonucleotide probes that were tested for specificity in combination with the corresponding fluorescently labeled DNA targets. The results presented in this work suggest a possible use of this DNA chip technology for the selective detection of A. coffeaeformis in environmental settings where the presence of this potential toxin producer may represent a threat to human and animal health. In addition, the same basic approach can be adapted to a wider range of diatoms for the simultaneous detection of microorganisms used as biomarkers of different water quality levels.

Published
2015
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50. Engineering color variants of green fluorescent protein (GFP) for thermostability, pH-sensitivity, and improved folding kinetics.

Author

Aliye N, Fabbretti A, Lupidi G, Tsekoa T, and Spurio R

Subjects
Green Fluorescent Proteins chemistry, Hydrogen-Ion Concentration, Molecular Sequence Data, Mutagenesis, Site-Directed, Protein Stability, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Analysis, DNA, Temperature, Color, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Protein Folding
Abstract

A number of studies have been conducted to improve chromophore maturation, folding kinetics, thermostability, and other traits of green fluorescent protein (GFP). However, no specific work aimed at improving the thermostability of the yellow fluorescent protein (YFP) and of the pH-sensitive, yet thermostable color variants of GFP has so far been done. The protein variants reported in this study were improved through rational multiple site-directed mutagenesis of GFP (ASV) by introducing up to ten point mutations including the mutations near and at the chromophore region. Therefore, we report the development and characterization of fast folder and thermo-tolerant green variant (FF-GFP), and a fast folder thermostable yellow fluorescent protein (FFTS-YFP) endowed with remarkably improved thermostability and folding kinetics. We demonstrate that the fluorescence intensity of this yellow variant is not affected by heating at 75 °C. Moreover, we have developed a pH-unresponsive cyan variant AcS-CFP, which has potential use as part of in vivo imaging irrespective of intracellular pH. The combined improved properties make these fluorescent variants ideal tools to study protein expression and function under different pH environments, in mesophiles and thermophiles. Furthermore, coupling of the FFTS-YFP and AcS-CFP could potentially serve as an ideal tool to perform functional analysis of live cells by multicolor labeling.

Published
2015
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