Your search keyword '"Federica Calabrese"' showing total 25 results

1. Outcomes of lumen apposing metal stent placement in patients with surgically altered anatomy: Multicenter international experience

Author

Benedetto Mangiavillano, Daryl Ramai, Michel Kahaleh, Amy Tyberg, Haroon Shahid, Avik Sarkar, Jayanta Samanta, Jahnvi Dhar, Michiel Bronswijk, Schalk Van der Merwe, Abdul Kouanda, Hyun Ji, Sun-Chuan Dai, Pierre Deprez, Jorge Vargas-Madrigal, Giuseppe Vanella, Roberto Leone, Paolo Giorgio Arcidiacono, Carlos Robles-Medranda, Juan Alcivar Vasquez, Martha Arevalo-Mora, Alessandro Fugazza, Christopher Ko, John Morris, Andrea Lisotti, Pietro Fusaroli, Amaninder Dhaliwal, Massimiliano Mutignani, Edoardo Forti, Irene Cottone, Alberto Larghi, Gianenrico Rizzatti, Domenico Galasso, Carmelo Barbera, Francesco Maria Di Matteo, Serena Stigliano, Cecilia Binda, Carlo Fabbri, Khanh Do-Cong Pham, Roberto Di Mitri, Michele Amata, Stefano Francesco Crinó, Andrew Ofosu, Luca De Luca, Abed Al-Lehibi, Francesco Auriemma, Danilo Paduano, Federica Calabrese, Carmine Gentile, Cesare Hassan, Alessandro Repici, and Antonio Facciorusso

Subjects

Endoscopy Lower GI Tract, Stenting, Endoscopy Small Bowel, Endoscopic ultrasonography, Diseases of the digestive system. Gastroenterology, RC799-869

Published

2024

2. Correction: Outcomes of lumen apposing metal stent placement in patients with surgically altered anatomy: Multicenter international experience

Author

Benedetto Mangiavillano, Daryl Ramai, Michel Kahaleh, Amy Tyberg, Haroon Shahid, Avik Sarkar, Jayanta Samanta, Jahnvi Dhar, Michiel Bronswijk, Schalk Van der Merwe, Abdul Kouanda, Hyun Ji, Sun-Chuan Dai, Pierre Deprez, Jorge Vargas-Madrigal, Giuseppe Vanella, Roberto Leone, Paolo Giorgio Arcidiacono, Carlos Robles-Medranda, Juan Alcivar Vasquez, Martha Arevalo-Mora, Alessandro Fugazza, Christopher Ko, John Morris, Andrea Lisotti, Pietro Fusaroli, Amaninder Dhaliwal, Massimiliano Mutignani, Edoardo Forti, Irene Cottone, Alberto Larghi, Gianenrico Rizzatti, Domenico Galasso, Carmelo Barbera, Francesco Maria Di Matteo, Serena Stigliano, Cecilia Binda, Carlo Fabbri, Khanh Do-Cong Pham, Roberto Di Mitri, Michele Amata, Stefano Francesco Crinó, Andrew Ofosu, Luca De Luca, Abed Al-Lehibi, Francesco Auriemma, Danilo Paduano, Federica Calabrese, Carmine Gentile, Cesare Hassan, Alessandro Repici, and Antonio Facciorusso

Subjects

Diseases of the digestive system. Gastroenterology, RC799-869

Published

2024

3. Establishing the optimal number of passes during EUS-FNB for diagnosis of pancreatic solid lesions: Prospective multicenter study

Author

Benedetto Mangiavillano, Antonio Facciorusso, Francesco Maria Di Matteo, Carmelo Barbera, Alberto Larghi, Gianenrico Rizzatti, Silvia Carrara, Andrea Lisotti, Pietro Fusaroli, Luca De Luca, Milena Di Leo, Maria Cristina Conti Bellocchi, Marco Spadaccini, Emanuele Dabizzi, Francesco Auriemma, Serena Stigliano, Daryl Ramai, Federica Calabrese, Erminia Manfrin, Danilo Paduano, Cesare Hassan, Alessandro Repici, and Stefano Francesco Crinó

Subjects

Pancreas, Endoscopic ultrasonography, Fine-needle aspiration/biopsy, Diseases of the digestive system. Gastroenterology, RC799-869

Published

2024

4. Efficient carbon and nitrogen transfer from marine diatom aggregates to colonizing bacterial groups

Author

Nestor Arandia-Gorostidi, Hugo Berthelot, Federica Calabrese, Hryhoriy Stryhanyuk, Isabell Klawonn, Morten Iversen, Nurun Nahar, Hans-Peter Grossart, Helle Ploug, and Niculina Musat

Subjects

Medicine, Science

Abstract

Abstract Bacterial degradation of sinking diatom aggregates is key for the availability of organic matter in the deep-ocean. Yet, little is known about the impact of aggregate colonization by different bacterial taxa on organic carbon and nutrient cycling within aggregates. Here, we tracked the carbon (C) and nitrogen (N) transfer from the diatom Leptocylindrus danicus to different environmental bacterial groups using a combination of 13C and 15N isotope incubation (incubated for 72 h), CARD-FISH and nanoSIMS single-cell analysis. Pseudoalteromonas bacterial group was the first colonizing diatom-aggregates, succeeded by the Alteromonas group. Within aggregates, diatom-attached bacteria were considerably more enriched in 13C and 15N than non-attached bacteria. Isotopic mass balance budget indicates that both groups showed comparable levels of diatom C in their biomass, accounting for 19 ± 7% and 15 ± 11%, respectively. In contrast to C, bacteria of the Alteromonas groups showed significantly higher levels of N derived from diatoms (77 ± 28%) than Pseudoalteromonas (47 ± 17%), suggesting a competitive advantage for Alteromonas in the N-limiting environments of the deep-sea. Our results imply that bacterial succession within diatom aggregates may largely impact taxa-specific C and N uptake, which may have important consequences for the quantity and quality of organic matter exported to the deep ocean.

Published

2022

5. Correction: High resolution microscopy to evaluate the efficiency of surface sterilization of Zea Mays seeds.

Author

Yalda Davoudpour, Matthias Schmidt, Federica Calabrese, Hans Hermann Richnow, and Niculina Musat

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0242247.].

Published

2023

6. The Use of a New Dedicated Electrocautery Lumen-Apposing Metal Stent for Gallbladder Drainage in Patients with Acute Cholecystitis

Author

Luca Brandaleone, Gianluca Franchellucci, Antonio Facciorusso, Jayanta Samanta, Jong Ho Moon, Jorge Vargas-Madrigal, Carlos Robles Medranda, Carmelo Barbera, Francesco Di Matteo, Milutin Bulajic, Francesco Auriemma, Danilo Paduano, Federica Calabrese, Carmine Gentile, Marco Massidda, Marco Bianchi, Luca De Luca, Davide Polverini, Benedetta Masoni, Valeria Poletti, Giacomo Marcozzi, Cesare Hassan, Alessandro Repici, and Benedetto Mangiavillano

Subjects

new dedicated lumen-apposing metal stent (LAMS), acute cholecystitis, therapeutic endoscopic ultrasonography, Medicine (General), R5-920

Abstract

Aims: Lumen-apposing metal stents (LAMSs) in ultrasonography-guided gallbladder drainage (EUS-GBD) have become increasingly important for high-risk surgical patients. Our study aims to evaluate the technical and clinical success, safety, and feasibility of endoscopic ultrasonography-guided gallbladder drainage using a new dedicated LAMS. Methods: This is a retrospective multicenter study that included all consecutive patients not suitable for surgery who were referred to a tertiary center for EUS-GBD using a new dedicated electrocautery LAMS for acute cholecystitis at eight different centers. Results: Our study included 54 patients with a mean age of 76.48 years (standard deviation: 12.6 years). Out of the 54 endoscopic gallbladder drainages performed, 24 (44.4%) were cholecysto-gastrostomy, and 30 (55.4%) were cholecysto-duodenostomy. The technical success of LAMS placement was 100%, and clinical success was achieved in 23 out of 30 patients (76.67%). Adverse events were observed in two patients (5.6%). Patients were discharged after a median of 5 days post-stenting. Conclusions: EUS-GBD represents a valuable option for high-surgical-risk patients with acute cholecystitis. This new dedicated LAMS has demonstrated a high rate of technical and clinical success, along with a high level of safety.

Published

2023

7. New Perspectives in Endoscopic Treatment of Gastroesophageal Reflux Disease

Author

Federica Calabrese, Valeria Poletti, Francesco Auriemma, Danilo Paduano, Carmine Gentile, Antonio Facciorusso, Gianluca Franchellucci, Alessandro De Marco, Luca Brandaleone, Andrew Ofosu, Jayanta Samanta, Daryl Ramai, Luca De Luca, Abed Al-Lehibi, Walter Zuliani, Cesare Hassan, Alessandro Repici, and Benedetto Mangiavillano

Subjects

gastroesophageal reflux disease (GERD), transoral incisionless fundoplication (TIF), anti-reflux mucosal interventions (ARMI), anti-reflux mucosal resection (ARMS), anti-reflux mucosal ablation (ARMA), Medicine (General), R5-920

Abstract

Gastroesophageal reflux disease has a high incidence and prevalence in the general population. Clinical manifestations are heterogenous, and so is the response to medical treatment. Proton pump inhibitors are still the most common agents used to control reflux symptoms and for healing esophagitis, but they are not a one-size-fits-all solution for the disease. Patients with persistent troublesome symptoms despite medical therapy, those experiencing some adverse drug reaction, or those unwilling to take lifelong medications deserve valid alternatives. Anti-reflux Nissen fundoplication is an effective option, but the risk of adverse events has limited its spread. In recent years, advancements in therapeutic endoscopy have been made, and three major endoluminal alternatives are now available, including (1) the delivery of radiofrequency energy to the esophago–gastric junction, (2) transoral incisionless fundoplication (TIF), and (3) anti-reflux mucosal interventions (ARMI) based on mucosal resection (ARMS) and mucosal ablation (ARMA) techniques to remodel the cardia. Endoscopic techniques have shown interesting results, but their diffusion is still limited to expert endoscopists in tertiary centers. This review discusses the state of the art in the endoscopic approach to gastroesophageal reflux disease.

Published

2023

8. Contrast Enhanced EUS for Predicting Solid Pancreatic Neuroendocrine Tumor Grade and Aggressiveness

Author

Gianluca Franchellucci, Marta Andreozzi, Silvia Carrara, Luca De Luca, Francesco Auriemma, Danilo Paduano, Federica Calabrese, Antonio Facciorusso, Valeria Poletti, Alessandro Zerbi, Andrea Gerardo Lania, Alexia Francesca Bertuzzi, Paola Spaggiari, Vittorio Pedicini, Marcello Rodari, Pietro Fusaroli, Andrea Lisotti, Andrew Ofosu, Alessandro Repici, and Benedetto Mangiavillano

Subjects

EUS, CE-EUS, CH-EUS, PNET, aggressiveness, grading, Medicine (General), R5-920

Abstract

Pancreatic neuroendocrine tumor (PNET) behavior assessment is a daily challenge for physicians. Modern PNET management varies from a watch-and-wait strategy to surgery depending on tumor aggressiveness. Therefore, the aggressiveness definition plays a pivotal role in the PNET work-up. The aggressiveness of PNETs is mainly based on the dimensions and histological grading, with sometimes a lack of specificity and sensibility. In the last twenty years, EUS has become a cornerstone in the diagnostic phase of PNET management for its high diagnostic yield and the possibility of obtaining a histological specimen. The number of EUS applications in the PNET work-up has been rapidly increasing with new and powerful possibilities. The application of contrast has led to an important step in PNET detection; in recent years, it has been gaining interesting applications in aggressiveness assessment. In this review, we underline the latest experiences and opportunities in the behavior assessment of PNETs using contact-enhanced EUS and contested enhanced harmonic EUS with a particular focus on the future application and possibility that these techniques could provide.

Published

2023

9. High resolution microscopy to evaluate the efficiency of surface sterilization of Zea Mays seeds.

Author

Yalda Davoudpour, Matthias Schmidt, Federica Calabrese, Hans Hermann Richnow, and Niculina Musat

Subjects

Medicine, Science

Abstract

Surface sterilization of seeds is a key step in providing microorganisms-free seeds for numerous applications like understanding the role of seed-borne microorganisms in plant development, studying microbial cells-plant interactions by inoculating model microorganisms in a simplified system or selective cultivation of seed endobionts. However applying efficient treatment for surface sterilization of seeds without affecting the plant growth is not an easy task. In this study we aimed to provide an efficient surface sterilization treatment for maize seeds using i) hydrogen peroxide (HP), ii) sodium hypochlorite (SH) and iii) ethanol-sodium hypochlorite (EtOH-SH) under stirring (st) and vacuum-stirring (va-st) conditions. We used fluorescence microscopy and ultra-high resolution Helium Ion Microscopy (HIM) as powerful imaging approaches in combination with macroscopic techniques to visualize, quantify and evaluate the efficiency of seed sterilization, quality of root germination, seedlings and root hair development as well as the presence or absence of microorganisms on the root surface. Our results showed a strong reduction in microbial cell numbers of 4 orders of magnitude after the EtOH-SH treatments. Moreover, seeds exposed to EtOH-SH treatments displayed the lowest percentage of microbial growth (50%) and the highest percentage of germinated seeds (100%) compared to other sterilization treatments. HIM imaging proved the absence of microbial cells on the roots grown from seeds exposed to EtOH-SH treatments. Moreover, root hair development seemed not to be affected by any of the sterilization treatments. Our findings demonstrated that EtOH-SH treatments are significantly reducing the abundance of microbial cells from the surface of maize seeds and can be used with high confidence in future studies.

Published

2020

10. Quantitation and Comparison of Phenotypic Heterogeneity Among Single Cells of Monoclonal Microbial Populations

Author

Federica Calabrese, Iryna Voloshynovska, Florin Musat, Martin Thullner, Michael Schlömann, Hans H. Richnow, Johannes Lambrecht, Susann Müller, Lukas Y. Wick, Niculina Musat, and Hryhoriy Stryhanyuk

Subjects

phenotypic heterogeneity, single-cell resolution, SIP–nanoSIMS, anabolic activity, flow cytometry, multimodality, Microbiology, QR1-502

Abstract

Phenotypic heterogeneity within microbial populations arises even when the cells are exposed to putatively constant and homogeneous conditions. The outcome of this phenomenon can affect the whole function of the population, resulting in, for example, new “adapted” metabolic strategies and impacting its fitness at given environmental conditions. Accounting for phenotypic heterogeneity becomes thus necessary, due to its relevance in medical and applied microbiology as well as in environmental processes. Still, a comprehensive evaluation of this phenomenon requires a common and unique method of quantitation, which allows for the comparison between different studies carried out with different approaches. Consequently, in this study, two widely applicable indices for quantitation of heterogeneity were developed. The heterogeneity coefficient (HC) is valid when the population follows unimodal activity, while the differentiation tendency index (DTI) accounts for heterogeneity implying outbreak of subpopulations and multimodal activity. We demonstrated the applicability of HC and DTI for heterogeneity quantitation on stable isotope probing with nanoscale secondary ion mass spectrometry (SIP–nanoSIMS), flow cytometry, and optical microscopy datasets. The HC was found to provide a more accurate and precise measure of heterogeneity, being at the same time consistent with the coefficient of variation (CV) applied so far. The DTI is able to describe the differentiation in single-cell activity within monoclonal populations resolving subpopulations with low cell abundance, individual cells with similar phenotypic features (e.g., isotopic content close to natural abundance, as detected with nanoSIMS). The developed quantitation approach allows for a better understanding on the impact and the implications of phenotypic heterogeneity in environmental, medical and applied microbiology, microbial ecology, cell biology, and biotechnology.

Published

2019

11. Calculation of Single Cell Assimilation Rates From SIP-NanoSIMS-Derived Isotope Ratios: A Comprehensive Approach

Author

Hryhoriy Stryhanyuk, Federica Calabrese, Steffen Kümmel, Florin Musat, Hans H. Richnow, and Niculina Musat

Subjects

nanoSIMS, single cell, assimilation rate, functional heterogeneity, stable isotope probing, isotope ratio, Microbiology, QR1-502

Abstract

The nanoSIMS-based chemical microscopy has been introduced in biology over a decade ago. The spatial distribution of elements and isotopes analyzed by nanoSIMS can be used to reconstruct images of biological samples with a resolution down to tens of nanometers, and can be also interpreted quantitatively. Currently, a unified approach for calculation of single cell assimilation rates from nanoSIMS-derived changes in isotope ratios is missing. Here we present a comprehensive concept of assimilation rate calculation with a rigorous mathematical model based on quantitative evaluation of nanoSIMS-derived isotope ratios. We provide a detailed description of data acquisition and treatment, including the selection and accumulation of nanoSIMS scans, defining regions of interest and extraction of isotope ratios. Next, we present alternative methods to determine the cellular volume and the density of the element under scrutiny. Finally, to compensate for alterations of original isotopic ratios, our model considers corrections for sample preparation methods (e.g., air dry, chemical fixation, permeabilization, hybridization), and when known, for the stable isotope fractionation associated with utilization of defined growth substrates. As proof of concept we implemented this protocol to quantify the assimilation of 13C-labeled glucose by single cells of Pseudomonas putida. In addition, we provide a calculation template where all protocol-derived formulas are directly available to facilitate routine assimilation rate calculations by nanoSIMS users.

Published

2018

12. Conductive Particles Enable Syntrophic Acetate Oxidation between Geobacter and Methanosarcina from Coastal Sediments

Author

Amelia-Elena Rotaru, Federica Calabrese, Hryhoriy Stryhanyuk, Florin Musat, Pravin Malla Shrestha, Hannah Sophia Weber, Oona L. O. Snoeyenbos-West, Per O. J. Hall, Hans H. Richnow, Niculina Musat, and Bo Thamdrup

Subjects

Desulfuromonadales, Geobacter, Methanosarcina, nanoSIMS, activated carbon, competitive exclusion, Microbiology, QR1-502

Abstract

ABSTRACT Coastal sediments are rich in conductive particles, possibly affecting microbial processes for which acetate is a central intermediate. In the methanogenic zone, acetate is consumed by methanogens and/or syntrophic acetate-oxidizing (SAO) consortia. SAO consortia live under extreme thermodynamic pressure, and their survival depends on successful partnership. Here, we demonstrate that conductive particles enable the partnership between SAO bacteria (i.e., Geobacter spp.) and methanogens (Methanosarcina spp.) from the coastal sediments of the Bothnian Bay of the Baltic Sea. Baltic methanogenic sediments were rich in conductive minerals, had an apparent isotopic fractionation characteristic of CO2-reductive methanogenesis, and were inhabited by Geobacter and Methanosarcina. As long as conductive particles were delivered, Geobacter and Methanosarcina persisted, whereas exclusion of conductive particles led to the extinction of Geobacter. Baltic Geobacter did not establish a direct electric contact with Methanosarcina, necessitating conductive particles as electrical conduits. Within SAO consortia, Geobacter was an efficient [13C]acetate utilizer, accounting for 82% of the assimilation and 27% of the breakdown of acetate. Geobacter benefits from the association with the methanogen, because in the absence of an electron acceptor it can use Methanosarcina as a terminal electron sink. Consequently, inhibition of methanogenesis constrained the SAO activity of Geobacter as well. A potential benefit for Methanosarcina partnering with Geobacter is that together they competitively exclude acetoclastic methanogens like Methanothrix from an environment rich in conductive particles. Conductive particle-mediated SAO could explain the abundance of acetate oxidizers like Geobacter in the methanogenic zone of sediments where no electron acceptors other than CO2 are available. IMPORTANCE Acetate-oxidizing bacteria are known to thrive in mutualistic consortia in which H2 or formate is shuttled to a methane-producing Archaea partner. Here, we discovered that such bacteria could instead transfer electrons via conductive minerals. Mineral SAO (syntrophic acetate oxidation) could be a vital pathway for CO2-reductive methanogenesis in the environment, especially in sediments rich in conductive minerals. Mineral-facilitated SAO is therefore of potential importance for both iron and methane cycles in sediments and soils. Additionally, our observations imply that agricultural runoff or amendments with conductive chars could trigger a significant increase in methane emissions.

Published

2018

13. EUS-guided gastroenterostomy using a novel electrocautery lumen apposing metal stent for treatment of gastric outlet obstruction (with video)

Author

Benedetto Mangiavillano, Alberto Larghi, Jorge Vargas-Madrigal, Antonio Facciorusso, Francesco Di Matteo, Stefano Francesco Crinò, Khanh Do-Cong Pham, Jong Hoo Moon, Francesco Auriemma, Lorenzo Camellini, Danilo Paduano, Serena Stigliano, Federica Calabrese, Andrew Ofosu, Abed Al-Lehibi, and Alessandro Repici

Subjects

Hepatology, Gastroenterology

Published

2023

14. Endoscopic Ultrasound Guided Biliary Drainage in Malignant Distal Biliary Obstruction

Author

Danilo Paduano, Antonio Facciorusso, Alessandro De Marco, Andrew Ofosu, Francesco Auriemma, Federica Calabrese, Ilaria Tarantino, Gianluca Franchellucci, Andrea Lisotti, Pietro Fusaroli, Alessandro Repici, Benedetto Mangiavillano, Paduano D., Facciorusso A., De Marco A., Ofosu A., Auriemma F., Calabrese F., Tarantino I., Franchellucci G., Lisotti A., Fusaroli P., Repici A., and Mangiavillano B.

Subjects

Cancer Research, LAMS, Oncology, MBO, cancer, stent, EUS-BD, EUS

Abstract

Malignant biliary obstruction (MBO) is a challenging medical problem that often negatively impacts the patient’s quality of life (QoL), postoperative complications, and survival rates. Endoscopic approaches to biliary drainage are generally performed by ERCP or, in selected cases, with a percutaneous transhepatic biliary drainage (PTBD). Recent advances in therapeutic endoscopic ultrasound (EUS) allow drainage where previous methods have failed. EUS has evolved from a purely diagnostic technique to one that allows a therapeutic approach in the event of ERCP failure in distal MBO. Moreover, the introduction of dedicated accessories and prostheses for EUS-guided transmural biliary drainage (EUS-BD) made these procedures more successful with regard to technical success, clinical outcomes and reduction of adverse events (AEs). Finally, lumen-apposing metal stents (LAMS) have improved the therapeutic role of the EUS. Subsequently, the electrocautery enhanced tip of the LAMS (EC-LAMS) allows a direct access of the delivery system to the target lumen, thereby simplifying and reducing the EUS-BD procedure time. EUS-BD using LAMS and EC-LAMS has proven effective and safe with a low rate of AEs. This review aims to evaluate biliary drainage techniques in malignant obstruction, focusing on the role of EUS biliary drainage by LAMS.

Published

2023

15. Symptomatic cholelithiasis and acute cholecystitis treated by EUS-guided gallbladder drainage with gallbladder toilette

Author

Benedetto Mangiavillano, Federica Calabrese, Francesco Auriemma, Danilo Paduano, Alessandro De Marco, and Alessandro Repici

Subjects

Gastroenterology

Published

2022

16. Conduction system engagement by mid-septal leadless pacemaker in a patient with persistent iatrogenic atrioventricular block

Author

Giusy Sirico, Massimo Mantica, Domenico Sirico, Andrea Montisci, Federica Calabrese, Massimo Pala, and Daniele Malaspina

Subjects

Pacemaker, Artificial, Heart Conduction System, Iatrogenic Disease, Humans, General Medicine, Atrioventricular Block, Cardiology and Cardiovascular Medicine

Published

2022

17. Anaerobic oxidation of ethane by archaea from a marine hydrocarbon seep

Author

Oliver J. Lechtenfeld, Hryhoriy Stryhanyuk, Florin Musat, Matthias Schmidt, Hans-Hermann Richnow, Song-Can Chen, Nedal Said, Yong-Guan Zhu, Samantha B. Joye, Heidrun Paschke, Niculina Musat, Friedrich Widdel, Federica Calabrese, Denny Popp, and Ulrike Jaekel

Subjects

chemistry.chemical_classification, Alkane, 0303 health sciences, Multidisciplinary, biology, 030306 microbiology, Stereochemistry, Microorganism, Deltaproteobacteria, biology.organism_classification, Anoxic waters, 03 medical and health sciences, chemistry.chemical_compound, Hydrocarbon, chemistry, Candidatus, Sulfate, 030304 developmental biology, Archaea

Abstract

Ethane is the second most abundant component of natural gas in addition to methane, and—similar to methane—is chemically unreactive. The biological consumption of ethane under anoxic conditions was suggested by geochemical profiles at marine hydrocarbon seeps1–3, and through ethane-dependent sulfate reduction in slurries4–7. Nevertheless, the microorganisms and reactions that catalyse this process have to date remained unknown8. Here we describe ethane-oxidizing archaea that were obtained by specific enrichment over ten years, and analyse these archaea using phylogeny-based fluorescence analyses, proteogenomics and metabolite studies. The co-culture, which oxidized ethane completely while reducing sulfate to sulfide, was dominated by an archaeon that we name ‘Candidatus Argoarchaeum ethanivorans’; other members were sulfate-reducing Deltaproteobacteria. The genome of Ca. Argoarchaeum contains all of the genes that are necessary for a functional methyl-coenzyme M reductase, and all subunits were detected in protein extracts. Accordingly, ethyl-coenzyme M (ethyl-CoM) was identified as an intermediate by liquid chromatography–tandem mass spectrometry. This indicated that Ca. Argoarchaeum initiates ethane oxidation by ethyl-CoM formation, analogous to the recently described butane activation by ‘Candidatus Syntrophoarchaeum’9. Proteogenomics further suggests that oxidation of intermediary acetyl-CoA to CO2 occurs through the oxidative Wood–Ljungdahl pathway. The identification of an archaeon that uses ethane (C2H6) fills a gap in our knowledge of microorganisms that specifically oxidize members of the homologous alkane series (CnH2n+2) without oxygen. Detection of phylogenetic and functional gene markers related to those of Ca. Argoarchaeum at deep-sea gas seeps10–12 suggests that archaea that are able to oxidize ethane through ethyl-CoM are widespread members of the local communities fostered by venting gaseous alkanes around these seeps. An archaeon, ‘Candidatus Argoarchaeum ethanivorans’, which is involved in the oxidation of ethane observed in anoxic marine habitats, is identified and metabolically characterized.

Published

2019

18. Novel clades of soil biphenyl degraders revealed by integrating isotope probing, multi-omics, and single-cell analyses

Author

Yong-Guan Zhu, Hryhoriy Stryhanyuk, Lorenz Adrian, Song-Can Chen, Niculina Musat, Federica Calabrese, Gui-Lan Duan, Florin Musat, Hans-Hermann Richnow, and Rohit Budhraja

Subjects

Microorganism, Microbiology, Article, Microbial ecology, 03 medical and health sciences, chemistry.chemical_compound, Soil, Isotopes, Dioxygenase, Soil Pollutants, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Biphenyl, 0303 health sciences, biology, 030306 microbiology, Biphenyl Compounds, Alphaproteobacteria, Azoarcus, Biodegradation, Biogeochemistry, biology.organism_classification, Biodegradation, Environmental, Soil microbiology, chemistry, Environmental chemistry, Single-Cell Analysis

Abstract

Most microorganisms in the biosphere remain uncultured and poorly characterized. Although the surge in genome sequences has enabled insights into the genetic and metabolic properties of uncultured microorganisms, their physiology and ecological roles cannot be determined without direct probing of their activities in natural habitats. Here we employed an experimental framework coupling genome reconstruction and activity assays to characterize the largely uncultured microorganisms responsible for aerobic biodegradation of biphenyl as a proxy for a large class of environmental pollutants, polychlorinated biphenyls. We used 13C-labeled biphenyl in contaminated soils and traced the flow of pollutant-derived carbon into active cells using single-cell analyses and protein–stable isotope probing. The detection of 13C-enriched proteins linked biphenyl biodegradation to the uncultured Alphaproteobacteria clade UBA11222, which we found to host a distinctive biphenyl dioxygenase gene widely retrieved from contaminated environments. The same approach indicated the capacity of Azoarcus species to oxidize biphenyl and suggested similar metabolic abilities for species of Rugosibacter. Biphenyl oxidation would thus represent formerly unrecognized ecological functions of both genera. The quantitative role of these microorganisms in pollutant degradation was resolved using single-cell-based uptake measurements. Our strategy advances our understanding of microbially mediated biodegradation processes and has general application potential for elucidating the ecological roles of uncultured microorganisms in their natural habitats.

Published

2021

19. High resolution microscopy to evaluate the efficiency of surface sterilization of Zea Mays seeds

Author

Niculina Musat, Federica Calabrese, Yalda Davoudpour, Matthias Schmidt, and Hans H. Richnow

Subjects

0106 biological sciences, 0301 basic medicine, Sodium Hypochlorite, Physiology, Microorganism, Hypochlorite, Plant Science, Bacterial growth, Plant Reproduction, 01 natural sciences, Plant Roots, chemistry.chemical_compound, Fluorescence Microscopy, Seed Germination, Hydrogen peroxide, Microscopy, Multidisciplinary, Chemistry, Plant Anatomy, food and beverages, Eukaryota, Light Microscopy, Plants, Equipment Sterilization, Horticulture, Experimental Organism Systems, Process Engineering, Germination, Sodium hypochlorite, Plant Physiology, Seeds, Medicine, Engineering and Technology, Root Hairs, Research Article, Equipment Preparation, Imaging Techniques, Science, Industrial Processes, Root hair, Research and Analysis Methods, Zea mays, 03 medical and health sciences, Model Organisms, Plant and Algal Models, Filter Sterilization, Industrial Engineering, Fluorescence Imaging, Grasses, Bacteria, Ethanol, Surface Treatments, Organisms, Sterilization, Biology and Life Sciences, Hydrogen Peroxide, Sterilization (microbiology), Maize, 030104 developmental biology, Manufacturing Processes, Animal Studies, 010606 plant biology & botany

Abstract

Surface sterilization of seeds is a key step in providing microorganisms-free seeds for numerous applications like understanding the role of seed-borne microorganisms in plant development, studying microbial cells-plant interactions by inoculating model microorganisms in a simplified system or selective cultivation of seed endobionts. However applying efficient treatment for surface sterilization of seeds without affecting the plant growth is not an easy task. In this study we aimed to provide an efficient surface sterilization treatment for maize seeds using i) hydrogen peroxide (HP), ii) sodium hypochlorite (SH) and iii) ethanol-sodium hypochlorite (EtOH-SH) under stirring (st) and vacuum-stirring (va-st) conditions. We used fluorescence microscopy and ultra-high resolution Helium Ion Microscopy (HIM) as powerful imaging approaches in combination with macroscopic techniques to visualize, quantify and evaluate the efficiency of seed sterilization, quality of root germination, seedlings and root hair development as well as the presence or absence of microorganisms on the root surface. Our results showed a strong reduction in microbial cell numbers of 4 orders of magnitude after the EtOH-SH treatments. Moreover, seeds exposed to EtOH-SH treatments displayed the lowest percentage of microbial growth (50%) and the highest percentage of germinated seeds (100%) compared to other sterilization treatments. HIM imaging proved the absence of microbial cells on the roots grown from seeds exposed to EtOH-SH treatments. Moreover, root hair development seemed not to be affected by any of the sterilization treatments. Our findings demonstrated that EtOH-SH treatments are significantly reducing the abundance of microbial cells from the surface of maize seeds and can be used with high confidence in future studies.

Published

2020

20. Surface cleaning and sample carrier for complementary high-resolution imaging techniques

Author

Hryhoriy Stryhanyuk, Jia-Yu Ye, Pietro Benettoni, Thorsten Reemtsma, Matthias Schmidt, Mashaalah Zarejousheghani, Niculina Musat, Timothy R. Holbrook, Stephan Wagner, Federica Calabrese, Hans-Hermann Richnow, Roman Flyunt, Maria K. Ullrich, and Jan Griebel

Subjects

Analyte, Materials science, Scanning electron microscope, Polymers, Surface Properties, General Physics and Astronomy, engineering.material, Zea mays, General Biochemistry, Genetics and Molecular Biology, Biomaterials, Contact angle, Imaging, Three-Dimensional, Coating, Animals, General Materials Science, Wafer, Skin, chemistry.chemical_classification, business.industry, Pseudomonas putida, Analytical technique, Temperature, Water, General Chemistry, Polymer, Secondary ion mass spectrometry, chemistry, engineering, Optoelectronics, Nanoparticles, Rabbits, business, Hydrophobic and Hydrophilic Interactions

Abstract

Nowadays, high-resolution imaging techniques are extensively applied in a complementary way to gain insights into complex phenomena. For a truly complementary analytical approach, a common sample carrier is required that is suitable for the different preparation methods necessary for each analytical technique. This sample carrier should be capable of accommodating diverse analytes and maintaining their pristine composition and arrangement during deposition and preparation. In this work, a new type of sample carrier consisting of a silicon wafer with a hydrophilic polymer coating was developed. The robustness of the polymer coating toward solvents was strengthened by cross-linking and stoving. Furthermore, a new method of UV-ozone cleaning was developed that enhances the adhesion of the polymer coating to the wafer and ensures reproducible surface-properties of the resulting sample carrier. The hydrophilicity of the sample carrier was recovered applying the new method of UV-ozone cleaning, while avoiding UV-induced damages to the polymer. Noncontact 3D optical profilometry and contact angle measurements were used to monitor the hydrophilicity of the coating. The hydrophilicity of the polymer coating ensures its spongelike behavior so that upon the deposition of an analyte suspension, the solvent and solutes are separated from the analyte by absorption into the polymer. This feature is essential to limit the coffee-ring effect and preserve the native identity of an analyte upon deposition. The suitability of the sample carrier for various sample types was tested using nanoparticles from suspension, bacterial cells, and tissue sections. To assess the homogeneity of the analyte distribution and preservation of sample integrity, optical and scanning electron microscopy, helium ion microscopy, laser ablation inductively coupled plasma mass spectrometry, and time-of-flight secondary ion mass spectrometry were used. This demonstrates the broad applicability of the newly developed sample carrier and its value for complementary imaging.

Published

2020

21. La 'buona qualità' dei reperti pugliesi nei mercati internazionali

Author

Federica, Calabrese and Filoni, Luca

Subjects

archeomafie, traffico illecito, archeologia

Published

2018

22. Conductive particles enable syntrophic acetate oxidation between Geobacter and Methanosarcina from coastal sediments

Author

Federica Calabrese, Hannah Sophia Weber, Hryhoriy Stryhanyuk, Pravin Malla Shrestha, Oona Snoeyenbos-West, Florin Musat, Amelia-Elena Rotaru, Bo Thamdrup, Niculina Musat, Per O. J. Hall, and Hans H. Richnow

Subjects

0301 basic medicine, Geologic Sediments, Geologic Sediments/chemistry, Formates, Acetates, Methane, chemistry.chemical_compound, NanoSIMS, activated carbon, Magnetite, Formates/metabolism, biology, Ecology, Methanogen, QR1-502, Environmental chemistry, Methanosarcina, Oxidation-Reduction, medicine.drug, Research Article, Acetates/metabolism, animal structures, Methanogenesis, Activated carbon, 030106 microbiology, Desulfuromonadales, Methanothrix, Fractionation, Microbiology, 03 medical and health sciences, Virology, parasitic diseases, syntrophic acetate oxidation, competitive exclusion, Competitive exclusion, medicine, direct interspecies electron transfer, nanoSIMS, Methanosarcina/metabolism, Direct interspecies electron transfer, Electric Conductivity, Geobacter/metabolism, Syntrophic acetate oxidation, biology.organism_classification, chemistry, Baltic sea, Geobacter, Archaea

Abstract

Coastal sediments are rich in conductive particles, possibly affecting microbial processes for which acetate is a central intermediate. In the methanogenic zone, acetate is consumed by methanogens and/or syntrophic acetate-oxidizing (SAO) consortia. SAO consortia live under extreme thermodynamic pressure, and their survival depends on successful partnership. Here, we demonstrate that conductive particles enable the partnership between SAO bacteria (i.e., Geobacter spp.) and methanogens (Methanosarcina spp.) from the coastal sediments of the Bothnian Bay of the Baltic Sea. Baltic methanogenic sediments were rich in conductive minerals, had an apparent isotopic fractionation characteristic of CO2-reductive methanogenesis, and were inhabited by Geobacter and Methanosarcina. As long as conductive particles were delivered, Geobacter and Methanosarcina persisted, whereas exclusion of conductive particles led to the extinction of Geobacter. Baltic Geobacter did not establish a direct electric contact with Methanosarcina, necessitating conductive particles as electrical conduits. Within SAO consortia, Geobacter was an efficient [13C]acetate utilizer, accounting for 82% of the assimilation and 27% of the breakdown of acetate. Geobacter benefits from the association with the methanogen, because in the absence of an electron acceptor it can use Methanosarcina as a terminal electron sink. Consequently, inhibition of methanogenesis constrained the SAO activity of Geobacter as well. A potential benefit for Methanosarcina partnering with Geobacter is that together they competitively exclude acetoclastic methanogens like Methanothrix from an environment rich in conductive particles. Conductive particle-mediated SAO could explain the abundance of acetate oxidizers like Geobacter in the methanogenic zone of sediments where no electron acceptors other than CO2 are available., IMPORTANCE Acetate-oxidizing bacteria are known to thrive in mutualistic consortia in which H2 or formate is shuttled to a methane-producing Archaea partner. Here, we discovered that such bacteria could instead transfer electrons via conductive minerals. Mineral SAO (syntrophic acetate oxidation) could be a vital pathway for CO2-reductive methanogenesis in the environment, especially in sediments rich in conductive minerals. Mineral-facilitated SAO is therefore of potential importance for both iron and methane cycles in sediments and soils. Additionally, our observations imply that agricultural runoff or amendments with conductive chars could trigger a significant increase in methane emissions.

Published

2017

23. Phage-coated paramagnetic beads as selective and specific capture system for biosensor applications

Author

L.M. De Plano, S. Carnazza, Germana Lentini, Domenico Franco, Salvatore P.P. Guglielmino, and Federica Calabrese

Subjects

M13 bacteriophage, biology, Chemistry, viruses, Microorganism, biology.organism_classification, Fluorescence, Molecular biology, Combinatorial chemistry, Paramagnetism, Capsid, Covalent bond, Biosensor, Bacteria

Abstract

M13 bacteriophage, engineered to express specific and selective peptides on its capsid proteins, can be used as a good substitute for antibodies in recognition of specific targets showing at the same time thermal and mechanical resistance, strength and stability in the presence of different organic solvents and compounds. Magnetic beads are useful tools to identify, separate and concentrate specific target in solution. These are usually coated either with antibodies, which are sensitive to chemical and physical changes, or peptides that are laborious and expensive to produce. In this work we proposed a phage-based biosensor model for capture and identification of specific bacteria in a liquid sample. Commercial fluorescent paramagnetic beads were functionalized with the entire 9mer-M13 phage clone selected towards the pathogen Pseudomonas aeruginosa. Phage probes covalently linked to beads were capable to capture bacteria in suspension. Complexes of phage-coated beads and bacteria were specifically identified using an optical detection system based on the double coloring of non-specifically stained bacteria as well as of beads own fluorescence.

Published

2015

24. Phage-AgNPs complex as SERS probe for U937 cell identification

Author

Sebastiano Trusso, Caterina Musolino, Salvatore P.P. Guglielmino, Fortunato Neri, Federica Calabrese, Maria Puliafico, Enza Fazio, Alessandro Allegra, Domenico Franco, Germana Lentini, Marco Sebastiano Nicolò, Laura M. De Plano, and S. Carnazza

Subjects

Cell identification, Phage display, Silver, Biomedical Engineering, Biophysics, Metal Nanoparticles, Molecular Probe Techniques, Spectrum Analysis, Raman, Sensitivity and Specificity, Silver nanoparticle, Bacteriophage, Peptide Library, Electrochemistry, Biomarkers, Tumor, Humans, biology, SERS, Minimal residual disease, Reproducibility of Results, General Medicine, Neoplasms, Experimental, U937 Cells, Surface-enhanced Raman spectroscopy, Surface Plasmon Resonance, biology.organism_classification, U937 cells, Molecular biology, In vitro, Biochemistry, Cancer cell, Biosensor, Biotechnology

Abstract

The early diagnosis of malignancy is the most critical factor for patient survival and the treatment of cancer. In particular, leukemic cells are highly heterogeneous, and there is a need to develop new rapid and accurate detection systems for early diagnosis and monitoring of minimal residual disease. This study reports the utilization of molecular networks consisting of entire bacteriophage structure, displaying specific peptides, directly assembled with silver nanoparticles as a new Surface Enhanced Raman Spectroscopy (SERS) probe for U937 cells identification in vitro. A 9-mer pVIII M13 phage display library is screened against U937 to identify peptides that selectively recognize these cells. Then, phage clone is assembled with silver nanoparticles and the resulting network is used to obtain a SERS signal on cell-type specific molecular targets. The proposed strategy could be a very sensitive tool for the design of biosensors for highly specific and selective identification of hematological cancer cells and for detection of minimal residual disease in a significant proportion of human blood malignancy. (C) 2015 Elsevier B.V. All rights reserved.

Published

2015

25. Phage display as a tool for rapid in vitro cell characterization by fluorescence imaging and Raman spectroscopy

Author

Germana Lentini, Domenico Franco, Sebastiano Trusso, Laura M. De Plano, Salvatore P.P. Guglielmino, Marco Sebastiano Nicolò, Fortunato Neri, Federica Calabrese, Alessandro Allegra, and Enza Fazio

Subjects

Fluorescence-lifetime imaging microscopy, Phage display, Chemistry, Cell, Analytical chemistry, Bioengineering, General Medicine, In vitro, Characterization (materials science), symbols.namesake, medicine.anatomical_structure, medicine, Biophysics, symbols, Raman spectroscopy, Molecular Biology, Biotechnology

Abstract

The discovery of new markers for the identification and discrimination of cell types such as neoplastic cells is one of the principal objectives in diagnostics. Using random M13 phage display libraries on the whole U937 cells, we selected a clone, named EIII6, displaying a peptide RKIVHAQTP that preferentially recognizes these cells. The human promonocytic cell line U937 is a model for leukemia, cancer therapeutics and in vitro hematopoietic cell differentiation. Therefore, we directly labeled the phage clone EIII6 with fluo rescein isothiocyanate (FITC) for microscopy imaging application. This method allowed to identify fixed U937 cells, while preserving binding affinity of labeled phage clones. Microscopic observations showed that U937 cells were fluorescently labeled. In order to further investigate the interaction between U937 cells and EIII6, we utilized Raman Spectroscopy. Spectral peaks observed at about 980, 1008, 1185, 1215, 1320,1340,1455, 1589 and 1660 cm- 1 , are commonly assignable to proteins, saccharides and lipids components of U937. These Raman peaks in U937-EIII6 complex are shifted in position or reduced in intensity when compared to U937 alone, suggesting that phage-probe were selectively localized at cell membrane. Thereafter, we realised networks consisting of EIII6 phage clone and Ag-Nanoparticles (AgNPs) as signal reporters in Surface Enhanced Raman Spectroscopy (SERS) to better discriminate U937 cells. With this approach, U937-EIII6 Raman spectral features become sharper and more intense, confirming the selective phage-cell interaction. Both methodological approaches, proposed in this work, allows to quickly and selectively identify U937 and could be extended to the identification of other types of neoplastic cells.

Published

2014