Large freshwater phages with the potential to augment aerobic methane oxidation

AbstractThere is growing evidence that phages with unusually large genomes are common across various microbiomes, but little is known about their genetic inventories or potential ecosystem impacts. In the present study, we reconstructed large phage genomes from freshwater lakes known to contain bacteria that oxidize methane. Of manually curated genomes, 22 (18 are complete), ranging from 159 kilobase (kb) to 527 kb in length, were found to encode the pmoC gene, an enzymatically critical subunit of the particulate methane monooxygenase, the predominant methane oxidation catalyst in nature. The phage-associated PmoC sequences show high similarity to (>90%), and affiliate phylogenetically with, those of coexisting bacterial methanotrophs, including members of Methyloparacoccus, Methylocystis and Methylobacter spp. In addition, pmoC-phage abundance patterns correlate with those of the coexisting bacterial methanotrophs, supporting host–phage relationships. Future work is needed to determine whether phage-associated PmoC has similar functions to additional copies of PmoC encoded in bacterial genomes, thus contributing to growth on methane. Transcriptomics data from Lake Rotsee (Switzerland) showed that some phage-associated pmoC genes were highly expressed in situ and, of interest, that the most rapidly growing methanotroph was infected by three pmoC-phages. Thus, augmentation of bacterial methane oxidation by pmoC-phages during infection could modulate the efflux of this potent greenhouse gas into the environment.

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Large Freshwater Phages with the Potential to Augment Aerobic Methane Oxidation

10.1101/2020.02.13.942896 ◽

2020 ◽

Cited By ~ 3

Author(s):

Lin-Xing Chen ◽

Raphaël Méheust ◽

Alexander Crits-Christoph ◽

Katherine D. McMahon ◽

Tara Colenbrander Nelson ◽

...

Keyword(s):

Methane Oxidation ◽

Oxidation Catalyst ◽

Freshwater Lakes ◽

High Similarity ◽

Bacterial Genomes ◽

Particulate Methane Monooxygenase ◽

Ecosystem Impacts ◽

Abundance Patterns ◽

Transcriptomics Data

AbstractThere is growing evidence that phages with unusually large genomes are common across various natural and human microbiomes, but little is known about their genetic inventories or potential ecosystem impacts. Here, we reconstructed large phage genomes from freshwater lakes known to contain bacteria that oxidize methane. Twenty-two manually curated genomes (18 are complete) ranging from 159 to 527 kbp in length were found to encode the pmoC gene, an enzymatically critical subunit of the particulate methane monooxygenase, the predominant methane oxidation catalyst in nature. The phage-associated PmoC show high similarity (> 90%) and affiliate phylogenetically with those of coexisting bacterial methanotrophs, and their abundance patterns correlate with the abundances of these bacteria, supporting host-phage relationships. We suggest that phage PmoC has similar functions to additional copies of PmoC encoded in bacterial genomes, thus contribute to growth on methane. Transcriptomics data from one system showed that the phage-associated pmoC genes are actively expressed in situ. Augmentation of bacterial methane oxidation by pmoC-phages during infection could modulate the efflux of this powerful greenhouse gas into the environment.

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Performance and Regeneration of Methane Oxidation Catalyst for LNG Ships

Journal of Marine Science and Engineering ◽

10.3390/jmse9020111 ◽

2021 ◽

Vol 9 (2) ◽

pp. 111

Author(s):

Kati Lehtoranta ◽

Päivi Koponen ◽

Hannu Vesala ◽

Kauko Kallinen ◽

Teuvo Maunula

Keyword(s):

Methane Oxidation ◽

Sulfur Poisoning ◽

Oxidation Catalyst ◽

Lean Burn ◽

Marine Fuel ◽

Efficient Catalyst ◽

Worst Case ◽

Exhaust Temperature ◽

Unintended Effect ◽

Methane Slip

Liquefied natural gas (LNG) use as marine fuel is increasing. Switching diesel to LNG in ships significantly reduces air pollutants but the methane slip from gas engines can in the worst case outweigh the CO2 decrease with an unintended effect on climate. In this study, a methane oxidation catalyst (MOC) is investigated with engine experiments in lean-burn conditions. Since the highly efficient catalyst needed to oxidize methane is very sensitive to sulfur poisoning a regeneration using stoichiometric conditions was studied to reactivate the catalyst. In addition, the effect of a special sulfur trap to protect the MOC and ensure long-term performance for methane oxidation was studied. MOC was found to decrease the methane emission up to 70–80% at the exhaust temperature of 550 degrees. This efficiency decreased within time, but the regeneration done once a day was found to recover the efficiency. Moreover, the sulfur trap studied with MOC was shown to protect the MOC against sulfur poisoning to some extent. These results give indication of the possible use of MOC in LNG ships to control methane slip emissions.

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Detected Changes in Precipitation Extremes at Their Native Scales Derived from In Situ Measurements

Journal of Climate ◽

10.1175/jcli-d-19-0077.1 ◽

2019 ◽

Vol 32 (23) ◽

pp. 8087-8109 ◽

Cited By ~ 2

Author(s):

Mark D. Risser ◽

Christopher J. Paciorek ◽

Travis A. O’Brien ◽

Michael F. Wehner ◽

William D. Collins

Keyword(s):

Extreme Precipitation ◽

Seasonal Changes ◽

Signal To Noise Ratio ◽

Statistical Technique ◽

In Situ Measurements ◽

Absolute Sense ◽

Underlying Causes ◽

Changes Over Time ◽

Future Work

Abstract The gridding of daily accumulated precipitation—especially extremes—from ground-based station observations is problematic due to the fractal nature of precipitation, and therefore estimates of long period return values and their changes based on such gridded daily datasets are generally underestimated. In this paper, we characterize high-resolution changes in observed extreme precipitation from 1950 to 2017 for the contiguous United States (CONUS) based on in situ measurements only. Our analysis utilizes spatial statistical methods that allow us to derive gridded estimates that do not smooth extreme daily measurements and are consistent with statistics from the original station data while increasing the resulting signal-to-noise ratio. Furthermore, we use a robust statistical technique to identify significant pointwise changes in the climatology of extreme precipitation while carefully controlling the rate of false positives. We present and discuss seasonal changes in the statistics of extreme precipitation: the largest and most spatially coherent pointwise changes are in fall (SON), with approximately 33% of CONUS exhibiting significant changes (in an absolute sense). Other seasons display very few meaningful pointwise changes (in either a relative or absolute sense), illustrating the difficulty in detecting pointwise changes in extreme precipitation based on in situ measurements. While our main result involves seasonal changes, we also present and discuss annual changes in the statistics of extreme precipitation. In this paper we only seek to detect changes over time and leave attribution of the underlying causes of these changes for future work.

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Permeability of muscle capillaries to small heme-peptides. Evidence for the existence of patent transendothelial channels.

The Journal of Cell Biology ◽

10.1083/jcb.64.3.586 ◽

1975 ◽

Vol 64 (3) ◽

pp. 586-607 ◽

Cited By ~ 380

Author(s):

N Simionescu ◽

M Siminoescu ◽

G E Palade

Keyword(s):

Plasma Proteins ◽

Intercellular Junctions ◽

Rat Diaphragm ◽

Enzymic Hydrolysis ◽

Graphic Analysis ◽

Heme Peptides ◽

Future Work ◽

Hydrolysis Of ◽

Muscle Capillaries

Two heme-peptides (HP) of about 20-A diameter (heme-undecapeptide [H11P], mol wt approximately 1900 and heme-octapeptide [H8P], mol wt approximately 1550), obtained by enzymic hydrolysis of cytochrome c, were sued as probe molecules in muscle capillaries (rat diaphragm). They were localized in situ by a perixidase reaction, enhanced by the addition of imidazole to the incubation medium. Chromatography of plasma samples showed that HPs circulate predominantly as monomers for the duration of the experiments and are bound by aldehyde fixatives to plasma proteins to the extent of approximately 50% (H8P) to approximately 95% (H11P). Both tracers cross the endothelium primarily via plasmalemmal vesicles which become progressively labeled (by reaction product) from the blood front to the tissue front of the endothelium, in three successive resolvable phases. By the end of each phase the extent of labeling reaches greater than 90% of the corresponding vesicle population. Labeled vesicles appear as either isolated units or chains which form patent channels across the endothelium. The patency of these channels was checked by specimen tilting and graphic analysis of their images. No evidence was found for early or preferential marking of the intercellular junctions and spaces by reaction product. It is concluded that the channels are the most likely candidate for structural equivalents of the small pores of the capillary wall since they are continuous, water-filled passages, and are provided with one or more strictures of less than 100 A. Their frequency remains to be established by future work.

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In situ mercaptosilane-assisted confinement of Pd nanoparticles in Beta for high-efficient methane oxidation

Catalysis Today ◽

10.1016/j.cattod.2021.09.001 ◽

2021 ◽

Author(s):

Liling Zhang ◽

Junfei Chen ◽

Haolin Yang ◽

Xiaohan Wang ◽

Zebao Rui

Keyword(s):

Methane Oxidation ◽

Pd Nanoparticles ◽

High Efficient

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Biological Methane Oxidation Catalyst

Encyclopedia of Metalloproteins ◽

10.1007/978-1-4614-1533-6_100184 ◽

2013 ◽

pp. 271-271

Keyword(s):

Methane Oxidation ◽

Oxidation Catalyst

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Mechanistic and kinetic studies of elemental mercury oxidation over a RuO2/rutile TiO2 catalyst

Catalysis Science & Technology ◽

10.1039/c7cy01471f ◽

2017 ◽

Vol 7 (20) ◽

pp. 4669-4679 ◽

Cited By ~ 8

Author(s):

Zhouyang Liu ◽

Vishnu Sriram ◽

Can Li ◽

Joo-Youp Lee

Keyword(s):

Kinetic Study ◽

Ruthenium Oxide ◽

Kinetic Studies ◽

Elemental Mercury ◽

Oxidation Catalyst ◽

Mechanistic Study ◽

Mercury Oxidation ◽

Rutile Tio2 ◽

Tio2 Catalyst

A mechanistic study using in situ DRIFTS and a kinetic study were conducted on a ruthenium oxide based mercury oxidation catalyst.

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Paleoenvironments revealed by rare-earth element systematics in vertebrate bioapatite from the Lower Devonian of Svalbard

Canadian Journal of Earth Sciences ◽

10.1139/cjes-2015-0206 ◽

2016 ◽

Vol 53 (8) ◽

pp. 788-794

Author(s):

Živilė Žigaitė ◽

Alexandre Fadel ◽

Alberto Pérez-Huerta ◽

Teresa Jeffries ◽

Daniel Goujet ◽

...

Keyword(s):

Rare Earth ◽

Rare Earth Element ◽

Lower Devonian ◽

Depositional Environment ◽

Earth Element ◽

Long Distance ◽

Dental Tissues ◽

Abundance Patterns ◽

The Eu

In situ rare-earth element (REE) compositions have been measured in early vertebrate microremains from the Lower Devonian basin of Andrée Land (Svalbard), with the aim of obtaining information about their early depositional environment and potential reworking. Vertebrate microremains with different histology were used for the analyses, sourced from two different localities of marginal marine to freshwater sediments from geographically distant parts of the Grey Hœk Formation (Skamdalen and Tavlefjellet members). We selected thelodont and undescribed ?chondrichthyan scales, which allowed us to define potential taxonomic, histological, and taphonomic variables of the REE uptake. Results showed REE concentrations to be relatively uniform within the scales of each taxon, but apparent discrepancies were visible between the studied localities and separate taxa. The compilation of REE abundance patterns as well as REE ratios have revealed that thelodont and ?chondrichthyan originating from the same locality must have had different burial and early diagenetic histories. The shapes of the REE profiles, together with the presence and absence of the Eu and Ce anomalies, equally suggested different depositional and diagenetic environments for these two sympatric taxa resulting from either stratigraphical or long-distance reworking. The REE concentrations appear to have visible differences between separate dental tissues, particularly between enameloid and dentine of thelodonts, emphasizing the importance of in situ measurements in microfossil biomineral geochemistry.

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