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1. Characterization and distribution of de novo mutations in the zebra finch

Author

Xixi Liang, Shuai Yang, Daiping Wang, and Ulrich Knief

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Germline de novo mutations (DNMs) provide the raw material for evolution. The DNM rate varies considerably between species, sexes and chromosomes. Here, we identify DNMs in the zebra finch (Taeniopygia guttata) across 16 parent-offspring trios using two genome assemblies of different quality. Using an independent genotyping assay, we validate 82% of the 150 candidate DNMs. DNM rates are consistent between both assemblies, with estimates of 6.14 × 10–9 and 6.36 × 10–9 per site per generation. We observe a strong paternal bias in DNM rates (male-to-female ratio ɑ ≈ 4), but this bias is in transition mutations only, leading to a transition-to-transversion ratio of 3.18 and 3.57. Finally, we find that DNMs tend to be randomly distributed across chromosomes, not associated with recombination hotspots or genic regions. However, the sex chromosome chrZ shows a roughly fourfold increased DNM rate compared to autosomes, which is more than the expected increase due to chrZ spending two-thirds of its time in males. Overall, our results further enhance our understanding of DNMs in passerine songbirds.

Published
2024
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3. Mismatch between subjective and objective dysautonomia

Author

Novak, Peter, Systrom, David M., Marciano, Sadie P., Knief, Alexandra, Felsenstein, Donna, Giannetti, Matthew P., Hamilton, Matthew J., Nicoloro-SantaBarbara, Jennifer, Saco, Tara V., Castells, Mariana, Farhad, Khosro, Pilgrim, David M., and Mullally, William J.

Published
2024
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4. Mismatch between subjective and objective dysautonomia

Author

Peter Novak, David M. Systrom, Sadie P. Marciano, Alexandra Knief, Donna Felsenstein, Matthew P. Giannetti, Matthew J. Hamilton, Jennifer Nicoloro-SantaBarbara, Tara V. Saco, Mariana Castells, Khosro Farhad, David M. Pilgrim, and William J. Mullally

Subjects
Medicine, Science
Abstract

Abstract Autonomic symptom questionnaires are frequently used to assess dysautonomia. It is unknown whether subjective dysautonomia obtained from autonomic questionnaires correlates with objective dysautonomia measured by quantitative autonomic testing. The objective of our study was to determine correlations between subjective and objective measures of dysautonomia. This was a retrospective cross-sectional study conducted at Brigham and Women’s Faulkner Hospital Autonomic Laboratory between 2017 and 2023 evaluating the patients who completed autonomic testing. Analyses included validated autonomic questionnaires [Survey of Autonomic Symptoms (SAS), Composite Autonomic Symptom Score 31 (Compass-31)] and standardized autonomic tests (Valsalva maneuver, deep breathing, sudomotor, and tilt test). The autonomic testing results were graded by a Quantitative scale for grading of cardiovascular reflexes, sudomotor tests and skin biopsies (QASAT), and Composite Autonomic Severity Score (CASS). Autonomic testing, QASAT, CASS, and SAS were obtained in 2627 patients, and Compass-31 in 564 patients. The correlation was strong between subjective instruments (SAS vs. Compass-31, r = 0.74, p

Published
2024
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5. Topographic attributes override impacts of agronomic practices on prokaryotic community structure

Author

Ghotbi, Mitra, Durrer, Ademir, Frindte, Katharina, Horwath, William R, Rodrigues, Jorge L Mazza, Danso, Isaac, and Knief, Claudia

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Ecology, Environmental Sciences, Conservation agricultural practices, erosion, Prokaryotic community, Soil microbiota, Tillage, Topography, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences
Abstract

While topography can infer erosion potential, the practice of conventional agronomic management can trigger accelerated erosion and pose major threats to soil assets such as biodiversity. The majority of farmlands in Upper-Eastern Ghana are moderately hilly and highly susceptible to erosion. This study pioneered the comparative and interactive effects of topography and conventional versus conservation agriculture practices (reduced tillage, main crop and cover crop, crop residue retention vs. removal) in treatments amended with 0, 40, and 80 kg ha−1 N on soil physicochemical properties and microbiota. Topography imposed profound shifts in soil physiochemical properties and prokaryotic community structure. Foot-slope soils harbored higher prokaryotic richness and diversity compared to the up-slope. Bacillaceae (28.95%) and anaerobic bacteria increased in relative abundance in foot-slope soils, while Micrococcaceae (25.79%) gained prominence in up-slope soils. The effect of tillage was significant in foot-slope while crop rotation was influential in up-slope soils on structuring the prokaryotic community. The interactive effect of slope × tillage was significant in altering soil physiochemical properties, but not prokaryotic community structure. Variation in prokaryotic community composition was explained by soil physiochemical properties (14.5%), elevation as a proxy for topography (11.3%), and spatial distance (10.8%), but rather weakly overall by agronomic practices. Among the soil physicochemical properties, pH, clay content, total C%, volumetric water content, temperature, cation exchange capacity, and NO3−-N were relevant factors influencing the soil microbiota. Geomorphic and soil edaphic properties appeared to interact and were the primary triggers of variation in soil microbiota and their responses to the range of agronomic practices that incorporated conservation management outcomes.

Published
2022

9. Tillandsia landbeckii phyllosphere and laimosphere as refugia for bacterial life in a hyperarid desert environment

Author

Anna Hakobyan, Stefanie Velte, Wiebke Sickel, Dietmar Quandt, Alexandra Stoll, and Claudia Knief

Subjects
Phyllosphere, Laimosphere, Bromeliaceae, Hyperarid, Microbiota, Biogeography, Microbial ecology, QR100-130
Abstract

Abstract Background The lack of water is a major constraint for microbial life in hyperarid deserts. Consequently, the abundance and diversity of microorganisms in common habitats such as soil are strongly reduced, and colonization occurs primarily by specifically adapted microorganisms that thrive in particular refugia to escape the harsh conditions that prevail in these deserts. We suggest that plants provide another refugium for microbial life in hyperarid deserts. We studied the bacterial colonization of Tillandsia landbeckii (Bromeliaceae) plants, which occur in the hyperarid regions of the Atacama Desert in Chile, one of the driest and oldest deserts on Earth. Results We detected clear differences between the bacterial communities being plant associated to those of the bare soil surface (PERMANOVA, R 2 = 0.187, p = 0.001), indicating that Tillandsia plants host a specific bacterial community, not only dust-deposited cells. Moreover, the bacterial communities in the phyllosphere were distinct from those in the laimosphere, i.e., on buried shoots (R 2 = 0.108, p = 0.001), indicating further habitat differentiation within plant individuals. The bacterial taxa detected in the phyllosphere are partly well-known phyllosphere colonizers, but in addition, some rather unusual taxa (subgroup2 Acidobacteriae, Acidiphilum) and insect endosymbionts (Wolbachia, “Candidatus Uzinura”) were found. The laimosphere hosted phyllosphere-associated as well as soil-derived taxa. The phyllosphere bacterial communities showed biogeographic patterns across the desert (R 2 = 0.331, p = 0.001). These patterns were different and even more pronounced in the laimosphere (R 2 = 0.467, p = 0.001), indicating that different factors determine community assembly in the two plant compartments. Furthermore, the phyllosphere microbiota underwent temporal changes (R 2 = 0.064, p = 0.001). Conclusions Our data demonstrate that T. landbeckii plants host specific bacterial communities in the phyllosphere as well as in the laimosphere. Therewith, these plants provide compartment-specific refugia for microbial life in hyperarid desert environments. The bacterial communities show biogeographic patterns and temporal variation, as known from other plant microbiomes, demonstrating environmental responsiveness and suggesting that bacteria inhabit these plants as viable microorganisms. Video Abstract

Published
2023
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13. Effects of above ground pathogen infection and fungicide application on the root-associated microbiota of apple saplings

Author

Maximilian Fernando Becker, A. Michael Klueken, and Claudia Knief

Subjects
Rhizosphere, Endosphere, Microbiota, Fungicide, Pathogen infection, Apple, Environmental sciences, GE1-350, Microbiology, QR1-502
Abstract

Abstract Background The root-associated microbiome has been of keen research interest especially in the last decade due to the large potential for increasing overall plant performance in agricultural systems. Knowledge about the impact of above ground plant disturbances on the root-associated microbiome remains limited. We addressed this by focusing on two potential impacts, foliar pathogen infection alone and in combination with the application of a plant health protecting product. We hypothesized that these lead to plant-mediated responses in the rhizosphere microbiota. Results The effects of an infection of greenhouse grown apple saplings with either Venturia inaequalis or Podosphaera leucotricha as foliar pathogen, as well as the combined effect of P. leucotricha infection and foliar application of the synthetic plant health protecting product Aliette (active ingredient: fosetyl-aluminum), were studied on the root-associated microbiota. The bacterial community structure of rhizospheric soil and endospheric root material was characterized post-infection, using 16S rRNA gene amplicon sequencing. With increasing disease severity both pathogens led to changes in the rhizosphere and endosphere bacterial communities in comparison to uninfected plants (explained variance up to 17.7%). While the preventive application of Aliette on healthy plants two weeks prior inoculation did not induce changes in the root-associated microbiota, a second later application on the diseased plants decreased disease severity and resulted in differences of the rhizosphere bacterial community between infected and several of the cured plants, though differences were overall not statistically significant. Conclusions Foliar pathogen infections can induce plant-mediated changes in the root-associated microbiota, indicating that above ground disturbances are reflected in the below-ground microbiome, even though these become evident only upon severe leaf infection. The application of the fungicide Aliette on healthy plants itself did not induce any changes, but the application to diseased plants helped the plant to regain the microbiota of a healthy plant. These findings indicate that above ground agronomic management practices have implications for the root-associated microbiome, which should be considered in the context of microbiome management strategies.

Published
2023
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15. Chromatin accessibility, not 5mC methylation covaries with partial dosage compensation in crows.

Author

Ana Catalán, Justin Merondun, Ulrich Knief, and Jochen B W Wolf

Subjects
Genetics, QH426-470
Abstract

The evolution of genetic sex determination is often accompanied by degradation of the sex-limited chromosome. Male heterogametic systems have evolved convergent, epigenetic mechanisms restoring the resulting imbalance in gene dosage between diploid autosomes (AA) and the hemizygous sex chromosome (X). Female heterogametic systems (AAf Zf, AAm ZZm) tend to only show partial dosage compensation (0.5 < Zf:AAf < 1) and dosage balance (0.5

Published
2023
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19. Spin detection with a micromechanical trampoline: Towards magnetic resonance microscopy harnessing cavity optomechanics

Author

Fischer, Ran, McNally, Dylan P., Reetz, Chris, Assumpcao, Gabriel G. T., Knief, Thomas R., Lin, Yiheng, and Regal, Cindy A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We explore the prospects and benefits of combining the techniques of cavity optomechanics with efforts to image spins using magnetic resonance force microscopy (MRFM). In particular, we focus on a common mechanical resonator used in cavity optomechanics -- high-stress stoichiometric silicon nitride (Si$_3$N$_4$) membranes. We present experimental work with a trampoline membrane resonator that has a quality factor above $10^6$ and an order of magnitude lower mass than a comparable standard membrane resonators. Such high-stress resonators are on a trajectory to reach 0.1 $\rm{aN}/\sqrt{\rm{Hz}}$ force sensitivities at MHz frequencies by using techniques such as soft clamping and phononic-crystal control of acoustic radiation in combination with cryogenic cooling. We present a demonstration of force-detected electron spin resonance of an ensemble at room temperature using the trampoline resonators functionalized with a magnetic grain. We discuss prospects for combining such a resonator with an integrated Fabry-Perot cavity readout at cryogenic temperatures, and provide ideas for future impacts of membrane cavity optomechanical devices on MRFM of nuclear spins., Comment: 19 pages, 8 figures, 3 tables

Published
2018
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20. Spatio-temporal variation in the root-associated microbiota of orchard-grown apple trees

Author

Maximilian Fernando Becker, Manfred Hellmann, and Claudia Knief

Subjects
Rhizosphere, Endosphere, Spatio-temporal variation, Microbiota, Apple, Trees, Environmental sciences, GE1-350, Microbiology, QR1-502
Abstract

Abstract Background The root-associated microbiome has been of keen research interest especially in the last decade due to the large potential for increasing overall plant performance in agricultural systems. Studies about spatio-temporal variation of the root-associated microbiome focused so far primarily on community-compositional changes of annual plants, while little is known about their perennial counterparts. The aim of this work was to get deep insight into the spatial patterns and temporal dynamics of the root associated microbiota of apple trees. Results The bacterial community structure in rhizospheric soil and endospheric root material from orchard-grown apple trees was characterized based on 16S rRNA gene amplicon sequencing. At the small scale, the rhizosphere and endosphere bacterial communities shifted gradually with increasing root size diameter (PERMANOVA R2-values up to 0.359). At the larger scale, bulk soil heterogeneity introduced variation between tree individuals, especially in the rhizosphere microbiota, while the presence of a root pathogen was contributing to tree-to-tree variation in the endosphere microbiota. Moreover, the communities of both compartments underwent seasonal changes and displayed year-to-year variation (PERMANOVA R2-values of 0.454 and 0.371, respectively). Conclusions The apple tree root-associated microbiota can be spatially heterogeneous at field scale due to soil heterogeneities, which particularly influence the microbiota in the rhizosphere soil, resulting in tree-to-tree variation. The presence of pathogens can contribute to this variation, though primarily in the endosphere microbiota. Smaller-scale spatial heterogeneity is observed in the rhizosphere and endosphere microbiota related to root diameter, likely influenced by root traits and processes such as rhizodeposition. The microbiota is also subject to temporal variation, including seasonal effects and annual variation. As a consequence, responses of the tree root microbiota to further environmental cues should be considered in the context of this spatio-temporal variation.

Published
2022
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25. Diagnosis and Differential Diagnosis of Disorders of Hearing Development

Author

Atas, Ahmet, Aksoy, Songul, am Zehnhoff-Dinnesen, Antoinette, Bamiou, Doris-Eva, Bartel-Friedrich, Sylva, Benton, Claire, Bolz, Hanno J., Campbell, Nicole G., Coninx, Frans, de Smit, Martine, Dršata, Jakub, Hegazi, Mona, Incesulu, Armagan, Kerkhofs, Kristin, Knief, Arne, Kösling, Sabrina, Massey, Jill, Matulat, Peter, Moore, David R., Mürbe, Dirk, Neumann, Katrin, Oguz, Haldun, Ozluoglu, Levent N., Pagarkar, Waheeda, Parfitt, Ross, Poisson-Markova, Simona, Raglan, Ewa, Rogers, Charlotte, Safak, Mustafa Asim, Seeman, Pavel, Seemanova, Eva, Sirimanna, Tony, Swidzinski, Piotr, Tigges, Monika, Wiesner, Thomas, Arnold, W., Series Editor, Ganzer, U., Series Editor, am Zehnhoff-Dinnesen, Antoinette, editor, Wiskirska-Woznica, Bozena, editor, Neumann, Katrin, editor, and Nawka, Tadeus, editor

Published
2020
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26. Draft Genome Sequences of Two Gammaproteobacterial Methanotrophs Isolated from Rice Ecosystems.

Author

Frindte, Katharina, Kalyuzhnaya, Marina G, Bringel, Françoise, Dunfield, Peter F, Jetten, Mike SM, Khmelenina, Valentina N, Klotz, Martin G, Murrell, J Colin, Op den Camp, Huub JM, Sakai, Yasuyoshi, Semrau, Jeremy D, Shapiro, Nicole, DiSpirito, Alan A, Stein, Lisa Y, Svenning, Mette M, Trotsenko, Yuri A, Vuilleumier, Stéphane, Woyke, Tanja, and Knief, Claudia

Subjects
Biochemistry and Cell Biology, Genetics, Microbiology
Abstract

The genomes of the aerobic methanotrophs "Methyloterricola oryzae" strain 73aT and Methylomagnum ishizawai strain 175 were sequenced. Both strains were isolated from rice plants. Methyloterricola oryzae strain 73aT represents the first isolate of rice paddy cluster I, and strain 175 is the second representative of the recently described genus Methylomagnum.

Published
2017

27. Highly pathogenic avian influenza causes mass mortality in Sandwich Tern Thalasseus sandvicensis breeding colonies across north-western Europe

Author

Knief, Ulrich, Bregnballe, Thomas, Alfarwi, Ibrahim, Ballmann, Mónika Z., Brenninkmeijer, Allix, Bzoma, Szymon, Chabrolle, Antoine, Dimmlich, Jannis, Engel, Elias, Fijn, Ruben, Fischer, Kim, Hälterlein, Bernd, Haupt, Matthias, Hennig, Veit, Herrmann, Christof, in ‘t Veld, Ronald, Kirchhoff, Elisabeth, Kristersson, Mikael, Kühn, Susanne, Larsson, Kjell, Larsson, Rolf, Lawton, Neil, Leopold, Mardik, Lilipaly, Sander, Lock, Leigh, Marty, Régis, Matheve, Hans, Meissner, Włodzimierz, Morrison, Paul, Newton, Stephen, Olofsson, Patrik, Packmor, Florian, Pedersen, Kjeld T., Redfern, Chris, Scarton, Francesco, Schenk, Fred, Scher, Olivier, Serra, Lorenzo, Sibille, Alexandre, Smith, Julian, Smith, Wez, Sterup, Jacob, Stienen, Eric, Strassner, Viola, Valle, Roberto G., van Bemmelen, Rob S. A., Veen, Jan, Vervaeke, Muriel, Weston, Ewan, Wojcieszek, Monika, Courtens, Wouter, Knief, Ulrich, Bregnballe, Thomas, Alfarwi, Ibrahim, Ballmann, Mónika Z., Brenninkmeijer, Allix, Bzoma, Szymon, Chabrolle, Antoine, Dimmlich, Jannis, Engel, Elias, Fijn, Ruben, Fischer, Kim, Hälterlein, Bernd, Haupt, Matthias, Hennig, Veit, Herrmann, Christof, in ‘t Veld, Ronald, Kirchhoff, Elisabeth, Kristersson, Mikael, Kühn, Susanne, Larsson, Kjell, Larsson, Rolf, Lawton, Neil, Leopold, Mardik, Lilipaly, Sander, Lock, Leigh, Marty, Régis, Matheve, Hans, Meissner, Włodzimierz, Morrison, Paul, Newton, Stephen, Olofsson, Patrik, Packmor, Florian, Pedersen, Kjeld T., Redfern, Chris, Scarton, Francesco, Schenk, Fred, Scher, Olivier, Serra, Lorenzo, Sibille, Alexandre, Smith, Julian, Smith, Wez, Sterup, Jacob, Stienen, Eric, Strassner, Viola, Valle, Roberto G., van Bemmelen, Rob S. A., Veen, Jan, Vervaeke, Muriel, Weston, Ewan, Wojcieszek, Monika, and Courtens, Wouter

Abstract

In 2022, highly pathogenic avian influenza (HPAI) A(H5N1) virus clade 2.3.4.4b became enzootic and caused mass mortality in Sandwich TernThalasseus sandvicensis and other seabird species across north-western Europe. We present data on the characteristics of the spread of the virus between and within breeding colonies and the number of dead adult Sandwich Terns recorded at breeding sites throughout north-western Europe. Within two months of the first reported mortalities, 20,531 adult Sandwich Terns were found dead, which is >17% of the total north-western European breeding population. This is probably an under-representation of total mortality, as many carcasses are likely to have gone unnoticed and unreported. Within affected colonies, almost all chicks died. After the peak of the outbreak, in a colony established by late breeders, 25.7% of tested adults showed immunity to HPAI subtype H5. Removal of carcasses was associated with lower levels of mortality at affected colonies. More research on the sources and modes of transmission, incubation times, effective containment, and immunity is urgently needed to combat this major threat for colonial seabirds.

Published
2024
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28. Wild and captive immature orangutans differ in their non-vocal communication with others, but not with their mothers

Author

Fröhlich, Marlen; https://orcid.org/0000-0002-1948-7002, van Noordwijk, Maria A; https://orcid.org/0000-0001-9633-0845, Mitra Setia, Tatang, van Schaik, Carel P; https://orcid.org/0000-0001-5738-4509, Knief, Ulrich; https://orcid.org/0000-0001-6959-3033, Fröhlich, Marlen; https://orcid.org/0000-0002-1948-7002, van Noordwijk, Maria A; https://orcid.org/0000-0001-9633-0845, Mitra Setia, Tatang, van Schaik, Carel P; https://orcid.org/0000-0001-5738-4509, and Knief, Ulrich; https://orcid.org/0000-0001-6959-3033

Abstract

In many group-living species, individuals are required to flexibly modify their communicative behaviour in response to current social challenges. To unravel whether sociality and communication systems co-evolve, research efforts have often targeted the links between social organisation and communicative repertoires. However, it is still unclear which social or interactional factors directly predict communicative complexity. To address this issue, we studied wild and zoo-housed immature orangutans of two species to assess the impact of the socio-ecological setting on the production of non-vocal signal repertoires. Specifically, we compared repertoire size, dyadic repertoire similarity, and number of social goals (i.e. observer’s estimate of the signaller’s intended interaction outcome) for communicative interactions with mothers versus other conspecifics, controlling for critical individual and environmental factors. In this small sample of immature orangutans, wild-captive contrasts were statistically significant only for other-directed repertoires, but not for mother-directed repertoires, and not for the number of social goals that immatures communicated towards. While the repertoires of individuals living in the same research setting were more similar than those living in contrasting settings, this difference was most pronounced for other-directed repertoires of the less socially tolerant orangutan species. These results suggest that the boosted interactional opportunities in captivity rather than mere differences in environmental affordances or communicative needs drive the wild-captive contrast in orangutan communicative repertoires. Overall, this fine-grained analysis of repertoires further underscores that not only a species’ social organisation but also the targeted audience may have a profound impact on communicative behaviour. Significance statement Navigating a dynamic social environment often requires flexible signal use. While it has repeatedly been show

Published
2024

34. Highly pathogenic avian influenza causes mass mortality in Sandwich Tern Thalasseus sandvicensis breeding colonies across north-western Europe

Author

Knief, Ulrich, primary, Bregnballe, Thomas, additional, Alfarwi, Ibrahim, additional, Ballmann, Mónika Z., additional, Brenninkmeijer, Allix, additional, Bzoma, Szymon, additional, Chabrolle, Antoine, additional, Dimmlich, Jannis, additional, Engel, Elias, additional, Fijn, Ruben, additional, Fischer, Kim, additional, Hälterlein, Bernd, additional, Haupt, Matthias, additional, Hennig, Veit, additional, Herrmann, Christof, additional, in ‘t Veld, Ronald, additional, Kirchhoff, Elisabeth, additional, Kristersson, Mikael, additional, Kühn, Susanne, additional, Larsson, Kjell, additional, Larsson, Rolf, additional, Lawton, Neil, additional, Leopold, Mardik, additional, Lilipaly, Sander, additional, Lock, Leigh, additional, Marty, Régis, additional, Matheve, Hans, additional, Meissner, Włodzimierz, additional, Morrison, Paul, additional, Newton, Stephen, additional, Olofsson, Patrik, additional, Packmor, Florian, additional, Pedersen, Kjeld T., additional, Redfern, Chris, additional, Scarton, Francesco, additional, Schenk, Fred, additional, Scher, Olivier, additional, Serra, Lorenzo, additional, Sibille, Alexandre, additional, Smith, Julian, additional, Smith, Wez, additional, Sterup, Jacob, additional, Stienen, Eric, additional, Strassner, Viola, additional, Valle, Roberto G., additional, van Bemmelen, Rob S. A., additional, Veen, Jan, additional, Vervaeke, Muriel, additional, Weston, Ewan, additional, Wojcieszek, Monika, additional, and Courtens, Wouter, additional

Published
2024
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35. Draft Genome Sequences of Gammaproteobacterial Methanotrophs Isolated from Marine Ecosystems

Author

Flynn, James D, Hirayama, Hisako, Sakai, Yasuyoshi, Dunfield, Peter F, Klotz, Martin G, Knief, Claudia, Camp, Huub JM Op den, Jetten, Mike SM, Khmelenina, Valentina N, Trotsenko, Yuri A, Murrell, J Colin, Semrau, Jeremy D, Svenning, Mette M, Stein, Lisa Y, Kyrpides, Nikos, Shapiro, Nicole, Woyke, Tanja, Bringel, Françoise, Vuilleumier, Stéphane, DiSpirito, Alan A, and Kalyuzhnaya, Marina G

Subjects
Microbiology, Biological Sciences, Genetics, Life Below Water
Abstract

The genome sequences of Methylobacter marinus A45, Methylobacter sp. strain BBA5.1, and Methylomarinum vadi IT-4 were obtained. These aerobic methanotrophs are typical members of coastal and hydrothermal vent marine ecosystems.

Published
2016

36. Discovery and population genomics of structural variation in a songbird genus

Author

Matthias H. Weissensteiner, Ignas Bunikis, Ana Catalán, Kees-Jan Francoijs, Ulrich Knief, Wieland Heim, Valentina Peona, Saurabh D. Pophaly, Fritz J. Sedlazeck, Alexander Suh, Vera M. Warmuth, and Jochen B. W. Wolf

Subjects
Science
Abstract

Structural genomic variation can fuel evolution. Here, authors present genome data from seven Corvus species and unearth structural variants that vary between incipient crow species in Europe, with implications for premating isolation involving plumage patterning.

Published
2020
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37. Influence of Physical-Chemical Soil Parameters on Microbiota Composition and Diversity in a Deep Hyperarid Core of the Atacama Desert

Author

Bárbara Fuentes, Alessandra Choque, Francisco Gómez, Jaime Alarcón, Eduardo Castro-Nallar, Franko Arenas, Daniel Contreras, Ramona Mörchen, Wulf Amelung, Claudia Knief, Ghazal Moradi, Erwin Klumpp, Claudia P. Saavedra, Jörg Prietzel, Wantana Klysubun, Francisco Remonsellez, and Roland Bol

Subjects
deep soil, physicochemical properties, microbiota, hyperarid soil, Atacama Desert, Microbiology, QR1-502
Abstract

The extreme environmental conditions and lack of water on the soil surface in hyperarid deserts hamper microbial life, allowing only highly specialized microbial communities to the establish colonies and survive. Until now, the microbial communities that inhabit or have inhabited soils of hyperarid environments at greater depths have been poorly studied. We analyzed for the first time the variation in microbial communities down to a depth of 3.4 m in one of the driest places of the world, the hyperarid Yungay region in the Atacama Desert, and we related it to changes in soil physico-chemical characteristics. We found that the moisture content changed from 2 to 11% with depth and enabled the differentiation of three depth intervals: (i) surface zone A (0–60 cm), (ii) intermediate zone B (60–220 cm), and (iii) deep zone C (220–340 cm). Each zone showed further specific physicochemical and mineralogical features. Likewise, some bacterial phyla were unique in each zone, i.e., members of the taxa Deinococcota, Halobacterota, and Latescibacterota in zone A; Crenarchaeota, Fusobacteriota, and Deltaproteobacterium Sva0485 in zone B; and Fervidibacteria and Campilobacterota in zone C, which indicates taxon-specific preferences in deep soil habitats. Differences in the microbiota between the zones were rather abrupt, which is concomitant with abrupt changes in the physical-chemical parameters. Overall, moisture content, total carbon (TC), pH, and electric conductivity (EC) were most predictive of microbial richness and diversity, while total sulfur (TS) and total phosphorous (TP) contents were additionally predictive of community composition. We also found statistically significant associations between taxa and soil properties, most of which involved moisture and TC contents. Our findings show that under-explored habitats for microbial survival and existence may prevail at greater soil depths near water or within water-bearing layers, a valuable substantiation also for the ongoing search for biosignatures on other planets, such as Mars.

Published
2022
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40. Draft Genomes of Gammaproteobacterial Methanotrophs Isolated from Terrestrial Ecosystems

Author

Hamilton, Richard, Kits, K Dimitri, Ramonovskaya, Victoria A, Rozova, Olga N, Yurimoto, Hiroya, Iguchi, Hiroyuki, Khmelenina, Valentina N, Sakai, Yasuyoshi, Dunfield, Peter F, Klotz, Martin G, Knief, Claudia, Camp, Huub JM Op den, Jetten, Mike SM, Bringel, Françoise, Vuilleumier, Stéphane, Svenning, Mette M, Shapiro, Nicole, Woyke, Tanja, Trotsenko, Yuri A, Stein, Lisa Y, and Kalyuzhnaya, Marina G

Subjects
Microbiology, Biological Sciences, Genetics, Human Genome, Biochemistry and Cell Biology
Abstract

Genome sequences of Methylobacter luteus, Methylobacter whittenburyi, Methylosarcina fibrata, Methylomicrobium agile, and Methylovulum miyakonense were generated. The strains represent aerobic methanotrophs typically isolated from various terrestrial ecosystems.

Published
2015

41. Draft Genome Sequence of the Moderately Halophilic Methanotroph Methylohalobius crimeensis Strain 10Ki

Author

Sharp, Christine E, Smirnova, Angela V, Kalyuzhnaya, Marina G, Bringel, Françoise, Hirayama, Hisako, Jetten, Mike SM, Khmelenina, Valentina N, Klotz, Martin G, Knief, Claudia, Kyrpides, Nikos, Camp, Huub JM Op den, Reshetnikov, Alexander S, Sakai, Yasuyoshi, Shapiro, Nicole, Trotsenko, Yuri A, Vuilleumier, Stéphane, Woyke, Tanja, and Dunfield, Peter F

Subjects
Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, Biochemistry and Cell Biology
Abstract

Methylohalobius crimeensis strain 10Ki is a moderately halophilic aerobic methanotroph isolated from a hypersaline lake in the Crimean Peninsula, Ukraine. This organism has the highest salt tolerance of any cultured methanotroph. Here, we present a draft genome sequence of this bacterium.

Published
2015

43. Bridging Microbial Functional Traits With Localized Process Rates at Soil Interfaces

Author

Evgenia Blagodatskaya, Mika Tarkka, Claudia Knief, Robert Koller, Stephan Peth, Volker Schmidt, Sandra Spielvogel, Daniel Uteau, Matthias Weber, and Bahar S. Razavi

Subjects
rhizosphere, mycorrhizosphere, detritusphere, (bio)-pores, soil aggregates, soil priming, Microbiology, QR1-502
Abstract

In this review, we introduce microbially-mediated soil processes, players, their functional traits, and their links to processes at biogeochemical interfaces [e.g., rhizosphere, detritusphere, (bio)-pores, and aggregate surfaces]. A conceptual view emphasizes the central role of the rhizosphere in interactions with other biogeochemical interfaces, considering biotic and abiotic dynamic drivers. We discuss the applicability of three groups of traits based on microbial physiology, activity state, and genomic functional traits to reflect microbial growth in soil. The sensitivity and credibility of modern molecular approaches to estimate microbial-specific growth rates require further development. A link between functional traits determined by physiological (e.g., respiration, biomarkers) and genomic (e.g., genome size, number of ribosomal gene copies per genome, expression of catabolic versus biosynthetic genes) approaches is strongly affected by environmental conditions such as carbon, nutrient availability, and ecosystem type. Therefore, we address the role of soil physico-chemical conditions and trophic interactions as drivers of microbially-mediated soil processes at relevant scales for process localization. The strengths and weaknesses of current approaches (destructive, non-destructive, and predictive) for assessing process localization and the corresponding estimates of process rates are linked to the challenges for modeling microbially-mediated processes in heterogeneous soil microhabitats. Finally, we introduce a conceptual self-regulatory mechanism based on the flexible structure of active microbial communities. Microbial taxa best suited to each successional stage of substrate decomposition become dominant and alter the community structure. The rates of decomposition of organic compounds, therefore, are dependent on the functional traits of dominant taxa and microbial strategies, which are selected and driven by the local environment.

Published
2021
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44. A sex chromosome inversion is associated with copy number variation of mitochondrial DNA in zebra finch sperm

Author

Ulrich Knief, Wolfgang Forstmeier, Bart Kempenaers, and Jochen B. W. Wolf

Subjects
mitochondrion, heterosis, overdominance, CNV, qPCR, Science
Abstract

The propulsion of sperm cells via movement of the flagellum is of vital importance for successful fertilization. While the exact mechanism of energy production for this movement varies between species, in avian species energy is thought to come predominantly from the mitochondria located in the sperm midpiece. Larger midpieces may contain more mitochondria, which should enhance the energetic capacity and possibly promote mobility. Due to an inversion polymorphism on their sex chromosome TguZ, zebra finches (Taeniopygia guttata castanotis) exhibit large within-species variation in sperm midpiece length, and those sperm with the longest midpieces swim the fastest. Here, we test through quantitative real-time PCR in zebra finch ejaculates whether the inversion genotype has an effect on the copy number of mitochondrial DNA (mtDNA). We find that zebra finches carrying the derived allele (correlated with longer sperm midpieces) have more copies of the mtDNA in their ejaculates than those homozygous for the ancestral allele (shorter midpieces). We suggest downstream effects of mtDNA copy number variation on the rate of adenosine triphosphate production, which in turn may influence sperm swimming speed and fertilization success. Central components of gamete energy metabolism may thus be the proximate cause for a fitness-relevant genetic polymorphism, stabilizing a megabase-scale inversion at an intermediate allele frequency in the wild.

Published
2021
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