Your search keyword '"Agricultural and Veterinary Sciences"' showing total 12,903 results

1. Natural alleles of LEAFY and WAPO1 interact to regulate spikelet number per spike in wheat

Author

Zhang, Junli, Burguener, Germán F, Paraiso, Francine, and Dubcovsky, Jorge

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Crop and Pasture Production, Genetics, Triticum, Alleles, Plant Proteins, Haplotypes, Chromosome Mapping, Phenotype, Plant Breeding, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany, Crop and pasture production, Plant biology

Abstract

Key messageSpecific combinations of LFY and WAPO1 natural alleles maximize spikelet number per spike in wheat. Spikelet number per spike (SNS) is an important yield component in wheat that determines the maximum number of grains that can be formed in a wheat spike. In wheat, loss-of-function mutations in LEAFY (LFY) or its interacting protein WHEAT ORTHOLOG OF APO1 (WAPO1) significantly reduce SNS by reducing the rate of formation of spikelet meristems. In previous studies, we identified a natural amino acid change in WAPO1 (C47F) that significantly increases SNS in hexaploid wheat. In this study, we searched for natural variants in LFY that were associated with differences in SNS and detected significant effects in the LFY-B region in a nested association mapping population. We generated a large mapping population and confirmed that the LFY-B polymorphism R80S is linked with the differences in SNS, suggesting that LFY-B is the likely causal gene. A haplotype analysis revealed two amino acid changes P34L and R80S, which were both enriched during wheat domestication and breeding suggesting positive selection. We also explored the interactions between the LFY and WAPO1 natural variants for SNS using biparental populations and identified significant interaction, in which the positive effect of the 80S and 34L alleles from LFY-B was only detected in the WAPO-A1 47F background but not in the 47C background. Based on these results, we propose that the allele combination WAPO-A1-47F/LFY-B 34L 80S can be used in wheat breeding programs to maximize SNS and increase grain yield potential in wheat.

Published

2024

2. Transcriptomics reveal a mechanism of niche defense: two beneficial root endophytes deploy an antimicrobial GH18‐CBM5 chitinase to protect their hosts

Author

Eichfeld, Ruben, Mahdi, Lisa K, De Quattro, Concetta, Armbruster, Laura, Endeshaw, Asmamaw B, Miyauchi, Shingo, Hellmann, Margareta J, Cord‐Landwehr, Stefan, Peterson, Daniel, Singan, Vasanth, Lail, Kathleen, Savage, Emily, Ng, Vivian, Grigoriev, Igor V, Langen, Gregor, Moerschbacher, Bruno M, and Zuccaro, Alga

Subjects

Microbiology, Plant Biology, Biological Sciences, Ecology, Infectious Diseases, Chitinases, Plant Roots, Endophytes, Transcriptome, Anti-Infective Agents, Symbiosis, Ascomycota, Gene Expression Regulation, Plant, Gene Expression Regulation, Fungal, beneficial endophytes, chitinase, fungal effectors, niche defense, root colonization, Sebacinales, time-resolved transcriptomics, time‐resolved transcriptomics, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

Effector secretion is crucial for root endophytes to establish and protect their ecological niche. We used time-resolved transcriptomics to monitor effector gene expression dynamics in two closely related Sebacinales, Serendipita indica and Serendipita vermifera, during symbiosis with three plant species, competition with the phytopathogenic fungus Bipolaris sorokiniana, and cooperation with root-associated bacteria. We observed increased effector gene expression in response to biotic interactions, particularly with plants, indicating their importance in host colonization. Some effectors responded to both plants and microbes, suggesting dual roles in intermicrobial competition and plant-microbe interactions. A subset of putative antimicrobial effectors, including a GH18-CBM5 chitinase, was induced exclusively by microbes. Functional analyses of this chitinase revealed its antimicrobial and plant-protective properties. We conclude that dynamic effector gene expression underpins the ability of Sebacinales to thrive in diverse ecological niches with a single fungal chitinase contributing substantially to niche defense.

Published

2024

3. Evolutionary arms race: the role of xylan modifications in plant–pathogen interactions

Author

Mortimer, Jenny C and Scheller, Henrik V

Subjects

Plant Biology, Biological Sciences, Xylans, Biological Evolution, Host-Pathogen Interactions, Plants, Plant Diseases, disease resistance, evolution, glycosyltransferase, hemicellulose, plant cell wall, xylan, xylanase, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

This article is a Commentary on Yu et al. (2024), 244: 1024–1040.

Published

2024

4. Three‐dimensional vegetation structure drives patterns of seed dispersal by African hornbills

Author

Russo, Nicholas J, Nshom, Docas L, Ferraz, António, Barbier, Nicolas, Wikelski, Martin, Noonan, Michael J, Ordway, Elsa M, Saatchi, Sassan, and Smith, Thomas B

Subjects

Biological Sciences, Ecology, hornbill, movement ecology, seed dispersal, step selection functions, tropical forest, UAV-LiDAR, UAV‐LiDAR, Environmental Sciences, Agricultural and Veterinary Sciences, Zoology

Abstract

Three-dimensional (3D) vegetation structure influences animal movements and, consequently, ecosystem functions. Animals disperse the seeds of 60%-90% of trees in tropical rainforests, which are among the most structurally complex ecosystems on Earth. Here, we investigated how 3D rainforest structure influences the movements of large, frugivorous birds and resulting spatial patterns of seed dispersal. We GPS-tracked white-thighed (Bycanistes albotibialis) and black-casqued hornbills (Ceratogymna atrata) in a study area surveyed by light detection and ranging (LiDAR) in southern Cameroon. We found that both species preferred areas of greater canopy height and white-thighed hornbill preferred areas of greater vertical complexity. In addition, 33% of the hornbills preferred areas close to canopy gaps, while 16.7% and 27.8% avoided large and small gaps, respectively. White-thighed hornbills avoided swamp habitats, while black-casqued increased their preference for swamps during the hottest temperatures. We mapped spatial probabilities of seed dispersal by hornbills, showing that 3D structural attributes shape this ecological process by influencing hornbill behaviour. These results provide evidence of a possible feedback loop between rainforest vegetation structure and seed dispersal by animals. Interactions between seed dispersers and vegetation structure described here are essential for understanding ecosystem functions in tropical rainforests and critical for predicting how rainforests respond to anthropogenic impacts.

Published

2024

5. Killing two birds with one stone: A breakthrough in transgene-free gene editing in soybean

Author

Teng, Chong

Subjects

Plant Biology, Biological Sciences, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology

Published

2024

6. Prezygotic barriers effectively limit hybridization in a rapid evolutionary radiation.

Author

Uckele, Kathryn A, Vargas, Oscar M, and Kay, Kathleen M

Subjects

Costus, evolutionary radiation, hybridization, introgression, phylogenomic methods, prezygotic barriers, speciation, spiral gingers, Biological Sciences, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

Hybridization is increasingly recognized as an important evolutionary process across the tree of life. In many clades, phylogenomic approaches have permitted unparalleled insight into the extent and frequency of hybridization. However, we continue to lack a deep understanding of the factors that limit and shape patterns of hybridization, especially in evolutionary radiations. In this study, we characterized patterns of introgression across Costus (Costaceae), a young evolutionary radiation of tropical understory plants that maintain widespread interfertility despite exhibiting strong prezygotic reproductive isolation. We analyzed a phylogenomic dataset of 756 genes from 54 Costus species using multiple complementary approaches - D-statistics, gene-tree-based tests, and phylogenetic network analyses - to detect and characterize introgression events throughout the evolutionary history of the radiation. Our results identified a moderate number of introgression events, including a particularly ancient, well-supported event spanning one of the deepest divergences in the clade. Most introgression events occurred between taxa or ancestral lineages that shared the same pollination syndrome (bee-pollinated or hummingbird-pollinated). These findings suggest that prezygotic barriers, including pollinator specialization, have been key to the balance between introgression and reproductive isolation in Costus.

Published

2024

7. Concurrent Measurement of O2 Production and Isoprene Emission During Photosynthesis: Pros, Cons and Metabolic Implications of Responses to Light, CO2 and Temperature

Author

Jardine, Kolby Jeremiah, Som, Suman, Gallo, Luiza Beraldi, Demus, Jilian, Domingues, Tomas Ferreira, Wistrom, Christina Marie, Gu, Lianhong, Tcherkez, Guillaume, and Niinemets, Ülo

Subjects

Plant Biology, Biological Sciences, electron transport, gross oxygen production, (H2O)-O-18 labelling, isoprene, isotope labelling, lipid metabolism, net oxygen production, photorespiration, photosynthesis, thermotolerance, H218O labelling, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology

Abstract

Traditional leaf gas exchange experiments have focused on net CO2 exchange (Anet). Here, using California poplar (Populus trichocarpa), we coupled measurements of net oxygen production (NOP), isoprene emissions and δ18O in O2 to traditional CO2/H2O gas exchange with chlorophyll fluorescence, and measured light, CO2 and temperature response curves. This allowed us to obtain a comprehensive picture of the photosynthetic redox budget including electron transport rate (ETR) and estimates of the mean assimilatory quotient (AQ = Anet/NOP). We found that Anet and NOP were linearly correlated across environmental gradients with similar observed AQ values during light (1.25 ± 0.05) and CO2 responses (1.23 ± 0.07). In contrast, AQ was suppressed during leaf temperature responses in the light (0.87 ± 0.28), potentially due to the acceleration of alternative ETR sinks like lipid synthesis. Anet and NOP had an optimum temperature (Topt) of 31°C, while ETR and δ18O in O2 (35°C) and isoprene emissions (39°C) had distinctly higher Topt. The results confirm a tight connection between water oxidation and ETR and support a view of light-dependent lipid synthesis primarily driven by photosynthetic ATP/NADPH not consumed by the Calvin-Benson cycle, as an important thermotolerance mechanism linked with high rates of (photo)respiration and CO2/O2 recycling.

Published

2024

8. Designing count‐based studies in a world of hierarchical models

Author

Latif, Quresh S, Valente, Jonathon J, Johnston, Alison, Davis, Kayla L, Fogarty, Frank A, Green, Adam W, Jones, Gavin M, Leu, Matthias, Michel, Nicole L, Pavlacky, David C, Rigby, Elizabeth A, Rushing, Clark S, Sanderlin, Jamie S, Tingley, Morgan W, and Zhao, Qing

Subjects

Environmental Sciences, Biological Sciences, Ecology, birds, data analysis, population counts, research questions, sampling design, study planning, survey protocol, Agricultural and Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Abstract

Abstract: Advances in hierarchical modeling have improved estimation of ecological parameters from count data, especially those quantifying population abundance, distribution, and dynamics by explicitly accounting for observation processes, particularly incomplete detection. Even hierarchical models that account for incomplete detection, however, cannot compensate for data limitations stemming from poorly planned sampling. Ecologists therefore need guidance for planning count‐based studies that follow established sampling theory, collect appropriate data, and apply current modeling approaches to answer their research questions. We synthesize available literature relevant to guiding count‐based studies. Considering the central historical and ongoing contributions of avian studies to ecological knowledge, we focus on birds as a case study for this review, but the basic principles apply to all populations whose members are sufficiently observable to be counted. The sequence of our review represents the thought process in which we encourage ecologists to engage 1) the research question(s) and population parameters to measure, 2) sampling design, 3) analytical framework, 4) temporal design, and 5) survey protocol. We also provide 2 hypothetical demonstrations of these study plan components representing different research questions and study systems. Mirroring the structure of hierarchical models, we suggest researchers primarily focus on the ecological processes of interest when designing their approach to sampling, and wait to consider logistical constraints of data collection and observation processes when developing the survey protocol. We offer a broad framework for researchers planning count‐based studies, while pointing to relevant literature elaborating on particular tools and concepts.

Published

2024

9. Climatic variation allows montane willows to escape an adaptive trade‐off

Author

Rosenblad, Kyle C and Ackerly, David D

Subjects

Climate Change Impacts and Adaptation, Biological Sciences, Ecology, Environmental Sciences, Climate Action, assisted gene flow, climate change, drought resistance, freezing resistance, growth, local adaptation, physiology, trade-offs, trade‐offs, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

Adaptive responses to climate change, based on heritable variation in stress tolerance, may be important for plant population persistence. It is unclear which populations will mount the strongest future adaptive responses. It may be fruitful to identify populations that have escaped trade-offs among performance traits, which can hinder adaptation. Barring strong genetic constraints, the extent of trade-offs may depend on spatial relationships among climate variables shaping different traits. Here, we test for climate-driven ecotypic variation and trade-offs among drought and freezing sensitivity, and growth, for Lemmon's willow (Salix lemmonii) in a common garden study of 90 genotypes from 38 sites in the Sierra Nevada, USA. Salix lemmonii exhibits ecotypic variation in leaf turgor loss point, a measure of drought sensitivity, from -0.95 to -0.74 MPa along a gradient of spring snowpack. We also find variation in spring freezing sensitivity with minimum May temperature. However, we find no trade-off, as the climatic gradients shaping these traits are spatially uncorrelated in our study region, despite being negatively correlated across the Sierra Nevada. Species may escape adaptive trade-offs in geographic regions where climate variables are spatially decoupled. These regions may represent valuable reservoirs of heritable adaptive phenotypic variation.

Published

2024

10. Wild raccoons demonstrate flexibility and individuality in innovative problem-solving

Author

Stanton, Lauren A, Cooley-Ackermann, Carissa, Davis, Emily C, Fanelli, Rachel E, and Benson-Amram, Sarah

Subjects

Climate Change Impacts and Adaptation, Environmental Sciences, Animals, Problem Solving, Raccoons, Male, Individuality, Female, carnivore, cognition, learning, inhibitory control, puzzle box, urban, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Abstract

Cognitive skills, such as innovative problem-solving, are hypothesized to aid animals in urban environments. However, the significance of innovation in wild populations, and its expression across individuals and socio-ecological conditions, is poorly understood. To identify how and when innovation arises in urban-dwelling species, we used advanced technologies and new testing and analytical methods to evaluate innovative problem-solving abilities of wild raccoons (Procyon lotor). We deployed multi-compartment puzzle boxes with either one or multiple solution types and identified raccoons using radio frequency identification. Raccoons solved these novel extractive foraging tasks, and their success was influenced by age and exploratory diversity. Successful raccoons always discovered multiple different solution types, highlighting flexible problem-solving. Using a unique, comparative sequence analysis approach, we found that variation in raccoon solving techniques was greater between individuals than within individuals, and this self-similarity intensified during times of competition. Finally, the inclusion of an easier solution in the multi-solution trials enabled previously unsuccessful raccoons to bootstrap their learning and successfully open multiple difficult solutions. Our study suggests that innovative problem-solving is probably influenced by many factors and has provided novel field and analytical methods, as well as new insights on the socio-ecological dynamics of urban populations.

Published

2024

11. The harms of promoting the lab leak hypothesis for SARS-CoV-2 origins without evidence.

Author

Alwine, James, Goodrum, Felicia, Banfield, Bruce, Bloom, David, Britt, William J, Broadbent, Andrew J, Campos, Samuel K, Casadevall, Arturo, Chan, Gary C, Cliffe, Anna R, Dermody, Terence, Duprex, Paul, Enquist, Lynn W, Frueh, Klaus, Geballe, Adam P, Gaglia, Marta, Goldstein, Stephen, Greninger, Alexander L, Gronvall, Gigi Kwick, Jung, Jae U, Kamil, Jeremy P, Lakdawala, Seema, Liu, Shan-Lu, Luftig, Micah, Moore, John P, Moscona, Anne, Neuman, Benjamin W, Nikolich, Janko Ž, O'Connor, Christine, Pekosz, Andrew, Permar, Sallie, Pfeiffer, Julie, Purdy, John, Rasmussen, Angela, Semler, Bert, Smith, Gregory A, Stein, David A, Van Doorslaer, Koenraad, Weller, Sandra K, Whelan, Sean PJ, and Yurochko, Andrew

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Biomedical and Clinical Sciences, Emerging Infectious Diseases, Coronaviruses, Infectious Diseases, Life on Land, COVID-19, SARS-CoV-2, anti-science, lab leak, origin, pandemic, science advocacy, science policy, spillover, zoonosis, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Science is humanity's best insurance against threats from nature, but it is a fragile enterprise that must be nourished and protected. The preponderance of scientific evidence indicates a natural origin for SARS-CoV-2. Yet, the theory that SARS-CoV-2 was engineered in and escaped from a lab dominates media attention, even in the absence of strong evidence. We discuss how the resulting anti-science movement puts the research community, scientific research, and pandemic preparedness at risk.

Published

2024

12. Changes in soil N2O emissions and nitrogen use efficiency following long-term soil carbon storage: Evidence from a mesocosm experiment

Author

Kelley, Lindsey A, Zhang, Zhenglin, Tamagno, Santiago, Lundy, Mark E, Mitchell, Jeffrey P, Gaudin, Amélie CM, and Pittelkow, Cameron M

Subjects

Environmental Sciences, Agricultural and Veterinary Sciences, Studies in Human Society, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Environmental sciences, Human society

Published

2024

13. Future climate doubles the risk of hydraulic failure in a wet tropical forest

Author

Robbins, Zachary, Chambers, Jeffrey, Chitra‐Tarak, Rutuja, Christoffersen, Bradley, Dickman, L Turin, Fisher, Rosie, Jonko, Alex, Knox, Ryan, Koven, Charles, Kueppers, Lara, McDowell, Nate, and Xu, Chonggang

Subjects

Plant Biology, Biological Sciences, Climate Action, Barro Colorado Island, FATES, future drought, hydraulic failure, tropical forests, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

Future climate presents conflicting implications for forest biomass. We evaluate how plant hydraulic traits, elevated CO2 levels, warming, and changes in precipitation affect forest primary productivity, evapotranspiration, and the risk of hydraulic failure. We used a dynamic vegetation model with plant hydrodynamics (FATES-HYDRO) to simulate the stand-level responses to future climate changes in a wet tropical forest in Barro Colorado Island, Panama. We calibrated the model by selecting plant trait assemblages that performed well against observations. These assemblages were run with temperature and precipitation changes for two greenhouse gas emission scenarios (2086-2100: SSP2-45, SSP5-85) and two CO2 levels (contemporary, anticipated). The risk of hydraulic failure is projected to increase from a contemporary rate of 5.7% to 10.1-11.3% under future climate scenarios, and, crucially, elevated CO2 provided only slight amelioration. By contrast, elevated CO2 mitigated GPP reductions. We attribute a greater variation in hydraulic failure risk to trait assemblages than to either CO2 or climate. Our results project forests with both faster growth (through productivity increases) and higher mortality rates (through increasing rates of hydraulic failure) in the neo-tropics accompanied by certain trait plant assemblages becoming nonviable.

Published

2024

14. Horizontal gene transfer of the Mer operon is associated with large effects on the transcriptome and increased tolerance to mercury in nitrogen-fixing bacteria

Author

Bhat, Aditi, Sharma, Reena, Desigan, Kumaran, Lucas, M Mercedes, Mishra, Ankita, Bowers, Robert M, Woyke, Tanja, Epstein, Brendan, Tiffin, Peter, Pueyo, José J, and Paape, Tim

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Gene Transfer, Horizontal, Mercury, Operon, Transcriptome, Symbiosis, Nitrogen-Fixing Bacteria, Bacterial Proteins, Gene Expression Regulation, Bacterial, Nitrogen Fixation, Rhizobium leguminosarum, Soil Microbiology, Horizontal gene transfer, Mer operon, Mercury reductase, Rhizobia, Agricultural and Veterinary Sciences, Medical and Health Sciences, Microbiology, Medical microbiology

Abstract

BackgroundMercury (Hg) is highly toxic and has the potential to cause severe health problems for humans and foraging animals when transported into edible plant parts. Soil rhizobia that form symbiosis with legumes may possess mechanisms to prevent heavy metal translocation from roots to shoots in plants by exporting metals from nodules or compartmentalizing metal ions inside nodules. Horizontal gene transfer has potential to confer immediate de novo adaptations to stress. We used comparative genomics of high quality de novo assemblies to identify structural differences in the genomes of nitrogen-fixing rhizobia that were isolated from a mercury (Hg) mine site that show high variation in their tolerance to Hg.ResultsOur analyses identified multiple structurally conserved merA homologs in the genomes of Sinorhizobium medicae and Rhizobium leguminosarum but only the strains that possessed a Mer operon exhibited 10-fold increased tolerance to Hg. RNAseq analysis revealed nearly all genes in the Mer operon were significantly up-regulated in response to Hg stress in free-living conditions and in nodules. In both free-living and nodule environments, we found the Hg-tolerant strains with a Mer operon exhibited the fewest number of differentially expressed genes (DEGs) in the genome, indicating a rapid and efficient detoxification of Hg from the cells that reduced general stress responses to the Hg-treatment. Expression changes in S. medicae while in bacteroids showed that both rhizobia strain and host-plant tolerance affected the number of DEGs. Aside from Mer operon genes, nif genes which are involved in nitrogenase activity in S. medicae showed significant up-regulation in the most Hg-tolerant strain while inside the most Hg-accumulating host-plant. Transfer of a plasmid containing the Mer operon from the most tolerant strain to low-tolerant strains resulted in an immediate increase in Hg tolerance, indicating that the Mer operon is able to confer hyper tolerance to Hg.ConclusionsMer operons have not been previously reported in nitrogen-fixing rhizobia. This study demonstrates a pivotal role of the Mer operon in effective mercury detoxification and hypertolerance in nitrogen-fixing rhizobia. This finding has major implications not only for soil bioremediation, but also host plants growing in mercury contaminated soils.

Published

2024

15. Multicellular magnetotactic bacteria are genetically heterogeneous consortia with metabolically differentiated cells

Author

Schaible, George A, Jay, Zackary J, Cliff, John, Schulz, Frederik, Gauvin, Colin, Goudeau, Danielle, Malmstrom, Rex R, Ruff, S Emil, Edgcomb, Virginia, and Hatzenpichler, Roland

Subjects

Microbiology, Biological Sciences, Ecology, Genetics, Human Genome, Biotechnology, Generic health relevance, In Situ Hybridization, Fluorescence, Metagenome, Microbial Consortia, Genome, Bacterial, Bacteria, Genetic Variation, Phylogeny, Agricultural and Veterinary Sciences, Medical and Health Sciences, Developmental Biology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Consortia of multicellular magnetotactic bacteria (MMB) are currently the only known example of bacteria without a unicellular stage in their life cycle. Because of their recalcitrance to cultivation, most previous studies of MMB have been limited to microscopic observations. To study the biology of these unique organisms in more detail, we use multiple culture-independent approaches to analyze the genomics and physiology of MMB consortia at single-cell resolution. We separately sequenced the metagenomes of 22 individual MMB consortia, representing 8 new species, and quantified the genetic diversity within each MMB consortium. This revealed that, counter to conventional views, cells within MMB consortia are not clonal. Single consortia metagenomes were then used to reconstruct the species-specific metabolic potential and infer the physiological capabilities of MMB. To validate genomic predictions, we performed stable isotope probing (SIP) experiments and interrogated MMB consortia using fluorescence in situ hybridization (FISH) combined with nanoscale secondary ion mass spectrometry (NanoSIMS). By coupling FISH with bioorthogonal noncanonical amino acid tagging (BONCAT), we explored their in situ activity as well as variation of protein synthesis within cells. We demonstrate that MMB consortia are mixotrophic sulfate reducers and that they exhibit metabolic differentiation between individual cells, suggesting that MMB consortia are more complex than previously thought. These findings expand our understanding of MMB diversity, ecology, genomics, and physiology, as well as offer insights into the mechanisms underpinning the multicellular nature of their unique lifestyle.

Published

2024

16. Mucosal vaccination in a murine gnotobiotic model of Giardia lamblia infection

Author

Ihara, Sozaburo, Nguyen, Brian V, Miyamoto, Yukiko, and Eckmann, Lars

Subjects

Microbiology, Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Digestive Diseases, Vaccine Related, Biotechnology, Foodborne Illness, Biodefense, Emerging Infectious Diseases, Prevention, Immunization, Infectious Diseases, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Animals, Giardiasis, Giardia lamblia, Mice, Germ-Free Life, Disease Models, Animal, Protozoan Vaccines, Vaccination, Intestinal Mucosa, Humans, Female, giardiasis, germ-free mice, small intestine, immunization, alpha 1-giardin, α1-giardin, Agricultural and Veterinary Sciences, Medical and Health Sciences, Immunology, Medical microbiology

Abstract

Giardia lamblia is an important protozoan cause of diarrheal disease worldwide, delayed development and cognitive impairment in children in low- and middle-income countries, and protracted post-infectious syndromes in developed regions. G. lamblia resides in the lumen and at the epithelial surface of the proximal small intestine but is not mucosa invasive. The protozoan parasite is genetically diverse with significant genome differences across strains and assemblages. Animal models, particularly murine models, have been instrumental in defining mechanisms of host defense against G. lamblia, but mice cannot be readily infected with most human pathogenic strains. Antibiotic pretreatment can increase susceptibility, suggesting that the normal microbiota plays a role in controlling G. lamblia infection in mice, but the broader implications on susceptibility to diverse strains are not known. Here, we have used gnotobiotic mice to demonstrate that robust intestinal infection can be achieved for a broad set of human-pathogenic strains of the genetic assemblages A and B. Furthermore, gnotobiotic mice were able to eradicate infection with a similar kinetics to conventional mice after trophozoite challenge. Germ-free mice could also be effectively immunized by the mucosal route with a protective antigen, α1-giardin, in a manner dependent on CD4 T cells. These results indicate that the gnotobiotic mouse model is powerful for investigating acquired host defenses in giardiasis, as the mice are broadly susceptible to diverse G. lamblia strains yet display no apparent defects in mucosal immunity needed for controlling and eradicating this lumen-dwelling pathogen.

Published

2024

17. Evaluation of extinction risk for stream fishes within an urban riverscape using population viability analysis

Author

Huntsman, Brock M, Palenscar, Kai, Russell, Kerwin, Mills, Brett, Jones, Chris, Ota, William, Anderson, Kurt E, Dyer, Heather, Abadi, Fitsum, and Wulff, Marissa

Subjects

Environmental Sciences, Environmental Management, Life on Land, arroyo chub, N-mixture model, reconciliation ecology, Ricker population growth model, Santa Ana sucker, urban stream syndrome, Biological Sciences, Agricultural and Veterinary Sciences, Marine Biology & Hydrobiology, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Abstract

Abstract: 1. The Santa Ana River in the Los Angeles region of California demonstrates common habitat degradation symptoms that are characteristic of the urban stream syndrome. These impacts have altered the Santa Ana River community structure, with few species as impacted as the native Santa Ana sucker (sucker; Pantosteus santaanae). 2. Consequently, a recovery plan developed for sucker identified the need for a population viability analysis (PVA) to assess sucker extirpation risk. However, PVAs can be data‐intensive and are subject to several sources of bias when standardized protocols are absent. 3. More than 20 years of sucker and arroyo chub (chub; Gila orcuttii) surveys using different methods were compiled to build an integrated hierarchical multi‐population PVA to estimate trends in abundance and extirpation probability of these native fishes from the Santa Ana River. 4. PVA modelling indicated similar patterns in sucker and chub abundance along the Santa Ana River, with the highest abundance of both species in the upper regions of the river during the early 2000s and downstream in recent years (2018–2022). Extirpation risk was estimated to be greatest near wastewater treatment facilities, where native fish abundance estimates have been zero since 2018. Extirpation risk was lower downstream of the wastewater treatment facilities for both species, although extinction risk was higher for sucker than chub throughout the river. 5. As the model evolves and more data are collected, the PVA could be used to assess the effects of various management actions, such as non‐native predator removals and native fish re‐introductions, on sucker and chub persistence.

Published

2024

18. Hysteresis area at the canopy level during and after a drought event in the Central Amazon

Author

Gimenez, Bruno O, Souza, Daisy C, Higuchi, Niro, Negrón-Juárez, Robinson I, de Jesus Sampaio-Filho, Israel, Araújo, Alessandro C, Lima, Adriano JN, Fontes, Clarissa G, Jardine, Kolby J, Koven, Charles D, Meng, Lin, Pastorello, Gilberto, McDowell, Nate, and Chambers, Jeffrey Q

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Ecology, Plant Biology, Forestry Sciences, Heat stress, Idealized simulations, Hysteresis loops, Leaf water potential, Amazonia, Earth Sciences, Agricultural and Veterinary Sciences, Meteorology & Atmospheric Sciences, Agricultural, veterinary and food sciences, Biological sciences, Earth sciences

Abstract

Understanding forest water limitation during droughts within a warming climate is essential for accurate predictions of forest-climate interactions. In hyperdiverse ecosystems like the Amazon forest, the mechanisms shaping hysteresis patterns in transpiration relative to environmental factors are not well understood. From this perspective, we investigated these dynamics by conducting in situ leaf-level measurements throughout and after the 2015 El Niño-Southern Oscillation (ENSO) drought. Our findings indicate a substantial increase in the hysteresis area (Harea) among transpiration (E), vapor pressure deficit (VPD), and stomatal conductance (gs) at canopy level during the ENSO peak, attributed to both temporal lag and differences in magnitude between gs and VPD peaks. Specifically, the canopy species Pouteria anomala exhibited an increased Harea, due to earlier maximum gs rates leading to a greater temporal lag with VPD compared to the post-drought period. Additionally, leaf water potential (ΨL) and canopy temperature (Tcanopy) showed larger Harea during the ENSO peak compared to post-drought conditions across all studied species, suggesting that stomatal closure, particularly during the afternoon, acts to minimize water loss and may explain the counterclockwise hysteresis observed between ΨL and Tcanopy. The pronounced Harea during the drought points to a potential imbalance between water supply and demand, underlining the role of stomatal behavior of isohydric species in response to drought.

Published

2024

19. Herbivores can benefit both plants and their pathogens through selective herbivory on diseased tissue

Author

Murray, Naomi A, DuBois, Katherine, and Stachowicz, John J

Subjects

Biological Sciences, Ecology, aquatic plant ecology, disease ecology, eelgrass wasting disease, plant-herbivore interactions, plant-pathogen interactions, seagrass, Zostera marina, Environmental Sciences, Agricultural and Veterinary Sciences

Abstract

Infectious disease can shape community structure, particularly when pathogens affect foundation species. Seagrasses are foundation species that form meadows along coasts worldwide, controlling sediment deposition and biogeochemical cycling while supporting a diverse community of fish and invertebrates. These plants are hosts to wasting diseases that cause necrotic tissue lesions, which could alter seagrass value as food, habitat and mediators of ecosystem processes. However, such biotic interactions and influences on disease dynamics are still not well understood. We investigated whether a common herbivore affected the development of wasting disease on eelgrass. We measured the severity and prevalence of eelgrass wasting disease in a meadow across two summers through repeated field surveys. We assessed the role of the eelgrass herbivore on disease spread and growth using microcosm and mesocosm experiments. We further explored herbivore feeding preferences in a choice trial, which was paired with chemical analysis of plant tissue and analysed using a structural equation model. While the herbivore facilitates the growth of new disease lesions among isolated leaves, on balance they reduce lesion severity by more than 50% in comparison with no-herbivore controls in field-realistic settings. This was likely because the herbivore strongly prefers to eat diseased rather than healthy tissue, consuming nearly twice as much lesion area in choice trials. This preference arises from pathogen-driven changes in the host plant; lesioned tissue requires less force to penetrate than non-lesioned tissue. Additionally, as lesions increase in size, their polyphenolic concentrations drop, which further increases the magnitude of preference for lesioned tissue. Synthesis: These results suggest that these herbivores could help maintain disease in this system at a high prevalence (by facilitating disease development) but low severity (through preferential consumption), which is consistent with our field observations of nearly 100% prevalence and low severity in a natural bed where herbivore density is high. Describing such multi-species interactions in marine systems will advance our predictions of future disease states, as current understandings focus primarily on how environmental change contributes to pathogen outbreaks.

Published

2024

20. The path from root input to mineral-associated soil carbon is dictated by habitat-specific microbial traits and soil moisture

Author

Sokol, Noah W, Foley, Megan M, Blazewicz, Steven J, Bhattacharyya, Amrita, DiDonato, Nicole, Estera-Molina, Katerina, Firestone, Mary, Greenlon, Alex, Hungate, Bruce A, Kimbrel, Jeffrey, Liquet, Jose, Lafler, Marissa, Marple, Maxwell, Nico, Peter S, Paša-Tolić, Ljiljana, Slessarev, Eric, and Pett-Ridge, Jennifer

Subjects

Environmental Sciences, Soil Sciences, Soil carbon, Microbial traits, Mineral -associated organic carbon, Drought, Carbon cycle, Global change, Stable isotope probing, Biological Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Soil sciences

Abstract

Soil microorganisms help transform plant inputs into mineral-associated soil organic carbon (SOC) – the largest and slowest-cycling pool of organic carbon on land. However, the microbial traits that influence this process are widely debated. While current theory and biogeochemical models have settled on carbon-use efficiency (CUE) and growth rate as positive predictors of mineral-associated SOC, empirical tests are sparse, with contradictory observations. Using 13C-labeling of an annual grass (Avena barbata) under two moisture regimes, we found that microbial traits associated with formation of 13C-mineral-associated SOC varied by soil habitat, as did active microbial taxa and SOC chemical composition. In the rhizosphere, bacterial-dominated communities with fast growth, high biomass, and high extracellular polymeric substance (EPS) production were positively associated with 13C-mineral-associated SOC. In contrast, the detritusphere held communities dominated by fungi and more filamentous bacteria, and with greater exoenzyme activity; there, 13C-mineral-associated SOC was associated with slower microbial growth and lower microbial biomass. CUE was a negative predictor of 13C-mineral-associated SOC in both habitats. Using 13C-quantitative stable isotope probing, we found that the majority of 13C assimilation in the rhizosphere and detritusphere at week 12 of the experiment was performed by very few bacterial and fungal taxa (3–5% of the total taxa that assimilated 13C). Several complementary chemical analyses (13C-NMR, FTICR-MS, and STXM-NEXAFS) suggested that SOC in the rhizosphere had a more oxidized chemical signature, while SOC in the detritusphere had a less oxidized, more lignin-like chemical signature. Our findings challenge current theory by demonstrating that microbial traits linked with mineral-associated SOC are not universal, but vary with soil habitat and moisture conditions, and are shaped by a small number of active taxa. Emerging SOC models that explicitly reflect these interactions may better predict SOC storage, since climate change causes shifts in soil moisture regimes and the ratio of living versus decaying roots.

Published

2024

21. Allometric relationships and trade‐offs in 11 common Mediterranean‐climate grasses

Author

Gao, Xiulin, Koven, Charles D, and Kueppers, Lara M

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Ecology, Plant Biology, Forestry Sciences, Climate Action, Poaceae, Biomass, California, Climate, Models, Biological, California grass, grass allometry, growth form, photosynthetic pathway, plant strategy, Environmental Sciences, Agricultural and Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Abstract

Biomass allocation in plants is the foundation for understanding dynamics in ecosystem carbon balance, species competition, and plant-environment interactions. However, existing work on plant allometry has mainly focused on trees, with fewer studies having developed allometric equations for grasses. Grasses with different life histories can vary in their carbon investment by prioritizing the growth of specific organs to survive, outcompete co-occurring plants, and ensure population persistence. Further, because grasses are important fuels for wildfire, the lack of grass allocation data adds uncertainty to process-based models that relate plant physiology to wildfire dynamics. To fill this gap, we conducted a greenhouse experiment with 11 common California grasses varying in photosynthetic pathway and growth form. We measured plant sizes and harvested above- and belowground biomass throughout the life cycle of annual species, while for the establishment stage of perennial grasses to quantify allometric relationships for leaf, stem, and root biomass, as well as plant height and canopy area. We used basal diameter as a reference measure of plant size. Overall, basal diameter is the best predictor for leaf and stem biomass, height, and canopy area. Including height as another predictor can improve model accuracy in predicting leaf and stem biomass and canopy area. Fine root biomass is a function of leaf biomass alone. Species vary in their allometric relationships, with most variation occurring for plant height, canopy area, and stem biomass. We further explored potential trade-offs in biomass allocation across species between leaf and fine root, leaf and stem, and allocation to reproduction. Consistent with our expectation, we found that fast-growing plants allocated a greater fraction to reproduction. Additionally, plant height and specific leaf area negatively influenced the leaf-to-stem ratio. However, contrary to our hypothesis, there were no differences in root-to-leaf ratio between perennial and annual or C4 and C3 plants. Our study provides species-specific and functional-type-specific allometry equations for both above- and belowground organs of 11 common California grass species, enabling nondestructive biomass assessment in California grasslands. These allometric relationships and trade-offs in carbon allocation across species can improve ecosystem model predictions of grassland species interactions and environmental responses through differences in morphology.

Published

2024

22. A lateral approach allows accurate and stable total elbow replacement in dogs.

Author

Woody, Lindsey R, Guiot, Laurent P, Garcia, Tanya C, Hudson, Caleb C, Sadowitz, Mitch, and Marcellin-Little, Denis J

Subjects

dog, elbow, osteoarthritis, surgical approach, total elbow replacement, Biological Sciences, Agricultural and Veterinary Sciences, Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences

Abstract

ObjectiveEvaluate whether total elbow replacement (TER) through a lateral approach is accurate and stable.Animals12 skeletally mature large-breed dog cadavers were used.MethodsLimb alignment, elbow joint motion, and collateral ligament laxity were evaluated preoperatively. The order of surgery (left or right) and the approach (lateral or medial) were randomly selected for TER in each dog. The other approach was used in the contralateral elbow. Intraoperative technical difficulties, duration of surgery, and anatomic complications were recorded. Limb alignment, elbow joint motion, collateral ligament laxity, and prosthetic component alignment were evaluated after surgery. Data were collected from June 11 to 15, 2023.ResultsThe duration of surgery using a lateral or medial approach did not differ (P = .499). Anatomic complications were not observed. The lateral approach resulted in 8° more elbow extension (P = .003), 1.58° less lateral collateral ligament constraint (P = .033), 2.80° less medial collateral ligament constraint (P = .002), 4.38° less frontal plane constraint (P = .004), 8° greater humeral component inclination (P = .033), and 5.6° greater radioulnar component varus (P = .001) than the medial approach. Varus of the radius, mechanical axis deviation, limb supination, elbow flexion, mediolateral humeral component and craniocaudal radioulnar component orientation did not differ among joints operated using a lateral or medial approach. In normal cadaveric elbows, a lateral approach for TER appears feasible, producing equivalent limb alignment, joint laxity, and joint motion to normal elbows and to TER placed using a medial approach.Clinical relevanceIn dogs, TER can be performed using a lateral surgical approach.

Published

2024

23. Discovery of Potent Glycosidases Enables Quantification of Smoke-Derived Phenolic Glycosides through Enzymatic Hydrolysis

Author

Cui, Youtian, Riley, Mary, Moreno, Marcus V, Cepeda, Mateo M, Perez, Ignacio Arias, Wen, Yan, Lim, Lik Xian, Andre, Eric, Nguyen, An, Liu, Cody, Lerno, Larry, Nichols, Patrick K, Schmitz, Harold, Tagkopoulos, Ilias, Kennedy, James A, Oberholster, Anita, and Siegel, Justin B

Subjects

Agricultural, Veterinary and Food Sciences, Horticultural Production, Hydrolysis, Glycosides, Smoke, Glycoside Hydrolases, Phenols, Vitis, Gas Chromatography-Mass Spectrometry, Fruit, Wine, Wildfires, Biocatalysis, smoke taint, volatile phenols, glycosidase, volatile-phenol glycosides, hydrolysis, Chemical Sciences, Agricultural and Veterinary Sciences, Engineering, Food Science, Agricultural, veterinary and food sciences, Chemical sciences

Abstract

When grapes are exposed to wildfire smoke, certain smoke-related volatile phenols (VPs) can be absorbed into the fruit, where they can be then converted into volatile-phenol (VP) glycosides through glycosylation. These volatile-phenol glycosides can be particularly problematic from a winemaking standpoint as they can be hydrolyzed, releasing volatile phenols, which can contribute to smoke-related off-flavors. Current methods for quantitating these volatile-phenol glycosides present several challenges, including the requirement of expensive capital equipment, limited accuracy due to the molecular complexity of the glycosides, and the utilization of harsh reagents. To address these challenges, we proposed an enzymatic hydrolysis method enabled by a tailored enzyme cocktail of novel glycosidases discovered through genome mining, and the generated VPs from VP glycosides can be quantitated by gas chromatography-mass spectrometry (GC-MS). The enzyme cocktails displayed high activities and a broad substrate scope when using commercially available VP glycosides as the substrates for testing. When evaluated in an industrially relevant matrix of Cabernet Sauvignon wine and grapes, this enzymatic cocktail consistently achieved a comparable efficacy of acid hydrolysis. The proposed method offers a simple, safe, and affordable option for smoke taint analysis.

Published

2024

24. IL-22-dependent responses and their role during Citrobacter rodentium infection

Author

Melchior, Karine, Gerner, Romana R, Hossain, Suzana, Nuccio, Sean-Paul, Moreira, Cristiano Gallina, and Raffatellu, Manuela

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Emerging Infectious Diseases, Vaccine Related, Digestive Diseases, Biodefense, Foodborne Illness, Prevention, Infectious Diseases, 2.1 Biological and endogenous factors, Aetiology, Infection, Animals, Interleukin-22, Citrobacter rodentium, Interleukins, Enterobacteriaceae Infections, Mice, Mice, Knockout, Mice, Inbred C57BL, Calgranulin B, Pancreatitis-Associated Proteins, Disease Models, Animal, Citrobacter, mucosal immunity, gut inflammation, antimicrobial peptides, Agricultural and Veterinary Sciences, Medical and Health Sciences, Microbiology, Immunology, Medical microbiology

Abstract

The mouse pathogen Citrobacter rodentium is utilized as a model organism for studying infections caused by the human pathogens enteropathogenic Escherichia coli (EPEC) and enterohemorrhagic E. coli (EHEC) and to elucidate mechanisms of mucosal immunity. In response to C. rodentium infection, innate lymphoid cells and T cells secrete interleukin (IL)-22, a cytokine that promotes mucosal barrier function. IL-22 plays a pivotal role in enabling mice to survive and recover from C. rodentium infection, although the exact mechanisms involved remain incompletely understood. Here, we investigated whether particular components of the host response downstream of IL-22 contribute to the cytokine's protective effects during C. rodentium infection. In line with previous research, mice lacking the IL-22 gene (Il22-/- mice) were highly susceptible to C. rodentium infection. To elucidate the role of specific antimicrobial proteins modulated by IL-22, we infected the following knockout mice: S100A9-/- (calprotectin), Lcn2-/- (lipocalin-2), Reg3b-/- (Reg3β), Reg3g-/- (Reg3γ), and C3-/- (C3). All knockout mice tested displayed a considerable level of resistance to C. rodentium infection, and none phenocopied the lethality observed in Il22-/- mice. By investigating another arm of the IL-22 response, we observed that C. rodentium-infected Il22-/- mice exhibited an overall decrease in gene expression related to intestinal barrier integrity as well as significantly elevated colonic inflammation, gut permeability, and pathogen levels in the spleen. Taken together, these results indicate that host resistance to lethal C. rodentium infection may depend on multiple antimicrobial responses acting in concert, or that other IL-22-regulated processes, such as tissue repair and maintenance of epithelial integrity, play crucial roles in host defense to attaching and effacing pathogens.

Published

2024

25. Beyond the kill: The allometry of predation behaviours among large carnivores

Author

Ritwika, VPS, Gopinathan, Ajay, and Yeakel, Justin D

Subjects

Zoology, Ecology, Biological Sciences, Animals, Predatory Behavior, Carnivora, Food Chain, Body Size, Models, Biological, carnivores, dynamic programming, foraging, hunting, kleptoparasitism, predation, scavenging, Environmental Sciences, Agricultural and Veterinary Sciences

Abstract

The costs of foraging can be high while also carrying significant risks, especially for consumers feeding at the top of the food chain. To mitigate these risks, many predators supplement active hunting with scavenging and kleptoparasitic behaviours, in some cases specializing in these alternative modes of predation. The factors that drive differential utilization of these tactics from species to species are not well understood. Here, we use an energetics approach to investigate the survival advantages of hunting, scavenging and kleptoparasitism as a function of predator, prey and potential competitor body sizes for terrestrial mammalian carnivores. The results of our framework reveal that predator tactics become more diverse closer to starvation, while the deployment of scavenging and kleptoparasitism is strongly constrained by the ratio of predator to prey body size. Our model accurately predicts a behavioural transition away from hunting towards alternative modes of predation with increasing prey size for predators spanning an order of magnitude in body size, closely matching observational data across a range of species. We then show that this behavioural boundary follows an allometric power-law scaling relationship where the predator size scales with an exponent nearing 3/4 with prey size, meaning that this behavioural switch occurs at relatively larger threshold prey body size for larger carnivores. We suggest that our approach may provide a holistic framework for guiding future observational efforts exploring the diverse array of predator foraging behaviours.

Published

2024

26. Active restoration accelerates recovery of tropical forest bird assemblages over two decades

Author

Joyce, Francis H, Rosales, Juan Abel, Holl, Karen D, Zahawi, Rakan A, Bui, An, and Reid, J Leighton

Subjects

Environmental Sciences, Ecological Applications, Ecology, Biological Sciences, Regenerative Medicine, Life Below Water, Applied nucleation, Avian communities, Costa Rica, Habitat recovery, Natural regeneration, Tree plantation, Agricultural and Veterinary Sciences, Zoology, Environmental management

Published

2024

27. Economic impacts of constrained replacement heifer supply in dairy herds

Author

Kulkarni, Pranav S, Haijema, Rene, Hogeveen, Henk, Steeneveld, Wilma, and Mourits, Monique CM

Subjects

Agricultural, Veterinary and Food Sciences, Animal Production, Heifer supply, Cow replacement, Multi-component optimization, Retention pay-off, Inter-cow comparison, Environmental Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Environmental sciences

Published

2024

28. Clustering symptomatic pixels in broomrape-infected carrots facilitates targeted evaluations of alterations in host primary plant traits

Author

Atsmon, Guy, Pourreza, Alireza, Kamiya, Yuto, Mesgaran, Mohsen B, Kizel, Fadi, Eizenberg, Hanan, and Lati, Ran Nisim

Subjects

Information and Computing Sciences, Hyperspectral, Spectral clustering, Radiative transfer modeling, Broomrape, Stress detection, Site specific weed management, Agricultural and Veterinary Sciences, Engineering, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Information and computing sciences

Abstract

In this study, we explore spectral heterogeneity within plant canopies, a characteristic often observed in stressed plants where certain leaves or intra-leaf regions exhibit stress symptoms while others remain unaffected. Considering this variability in spectral signatures holds promise for enhancing remote sensing methodologies aimed at plant stress detection. Typically, remote sensing techniques analyze the plant as a whole, potentially overlooking stress-related spectral signatures due to the inclusion of unaffected pixels. We used a clustering-based technique, which incorporates semi-supervised learning elements for tuning hyper-parameters, to differentiate spectral patterns associated with and unique to pixels from broomrape-infected (Orobanche spp. and Phelipanche spp.) carrots from unrelated patterns. Ground-based hyperspectral (400–1000 nm) images of broomrape-infected and non-infected carrot canopies were used in an agglomerative clustering procedure followed by spectral angle mapper (SAM) analysis to identify a spectral endmember indicative of broomrape infection symptoms. Pixels from this cluster constituted an average of 8.5–11.5 % from the canopies of infected plants. Subsequently, we: (a) examined the relationship between carrot leaf mineral content and the percentage of symptomatic pixels to explore stress-induced alterations creating the unique spectral signatures of infected plants; and (b) utilized the inverse mode of PROSPECT, a radiative transfer model (RTM), to derive primary plant traits from the distinct spectral data of each cluster. We found that deficits in two macro elements, phosphorous and potassium, along with two pigments, chlorophyll and carotenoid, were correlated with the symptomatic cluster in infected plants. The methodology presented in this study paves the way for further research into broomrape detection in various crop species, as well as other plant stressors.

Published

2024

29. Arbuscular mycorrhiza convey significant plant carbon to a diverse hyphosphere microbial food web and mineral‐associated organic matter

Author

Kakouridis, Anne, Yuan, Mengting, Nuccio, Erin E, Hagen, John A, Fossum, Christina A, Moore, Madeline L, Estera‐Molina, Katerina Y, Nico, Peter S, Weber, Peter K, Pett‐Ridge, Jennifer, and Firestone, Mary K

Subjects

Microbiology, Environmental Sciences, Biological Sciences, Ecology, Zero Hunger, Mycorrhizae, Carbon, Minerals, Food Chain, Hyphae, Soil Microbiology, Carbon Isotopes, Avena, Organic Chemicals, Bacteria, Plant Roots, Soil, C-13 SIP, arbuscular mycorrhizal fungi, hyphosphere, plant-soil-microbe interactions, soil carbon, soil food web, soil organic matter, stable isotopes, 13C SIP, plant–soil–microbe interactions, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

Arbuscular mycorrhizal fungi (AMF) transport substantial plant carbon (C) that serves as a substrate for soil organisms, a precursor of soil organic matter (SOM), and a driver of soil microbial dynamics. Using two-chamber microcosms where an air gap isolated AMF from roots, we 13CO2-labeled Avena barbata for 6 wk and measured the C Rhizophagus intraradices transferred to SOM and hyphosphere microorganisms. NanoSIMS imaging revealed hyphae and roots had similar 13C enrichment. SOM density fractionation, 13C NMR, and IRMS showed AMF transferred 0.77 mg C g-1 of soil (increasing total C by 2% relative to non-mycorrhizal controls); 33% was found in occluded or mineral-associated pools. In the AMF hyphosphere, there was no overall change in community diversity but 36 bacterial ASVs significantly changed in relative abundance. With stable isotope probing (SIP)-enabled shotgun sequencing, we found taxa from the Solibacterales, Sphingobacteriales, Myxococcales, and Nitrososphaerales (ammonium oxidizing archaea) were highly enriched in AMF-imported 13C (> 20 atom%). Mapping sequences from 13C-SIP metagenomes to total ASVs showed at least 92 bacteria and archaea were significantly 13C-enriched. Our results illustrate the quantitative and ecological impact of hyphal C transport on the formation of potentially protective SOM pools and microbial roles in the AMF hyphosphere soil food web.

Published

2024

30. Metatranscriptomics sheds light on the links between the functional traits of fungal guilds and ecological processes in forest soil ecosystems

Author

Auer, Lucas, Buée, Marc, Fauchery, Laure, Lombard, Vincent, Barry, Kerry W, Clum, Alicia, Copeland, Alex, Daum, Chris, Foster, Brian, LaButti, Kurt, Singan, Vasanth, Yoshinaga, Yuko, Martineau, Christine, Alfaro, Manuel, Castillo, Federico J, Imbert, J Bosco, Ramírez, Lucia, Castanera, Raúl, Pisabarro, Antonio G, Finlay, Roger, Lindahl, Björn, Olson, Ake, Séguin, Armand, Kohler, Annegret, Henrissat, Bernard, Grigoriev, Igor V, and Martin, Francis M

Subjects

Microbiology, Biological Sciences, Ecology, Genetics, Life on Land, Forests, Fungi, Soil Microbiology, Transcriptome, Mycorrhizae, Gene Expression Profiling, Gene Expression Regulation, Fungal, Nitrogen, Soil, Ecosystem, RNA, Messenger, forest soil, functional traits, fungal guilds, metatranscriptomics, organic matter degradation, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology, Climate change impacts and adaptation, Ecological applications

Abstract

Soil fungi belonging to different functional guilds, such as saprotrophs, pathogens, and mycorrhizal symbionts, play key roles in forest ecosystems. To date, no study has compared the actual gene expression of these guilds in different forest soils. We used metatranscriptomics to study the competition for organic resources by these fungal groups in boreal, temperate, and Mediterranean forest soils. Using a dedicated mRNA annotation pipeline combined with the JGI MycoCosm database, we compared the transcripts of these three fungal guilds, targeting enzymes involved in C- and N mobilization from plant and microbial cell walls. Genes encoding enzymes involved in the degradation of plant cell walls were expressed at a higher level in saprotrophic fungi than in ectomycorrhizal and pathogenic fungi. However, ectomycorrhizal and saprotrophic fungi showed similarly high expression levels of genes encoding enzymes involved in fungal cell wall degradation. Transcripts for N-related transporters were more highly expressed in ectomycorrhizal fungi than in other groups. We showed that ectomycorrhizal and saprotrophic fungi compete for N in soil organic matter, suggesting that their interactions could decelerate C cycling. Metatranscriptomics provides a unique tool to test controversial ecological hypotheses and to better understand the underlying ecological processes involved in soil functioning and carbon stabilization.

Published

2024

31. Cynipid wasps systematically reprogram host metabolism and restructure cell walls in developing galls

Author

Markel, Kasey, Novak, Vlastimil, Bowen, Benjamin P, Tian, Yang, Chen, Yi-Chun, Sirirungruang, Sasilada, Zhou, Andy, Louie, Katherine B, Northen, Trent R, Eudes, Aymerick, Scheller, Henrik V, and Shih, Patrick M

Subjects

Plant Biology, Biological Sciences, Animals, Cell Wall, Wasps, Plant Tumors, Host-Parasite Interactions, Quercus, Plant Leaves, Lignin, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology

Abstract

Many insects have evolved the ability to manipulate plant growth to generate extraordinary structures called galls, in which insect larva can develop while being sheltered and feeding on the plant. In particular, cynipid (Hymenoptera: Cynipidae) wasps have evolved to form morphologically complex galls and generate an astonishing array of gall shapes, colors, and sizes. However, the biochemical basis underlying these remarkable cellular and developmental transformations remains poorly understood. A key determinant in plant cellular development is cell wall deposition that dictates the physical form and physiological function of newly developing cells, tissues, and organs. However, it is unclear to what degree cell walls are restructured to initiate and support the formation of new gall tissue. Here, we characterize the molecular alterations underlying gall development using a combination of metabolomic, histological, and biochemical techniques to elucidate how valley oak (Quercus lobata) leaf cells are reprogrammed to form galls. Strikingly, gall development involves an exceptionally coordinated spatial deposition of lignin and xylan to form de novo gall vasculature. Our results highlight how cynipid wasps can radically change the metabolite profile and restructure the cell wall to enable the formation of galls, providing insights into the mechanism of gall induction and the extent to which plants can be entirely reprogrammed to form unique structures and organs.

Published

2024

32. A Review of N‑Heterocycles: Mousy Off-Flavor in Sour Beer

Author

Martusevice, Paulina, Li, Xueqi, Hengel, Matt J, Wang, Selina C, and Fox, Glen P

Subjects

Agricultural, Veterinary and Food Sciences, Food Sciences, Animals, Mice, Beer, Saccharomyces cerevisiae, Alcoholic Beverages, Wine, Lactobacillales, Bacteria, Fermentation, mousy off-flavor, N-heterocycles, spontaneous fermentation, sour beer, tetrahydropyridines, 2-acetyl-pyrolline, Chemical Sciences, Agricultural and Veterinary Sciences, Engineering, Food Science, Agricultural, veterinary and food sciences, Chemical sciences

Abstract

Beer has over 600 flavor compounds and creates a positive tasting experience with acceptable sensory properties, which are essential for the best consumer experience. Spontaneous and mixed-culture fermentation beers, generally classified as sour beers, are gaining popularity compared to typical lager or ale styles, which have dominated in the USA for the last few decades. Unique and acceptable flavor compounds characterize sour beers, but some unfavorable aspects appear in conjunction. One such unfavorable flavor is called "mousy". This description is usually labeled as an unpleasant odor, identifying spoilage of fermented food and beverages. It is related as having the odor of mouse urine, cereal, corn tortilla chips, or freshly baked sour bread. The main compounds responsible for it are N-heterocyclic compounds: 2-acetyltetrahydropyridine, 2-acetyl-1-pyrroline, and 2-ethyltetrahydropyridine. The most common beverages associated with mousy off-flavor are identified in wines, sour beers, other grain-based beverages, and kombucha, which may contain heterofermentative lactic acid bacteria, acetic acid bacteria, and/or yeast/fungus cultures. In particular, the fungal species Brettanomyces bruxellensis are associated with mousy-off flavor occurrence in fermented beverages matrices. However, many factors for N-heterocycle formation are not well-understood. Currently, the research and development of mixed-cultured beer and non/low alcohol beverages (NABLAB) has increased to obtain the highest quality, sensory, functionality, and most notably safety standards, and also to meet consumers' demand for a balanced sourness in these beverages. This paper introduces mousy off-flavor expression in beers and beverages, which occurs in spontaneous or mixed-culture fermentations, with a focus on sour beers due to common inconsistency aspects in fermentation. We discuss and suggest possible pathways of mousy off-flavor development in the beer matrix, which also apply to other fermented beverages, including non/low alcohol drinks, e.g., kombucha and low/nonalcohol beers. Some precautions and modifications may prevent the occurrence of these off-flavor compounds in the beverage matrix: improving raw material quality, adjusting brewing processes, and using specific strains of yeast and bacteria that are less likely to produce the off-flavor. Conceivably, it is clear that spontaneous and mixed culture fermentation is gaining popularity in industrial, craft, and home brewing. The review discusses important elements to identify and understand metabolic pathways, following the prevention of spoilage targeted to off-flavor compounds development in beers and NABLABs.

Published

2024

33. The effect of SARS-COV-2 variant on non-respiratory features and mortality among vaccinated and non-fully vaccinated patients

Author

Cotton, Shannon A, Subramanian, Ajan, Hughes, Thomas D, Huang, Yong, Sierra, Carmen Josefa, Pearce, Alex K, Malhotra, Atul, Rahmani, Amir M, Downs, Charles A, and Pinto, Melissa D

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Prevention, Emerging Infectious Diseases, Vaccine Related, Immunization, Coronaviruses, Infectious Diseases, Infection, Good Health and Well Being, Humans, SARS-CoV-2, COVID-19, Databases, Factual, Fever, Vaccination, Organ dysfunction, Symptoms, COVID-19 mortality, Non-respiratory, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Biomedical and clinical sciences, Health sciences

Abstract

ObjectiveTo determine the effect of SARS-CoV-2 variants on non-respiratory features of COVID-19 in vaccinated and not fully vaccinated patients using a University of California database.MethodsA longitudinal retrospective review of medical records (n = 63,454) from 1/1/2020-4/26/2022 using the UCCORDS database was performed to compare non-respiratory features, vaccination status, and mortality between variants. Chi-square tests were used to study the relationship between categorical variables using a contingency matrix.ResultsFever was the most common feature across all variants. Fever was significantly higher in not fully vaccinated during the Delta and Omicron waves (p = 0.001; p = 0.001). Cardiac features were statistically higher in not fully vaccinated during Omicron; tachycardia was only a feature of not fully vaccinated during Delta and Omicron; diabetes and GI reflux were features of all variants regardless of vaccine status. Odds of death were significantly increased among those not fully vaccinated in the Delta and Omicron variants (Delta OR: 1.64, p = 0.052; Omicron OR: 1.96, p

Published

2024

34. Identifying predictors of translocation success in rare plant species

Author

Bellis, Joe, Osazuwa‐Peters, Oyomoare, Maschinski, Joyce, Keir, Matthew J, Parsons, Elliott W, Kaye, Thomas N, Kunz, Michael, Possley, Jennifer, Menges, Eric, Smith, Stacy A, Roth, Daniela, Brewer, Debbie, Brumback, William, Lange, James J, Niederer, Christal, Turner‐Skoff, Jessica B, Bontrager, Megan, Braham, Richard, Coppoletta, Michelle, Holl, Karen D, Williamson, Paula, Bell, Timothy, Jonas, Jayne L, McEachern, Kathryn, Robertson, Kathy L, Birnbaum, Sandra J, Dattilo, Adam, Dollard, John J, Fant, Jeremie, Kishida, Wendy, Lesica, Peter, Link, Steven O, Pavlovic, Noel B, Poole, Jackie, Reemts, Charlotte M, Stiling, Peter, Taylor, David D, Titus, Jonathan H, Titus, Priscilla J, Adkins, Edith D, Chambers, Timothy, Paschke, Mark W, Heineman, Katherine D, and Albrecht, Matthew A

Subjects

Climate Change Impacts and Adaptation, Ecological Applications, Biological Sciences, Ecology, Environmental Sciences, Life on Land, Conservation of Natural Resources, Plants, Reproduction, Seeds, Ecosystem, endangered species, population restoration, reintroduction, seedling recruitment, species recovery, threatened species, especie amenazada, especie en peligro, reclutamiento de plántulas, recuperación de especie, reintroducción, restauración poblacional, 出苗, 受威胁物种, 濒危物种, 物种恢复, 种群恢复, 重引入, Agricultural and Veterinary Sciences, Zoology, Environmental management

Abstract

The fundamental goal of a rare plant translocation is to create self-sustaining populations with the evolutionary resilience to persist in the long term. Yet, most plant translocation syntheses focus on a few factors influencing short-term benchmarks of success (e.g., survival and reproduction). Short-term benchmarks can be misleading when trying to infer future growth and viability because the factors that promote establishment may differ from those required for long-term persistence. We assembled a large (n = 275) and broadly representative data set of well-documented and monitored (7.9 years on average) at-risk plant translocations to identify the most important site attributes, management techniques, and species' traits for six life-cycle benchmarks and population metrics of translocation success. We used the random forest algorithm to quantify the relative importance of 29 predictor variables for each metric of success. Drivers of translocation outcomes varied across time frames and success metrics. Management techniques had the greatest relative influence on the attainment of life-cycle benchmarks and short-term population trends, whereas site attributes and species' traits were more important for population persistence and long-term trends. Specifically, large founder sizes increased the potential for reproduction and recruitment into the next generation, whereas declining habitat quality and the outplanting of species with low seed production led to increased extinction risks and a reduction in potential reproductive output in the long-term, respectively. We also detected novel interactions between some of the most important drivers, such as an increased probability of next-generation recruitment in species with greater seed production rates, but only when coupled with large founder sizes. Because most significant barriers to plant translocation success can be overcome by improving techniques or resolving site-level issues through early intervention and management, we suggest that by combining long-term monitoring with adaptive management, translocation programs can enhance the prospects of achieving long-term success.

Published

2024

35. Functional genes related to N and P cycling in degraded and restored areas from Brazilian drylands

Author

Silva, Danilo F, Cardoso, Elke JBN, Huang, Laibin, Erikson, Christian, Silva, Antonio MM, Araujo, Victor LVP, Silva, Davila EO, Melo, Vania MM, Araujo, Ademir SF, Pereira, Arthur PA, and Rodrigues, Jorge L Mazza

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Ecology, Forestry Sciences, Life on Land, Soil functions, Microbial ecology, N and P cycles, Drylands, Environmental Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Published

2024

36. Kinematic performance of a novel temporomandibular joint replacement prosthesis under bite-force conditions in dogs and cats.

Author

Arzi, Boaz, Weed, Morgan, Garcia, Tanya C, Goldschmidt, Stephanie L, and Marcellin-Little, Denis J

Subjects

biomechanics, implant, kinematics, prosthesis, temporomandibular joint, Biological Sciences, Agricultural and Veterinary Sciences, Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences

Abstract

ObjectiveTo evaluate the kinematics and stability of the temporomandibular joint (TMJ) of cats and dogs with and without a TMJ replacement (TMJR) prosthesis under simulated bite forces and mouth opening.AnimalsSixteen cadaver skulls from domestic cats (n = 8) and medium- to large-breed dogs (n = 8).MethodsIntact TMJs were tested. Following condylectomy and coronoidectomy, the skulls were fitted with a TMJR prosthesis unilaterally and retested. Prosthesis was similarly implanted in the contralateral TMJ in 4 cats and 4 dogs before retesting. Left and right bite motions were evaluated before bite contact to peak bite force (200 N in dogs, 63 N in cats). Mouth opening motion was recorded. Mandibular displacement under load was evaluated in 3 orthogonal planes. Maximal displacement was compared between TMJR groups and native TMJ. Prosthesis-bone motion of the temporal and mandibular components was evaluated during simulated bites and mouth opening.ResultsTMJR resulted in joint motion not demonstrably different from the native TMJ, with the ability to fully open and close the mouth and with minimal laterotrusion. The TMJR prosthesis demonstrated similar stability after unilateral and bilateral replacement during bite force and with an open mouth. Mean implant-bone motion during bite simulations for the temporal and mandibular TMJR components was ≤ 60 µm in cats and ≤ 30 µm in dogs.Clinical relevanceA novel TMJR can be implanted and allows normal jaw motion. Joint stability is maintained after TMJR implantation in the TMJ of dogs and cats TMJ that is devoid of muscular support.

Published

2024

37. K-wire is more damaging than standard or acrylic drill bits when evaluating torsional properties of rabbit (Oryctolagus cuniculi) femurs.

Author

Massie, Anna M, Kapatkin, Amy S, Garcia, Tanya C, Marcellin-Little, Denis J, Guzman, David Sanchez-Migallon, Chou, Po-Yen, and Stover, Susan M

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, biomechanics, drill bit, drill hole, rabbit bone, torsional properties, Agricultural and Veterinary Sciences, Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences

Abstract

ObjectiveThe objective of this study is to compare drilling variables and torsional mechanical properties of rabbit femora after bicortical drilling with a 1.5-mm standard surgical drill bit, acrylic drill bit, and K-wire.Samples24 pairs of rabbit femora.MethodsAfter drilling under controlled axial displacement rate, each bone was biaxially loaded in compression followed by rapid external torsion to failure. Maximum axial thrust force, maximum drill torque, integral of force and displacement, change in temperature, maximum power spectral density of the torque signal, torque vibration, and torque and angle at the yield and failure points were collected. Pre- and postyield stiffness, yield and failure energies, and postyield energy were calculated.ResultsThe work required to drill through the cis- and transcortices (integral of force and displacement) was greater for the K-wire, followed by the acrylic and then standard drill bits, respectively. The K-wire demonstrated higher maximum torque than the drill bits at the ciscortex, and the force of drilling was significantly greater. The vibration data was greater with the acrylic and standard drill bits than the K-wire. There was no difference in torsional strength between drilling types.Clinical relevanceMechanical differences exist between different drill bits and K-wire and demonstrate that the K-wire is overall more damaging than the surgical drill bit.

Published

2024

38. Listeria monocytogenes utilizes glutathione and limited inorganic sulfur compounds as sources of essential cysteine

Author

Berude, John C, Kennouche, Paul, Reniere, Michelle L, and Portnoy, Daniel A

Subjects

Microbiology, Biological Sciences, Biodefense, Infectious Diseases, Foodborne Illness, Emerging Infectious Diseases, Digestive Diseases, Animals, Listeria monocytogenes, Cysteine, Glutathione Disulfide, Sulfur Compounds, Glutathione, Sulfur, Bacterial Proteins, Gene Expression Regulation, Bacterial, Mammals, GSH, GSSG, Ctp, CtaP, Opp, OppABCDF, CysK, thiosulfate, auxotrophy, pathoadaptation, Agricultural and Veterinary Sciences, Medical and Health Sciences, Immunology, Medical microbiology

Abstract

Listeria monocytogenes (Lm) is a Gram-positive facultative intracellular pathogen that leads a biphasic lifecycle, transitioning its metabolism and selectively inducing virulence genes when it encounters mammalian hosts. Virulence gene expression is controlled by the master virulence regulator PrfA, which is allosterically activated by the host- and bacterially derived glutathione (GSH). The amino acid cysteine is the rate-limiting substrate for GSH synthesis in bacteria and is essential for bacterial growth. Unlike many bacteria, Lm is auxotrophic for cysteine and must import exogenous cysteine for growth and virulence. GSH is enriched in the host cytoplasm, and previous work suggests that Lm utilizes exogenous GSH for PrfA activation. Despite these observations, the import mechanism(s) for GSH remains elusive. Analysis of known GSH importers predicted a homologous importer in Lm comprised of the Ctp ABC transporter and the OppDF ATPases of the Opp oligopeptide importer. Here, we demonstrated that the Ctp complex is a high-affinity GSH/GSSG importer that is required for Lm growth at physiologically relevant concentrations. Furthermore, we demonstrated that OppDF is required for GSH/GSSG import in an Opp-independent manner. These data support a model where Ctp and OppDF form a unique complex for GSH/GSSG import that supports growth and pathogenesis. In addition, we show that Lm utilizes the inorganic sulfur sources thiosulfate and H2S for growth in a CysK-dependent manner in the absence of other cysteine sources. These findings suggest a pathoadaptive role for partial cysteine auxotrophy in Lm, where locally high GSH/GSSG or inorganic sulfur concentrations may signal arrival to distinct host niches.

Published

2024

39. Press, pulse, and squeeze: Is climatic equilibrium ever possible on mountains?

Author

Loik, Michael E

Subjects

Biological Sciences, Ecology, Alpine, Distribution, Migration, Montane, Sub -alpine, Environmental Sciences, Agricultural and Veterinary Sciences, Zoology, Environmental management

Published

2024

40. Putting cell size into perspective: Soil bacterial diversity and predictive function

Author

Xue, Ran, Stirling, Erinne, Zhao, Kankan, Wang, Yiling, Ye, Shudi, Xu, Jianming, and Ma, Bin

Subjects

Environmental Sciences, Soil Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Soil sciences

Published

2024

41. Phycobilisome protein ApcG interacts with PSII and regulates energy transfer in Synechocystis

Author

Espinoza-Corral, Roberto, Iwai, Masakazu, Zavřel, Tomáš, Lechno-Yossef, Sigal, Sutter, Markus, Červený, Jan, Niyogi, Krishna K, and Kerfeld, Cheryl A

Subjects

Plant Biology, Biological Sciences, 2.1 Biological and endogenous factors, Synechocystis, Phycobilisomes, Photosystem I Protein Complex, Photosystem II Protein Complex, Energy Transfer, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology

Abstract

Photosynthetic organisms harvest light using pigment-protein complexes. In cyanobacteria, these are water-soluble antennae known as phycobilisomes (PBSs). The light absorbed by PBS is transferred to the photosystems in the thylakoid membrane to drive photosynthesis. The energy transfer between these complexes implies that protein-protein interactions allow the association of PBS with the photosystems. However, the specific proteins involved in the interaction of PBS with the photosystems are not fully characterized. Here, we show in Synechocystis sp. PCC 6803 that the recently discovered PBS linker protein ApcG (sll1873) interacts specifically with PSII through its N-terminal region. Growth of cyanobacteria is impaired in apcG deletion strains under light-limiting conditions. Furthermore, complementation of these strains using a phospho-mimicking version of ApcG causes reduced growth under normal growth conditions. Interestingly, the interaction of ApcG with PSII is affected when a phospho-mimicking version of ApcG is used, targeting the positively charged residues interacting with the thylakoid membrane, suggesting a regulatory role mediated by phosphorylation of ApcG. Low-temperature fluorescence measurements showed decreased PSI fluorescence in apcG deletion and complementation strains. The PSI fluorescence was the lowest in the phospho-mimicking complementation strain, while the pull-down experiment showed no interaction of ApcG with PSI under any tested condition. Our results highlight the importance of ApcG for selectively directing energy harvested by the PBS and imply that the phosphorylation status of ApcG plays a role in regulating energy transfer from PSII to PSI.

Published

2024

42. Nonlinear elasticity and short-range mechanical coupling govern the rate and symmetry of mouth opening in Hydra

Author

Goel, Tapan, Adams, Ellen M, Bialas, April L, Tran, Cassidy M, Rowe, Trevor, Martin, Sara, Chandler, Maia, Schubert, Johanna, Diamond, Patrick H, and Collins, Eva-Maria S

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Environmental Sciences, Bioengineering, Animals, Hydra, Mouth, Epithelium, Biomechanical Phenomena, Neurons, epithelium, viscoelastic, chimera, strain hardening, nearest-neighbour interaction, nerve net, biomechanics, mechanical signaling, spring networks, nearest-neighbor interaction, emergent phenomena, Agricultural and Veterinary Sciences, Medical and Health Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Abstract

Hydra has a tubular bilayered epithelial body column with a dome-shaped head on one end and a foot on the other. Hydra lacks a permanent mouth: its head epithelium is sealed. Upon neuronal activation, a mouth opens at the apex of the head which can exceed the body column diameter in seconds, allowing Hydra to ingest prey larger than itself. While the kinematics of mouth opening are well characterized, the underlying mechanism is unknown. We show that Hydra mouth opening is generated by independent local contractions that require tissue-level coordination. We model the head epithelium as an active viscoelastic nonlinear spring network. The model reproduces the size, timescale and symmetry of mouth opening. It shows that radial contractions, travelling inwards from the outer boundary of the head, pull the mouth open. Nonlinear elasticity makes mouth opening larger and faster, contrary to expectations. The model correctly predicts changes in mouth shape in response to external forces. By generating innervated : nerve-free chimera in experiments and simulations, we show that nearest-neighbour mechanical signalling suffices to coordinate mouth opening. Hydra mouth opening shows that in the absence of long-range chemical or neuronal signals, short-range mechanical coupling is sufficient to produce long-range order in tissue deformations.

Published

2024

43. Kaposi’s sarcoma-associated herpesvirus (KSHV) LANA prevents KSHV episomes from degradation

Author

Nakajima, Ken-ichi, Inagaki, Tomoki, Espera, Jonna Magdallene, and Izumiya, Yoshihiro

Subjects

Microbiology, Biochemistry and Cell Biology, Biological Sciences, Human Genome, Emerging Infectious Diseases, Biotechnology, HIV/AIDS, Infectious Diseases, Genetics, Prevention, Infection, Humans, Antigens, Viral, DNA, Herpesvirus 8, Human, Indoleacetic Acids, Nucleotidyltransferases, Plasmids, Sarcoma, Kaposi, Virus Latency, Nuclear Proteins, KSHV, latency, episome, protein knockdown, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Protein knockdown with an inducible degradation system is a powerful tool for studying proteins of interest in living cells. Here, we adopted the auxin-inducible degron (AID) approach to detail Kaposi's sarcoma-associated herpesvirus (KSHV) latency-associated nuclear antigen (LANA) function in latency maintenance and inducible viral lytic gene expression. We fused the mini-auxin-inducible degron (mAID) tag at the LANA N-terminus with KSHV bacterial artificial chromosome 16 recombination, and iSLK cells were stably infected with the recombinant KSHV encoding mAID-LANA. Incubation with 5-phenyl-indole-3-acetic acid, a derivative of natural auxin, rapidly degraded LANA within 1.5 h. In contrast to our hypothesis, depletion of LANA alone did not trigger lytic reactivation but rather decreased inducible lytic gene expression when we stimulated reactivation with a combination of ORF50 protein expression and sodium butyrate. Decreased overall lytic gene induction seemed to be associated with a rapid loss of KSHV genomes in the absence of LANA. The rapid loss of viral genomic DNA was blocked by a lysosomal inhibitor, chloroquine. Furthermore, siRNA-mediated knockdown of cellular innate immune proteins, cyclic AMP-GMP synthase (cGAS) and simulator of interferon genes (STING), and other autophagy-related genes rescued the degradation of viral genomic DNA upon LANA depletion. Reduction of the viral genome was not observed in 293FT cells that lack the expression of cGAS. These results suggest that LANA actively prevents viral genomic DNA from sensing by cGAS-STING signaling axis, adding novel insights into the role of LANA in latent genome maintenance.IMPORTANCESensing of pathogens' components is a fundamental cellular immune response. Pathogens have therefore evolved strategies to evade such cellular immune responses. KSHV LANA is a multifunctional protein and plays an essential role in maintaining the latent infection by tethering viral genomic DNA to the host chromosome. We adopted the inducible protein knockdown approach and found that depletion of LANA induced rapid degradation of viral genomic DNA, which is mediated by innate immune DNA sensors and autophagy pathway. These observations suggest that LANA may play a role in hiding KSHV episome from innate immune DNA sensors. Our study thus provides new insights into the role of LANA in latency maintenance.

Published

2024

44. Kaposi’s sarcoma-associated herpesvirus terminal repeat regulates inducible lytic gene promoters

Author

Izumiya, Yoshihiro, Algalil, Adhraa, Espera, Jonna M, Miura, Hiroki, Izumiya, Chie, Inagaki, Tomoki, and Kumar, Ashish

Subjects

Biochemistry and Cell Biology, Biological Sciences, Emerging Infectious Diseases, Infectious Diseases, Lymphoma, Cancer, Hematology, Lymphatic Research, Rare Diseases, Genetics, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Infection, Generic health relevance, Humans, Herpesvirus 8, Human, Histones, Nucleosomes, Immediate-Early Proteins, Virus Latency, Antigens, Viral, Terminal Repeat Sequences, Gene Expression Regulation, Viral, Sarcoma, Kaposi, Kaposi's sarcoma-associated herpesvirus, transcriptional regulation, reactivation, RNA polymerases, latency, enhancer, BRD4, CHD4, herpesviruses, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

The Kaposi's sarcoma-associated herpesvirus (KSHV) genome consists of an approximately 140-kb unique coding region flanked by 30-40 copies of a 0.8-kb terminal repeat (TR) sequence. A gene enhancer recruits transcription-related enzymes by having arrays of transcription factor binding sites. Here, we show that KSHV TR possesses transcription regulatory function with latency-associated nuclear antigen (LANA). Cleavage under targets and release using nuclease demonstrated that TR fragments were occupied by LANA-interacting histone-modifying enzymes in naturally infected cells. The TR was enriched with histone H3K27 acetylation (H3K27Ac) and H3K4 tri-methylation (H3K4me3) modifications and also expressed nascent RNAs. The sites of H3K27Ac and H3K4me3 modifications were also conserved in the KSHV unique region among naturally infected primary effusion lymphoma cells. KSHV origin of lytic replication (Ori-Lyt) showed similar protein and histone modification occupancies with that of TR. In the Ori-Lyt region, the LANA and LANA-interacting proteins colocalized with an H3K27Ac-modified nucleosome along with paused RNA polymerase II. The KSHV transactivator KSHV replication and transcription activator (K-Rta) recruitment sites franked the LANA-bound nucleosome, and reactivation evicted the LANA-bound nucleosome. Including TR fragments in reporter plasmid enhanced inducible viral gene promoter activities independent of the orientations. In the presence of TR in reporter plasmids, K-Rta transactivation was drastically increased, while LANA acquired the promoter repression function. KSHV TR, therefore, functions as an enhancer for KSHV inducible genes. However, in contrast to cellular enhancers bound by multiple transcription factors, perhaps the KSHV enhancer is predominantly regulated by the LANA nuclear body.IMPORTANCEEnhancers are a crucial regulator of differential gene expression programs. Enhancers are the cis-regulatory sequences determining target genes' spatiotemporal and quantitative expression. Here, we show that Kaposi's sarcoma-associated herpesvirus (KSHV) terminal repeats fulfill the enhancer definition for KSHV inducible gene promoters. The KSHV enhancer is occupied by latency-associated nuclear antigen (LANA) and its interacting proteins, such as CHD4. Neighboring terminal repeat (TR) fragments to lytic gene promoters drastically enhanced KSHV replication and transcription activator and LANA transcription regulatory functions. This study, thus, proposes a new latency-lytic switch model in which TR accessibility to the KSHV gene promoters regulates viral inducible gene expression.

Published

2024

45. Mollusc and crustacean consumption in the first 1000 days: a scoping review.

Author

Oaks, Brietta M, Gyimah, Emmanuel A, Kleban, Eliza, Ragsdale, Kathleen, and Iannotti, Lora L

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Nutrition, Perinatal Period - Conditions Originating in Perinatal Period, Pediatric, Prevention, Reproductive health and childbirth, Good Health and Well Being, Shellfish, Pregnancy, Childhood nutrition, Iodine, Mercury, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Nutrition & Dietetics, Nutrition and dietetics

Abstract

Mollusc and crustacean consumption in the first 1000 d may improve maternal and child health by providing essential nutrients. However, in some contexts, molluscs and crustaceans have been associated with allergies and environmental contamination, potentially leading to adverse health and development outcomes. It is unclear whether the health benefits of consuming molluscs and crustaceans, collectively classified as shellfish in nutrition, are outweighed by the potential risks to pregnant women and children. We conducted a scoping review (PROSPERO: CRD42022320454) in PubMed, Scopus and EBSCO Global Health of articles published between January 2000 and March 2022 that assessed shellfish consumption during pregnancy, lactation or childhood (0-2 years) in relation to maternal health, child health or child development. A total of forty-six articles were included in this review. Overall, shellfish consumption was associated with higher biomarkers of environmental contaminants, with mercury being the most studied and having the strongest evidence base. The limited research on nutritional biomarker status shows an association between shellfish consumption and iodine status. Preterm birth was not associated with shellfish consumption, but newborn anthropometry showed mixed results, with several studies reporting lower birth weight with higher shellfish consumption. The few studies that examined child development and maternal health outcomes reported no significant associations. This review revealed trade-off health risks and benefits with inclusion of molluscs and crustaceans in the dietary patterns of mothers and young children. More research is needed to understand how these aquatic animal-source foods may be safely consumed and leveraged for improving human nutrition.

Published

2024

46. Quantitative contribution of cryogenic vacuum extraction and radial water transport to xylem-source water deuterium offsets

Author

Li, Yue, Song, Xianfang, Wang, Lixin, Sprenger, Matthias, and Ma, Ying

Subjects

Earth Sciences, Plant Biology, Biological Sciences, Ecology, Agricultural and Veterinary Sciences, Meteorology & Atmospheric Sciences, Agricultural, veterinary and food sciences, Biological sciences, Earth sciences

Abstract

The positions and magnitudes of deuterium offsets between bulk xylem and corresponding source waters are under debate and quantifying them is essential for isotope-based ecohydrological investigations. In this study, stable isotopes (δ2H, δ18O, and δ13C), iteration method, and rehydration experiments were combined to quantitatively determine the magnitude of cryogenic vacuum extraction (CVE)- and radial water transport (RWT)-induced deuterium offsets using one riparian tree species Salix babylonica L. A modified potential water source line (MPWL) was proposed to identify the total δ2H offsets between bulk xylem and source waters. The relationships between δ2H offsets induced by CVE or RWT and plant water content, leaf δ13C values, soil water content (SWC), and the depth to the water table (WTD) were investigated. Results showed that the bulk xylem waters in different tissue positions of S. babylonica showed −7.0 ‰ to −4.0 ‰ deuterium depletion relative to MPWL at four different sites (p < 0.01). The isotopic compositions of sap water coincided well with MPWL on the dual-isotope plot at the four sites. The CVE- and RWT-induced δ2H offsets accounted for 75.1 % and 24.9 % of the total δ2H offsets, respectively. The CVE-induced δ2H offsets were significantly negatively correlated with plant water content. In comparison, the RWT-induced δ2H offsets were negatively related to plant leaf δ13C values, trunk water content, and SWC, but positively correlated with WTD. This study provides a quantitative contribution of two major sources of deuterium offsets. The results provide critical insights into isotope-based plant water source identification and evapotranspiration partitioning.

Published

2024

47. Opportunities for mitigating net system greenhouse gas emissions in Southeast Asian rice production: A systematic review

Author

Zhang, Zhenglin, Macedo, Ignacio, Linquist, Bruce A, Sander, Bjoern Ole, and Pittelkow, Cameron M

Subjects

Climate Change Impacts and Adaptation, Environmental Management, Environmental Sciences, Climate Action, Affordable and Clean Energy, Agricultural and Veterinary Sciences, Studies in Human Society, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Environmental sciences, Human society

Abstract

Southeast Asia (SEA) is a key producer and exporter of rice, accounting for around 28% of rice produced globally. To effectively mitigate greenhouse gas (GHG) emissions in SEA rice systems, field methane (CH4) and nitrous oxide (N2O) emissions have been intensively studied. However, an integrated assessment of system-level GHG emissions which includes other carbon (C) balance components, such as soil organic carbon (SOC) or energy use, that can positively or negatively influence the net capacity for climate change mitigation is lacking. We conducted a systematic review of published research in SEA rice systems to synthesize findings across four main components of net system emissions: (1) field GHG emissions, (2) energy inputs, (3) residue utilization beyond the field, and (4) SOC change. The objectives were to highlight effective mitigation opportunities and explore cross-component effects to identify tradeoffs and key knowledge gaps. Field GHG emissions were the largest contributor to net system emissions in agreement with existing scientific consensus, with results showing that practices such as floodwater drainage and residue removal are sound options for CH4 mitigation. On the other hand, increasing SOC potentially provides a large GHG mitigation opportunity, with long-term continuous rice cropping and practices such as residue incorporation and biochar application promoting SOC increase. A reduction in energy inputs was mainly achieved by optimizing agrochemical use, especially N fertilizers. For residue utilization beyond the field, GHG emission mitigation mainly came from preventing open field burning through residue removal. Removed residue can subsequently be used for producing energy that offsets GHG emissions associated with conventional fuel sources (e.g. fossil fuel-based electricity generation) or substituting material used in other production systems. Integrating all four components of net system emissions into one analysis underscores the following two main takeaways. First, the components of field GHG emissions and SOC change are the biggest opportunities for reducing net system emissions and need to be considered for effective climate change mitigation. Second, the reduction of C inputs through residue removal and increased soil aeration through multiple drainage will lower CH4 emissions but may also potentially decrease SOC stocks over time. Hence, we argue that future research needs to consider cross-component effects to optimize net system emissions, specifically the “stacking” of best management practices for mitigation related to field GHG emissions or SOC change in long-term experiments.

Published

2024

48. Virology—the path forward

Author

Rasmussen, Angela L, Gronvall, Gigi K, Lowen, Anice C, Goodrum, Felicia, Alwine, James, Andersen, Kristian G, Anthony, Simon J, Baines, Joel, Banerjee, Arinjay, Broadbent, Andrew J, Brooke, Christopher B, Campos, Samuel K, Caposio, Patrizia, Casadevall, Arturo, Chan, Gary C, Cliffe, Anna R, Collins-McMillen, Donna, Connell, Nancy, Damania, Blossom, Daugherty, Matthew D, Debbink, Kari, Dermody, Terence S, DiMaio, Daniel, Duprex, W Paul, Emerman, Michael, Galloway, Denise A, Garry, Robert F, Goldstein, Stephen A, Greninger, Alexander L, Hartman, Amy L, Hogue, Brenda G, Horner, Stacy M, Hotez, Peter J, Jung, Jae U, Kamil, Jeremy P, Karst, Stephanie M, Laimins, Lou, Lakdawala, Seema S, Landais, Igor, Letko, Michael, Lindenbach, Brett, Liu, Shan-Lu, Luftig, Micah, McFadden, Grant, Mehle, Andrew, Morrison, Juliet, Moscona, Anne, Mühlberger, Elke, Munger, Joshua, Münger, Karl, Murphy, Eain, Neufeldt, Christopher J, Nikolich, Janko Z, O'Connor, Christine M, Pekosz, Andrew, Permar, Sallie R, Pfeiffer, Julie K, Popescu, Saskia V, Purdy, John G, Racaniello, Vincent R, Rice, Charles M, Runstadler, Jonathan A, Sapp, Martin J, Scott, Rona S, Smith, Gregory A, Sorrell, Erin M, Speranza, Emily, Streblow, Daniel, Tibbetts, Scott A, Toth, Zsolt, Van Doorslaer, Koenraad, Weiss, Susan R, White, Elizabeth A, White, Timothy M, Wobus, Christiane E, Worobey, Michael, Yamaoka, Satoko, and Yurochko, Andrew

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Biomedical and Clinical Sciences, Emerging Infectious Diseases, Infectious Diseases, Prevention, Coronaviruses, Good Health and Well Being, Humans, Containment of Biohazards, COVID-19, United States, Viruses, Virology, Biomedical Research, virology, SARS-CoV-2, oversight, biosafety, emergence, Agricultural and Veterinary Sciences, Medical and Health Sciences, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

In the United States (US), biosafety and biosecurity oversight of research on viruses is being reappraised. Safety in virology research is paramount and oversight frameworks should be reviewed periodically. Changes should be made with care, however, to avoid impeding science that is essential for rapidly reducing and responding to pandemic threats as well as addressing more common challenges caused by infectious diseases. Decades of research uniquely positioned the US to be able to respond to the COVID-19 crisis with astounding speed, delivering life-saving vaccines within a year of identifying the virus. We should embolden and empower this strength, which is a vital part of protecting the health, economy, and security of US citizens. Herein, we offer our perspectives on priorities for revised rules governing virology research in the US.

Published

2024

49. Abscisic acid–induced transcription factor PsMYB306 negatively regulates tree peony bud dormancy release

Author

Yuan, Yanping, Zeng, Lingling, Kong, Derong, Mao, Yanxiang, Xu, Yingru, Wang, Meiling, Zhao, Yike, Jiang, Cai-Zhong, Zhang, Yanlong, and Sun, Daoyang

Subjects

Plant Biology, Biological Sciences, Genetics, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology

Abstract

Bud dormancy is a crucial strategy for perennial plants to withstand adverse winter conditions. However, the regulatory mechanism of bud dormancy in tree peony (Paeonia suffruticosa) remains largely unknown. Here, we observed dramatically reduced and increased accumulation of abscisic acid (ABA) and bioactive gibberellins (GAs) GA1 and GA3, respectively, during bud endo-dormancy release of tree peony under prolonged chilling treatment. An Illumina RNA sequencing study was performed to identify potential genes involved in the bud endo-dormancy regulation in tree peony. Correlation matrix, principal component, and interaction network analyses identified a down-regulated MYB transcription factor gene, PsMYB306, the expression of which positively correlated with 9-CIS-EPOXYCAROTENOID DIOXYGENASE 3 (PsNCED3) expression. Protein modeling analysis revealed four residues within the R2R3 domain of PsMYB306 to possess DNA binding capability. Transcription of PsMYB306 was increased by ABA treatment. Overexpression of PsMYB306 in petunia (Petunia hybrida) inhibited seed germination and plant growth, concomitant with elevated ABA and decreased GA contents. Silencing of PsMYB306 accelerated cold-triggered tree peony bud burst, and influenced the production of ABA and GAs and the expression of their biosynthetic genes. ABA application reduced bud dormancy release and transcription of ENT-KAURENOIC ACID OXIDASE 1 (PsKAO1), GA20-OXIDASE 1 (PsGA20ox1), and GA3-OXIDASE 1 (PsGA3ox1) associated with GA biosynthesis in PsMYB306-silenced buds. In vivo and in vitro binding assays confirmed that PsMYB306 specifically transactivated the promoter of PsNCED3. Silencing of PsNCED3 also promoted bud break and growth. Altogether, our findings suggest that PsMYB306 negatively modulates cold-induced bud endo-dormancy release by regulating ABA production.

Published

2024

50. Coupled social and ecological change drove the historical extinction of the California grizzly bear (Ursus arctos californicus)

Author

Mychajliw, Alexis M, Adams, Andrea J, Brown, Kevin C, Campbell, Beau T, Hardesty-Moore, Molly, Welch, Zoë S, Page, Henry M, Southon, John R, Cooper, Scott D, and Alagona, Peter S

Subjects

Environmental Sciences, Biological Sciences, Ecology, Environmental Management, Nutrition, Life on Land, Animals, Humans, Ursidae, Body Size, California, Carnivory, Herbivory, extinction, stable isotope, carnivore, human-wildlife conflict, historical ecology, human–wildlife conflict, Agricultural and Veterinary Sciences, Medical and Health Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Abstract

Large carnivores (order Carnivora) are among the world's most threatened mammals due to a confluence of ecological and social forces that have unfolded over centuries. Combining specimens from natural history collections with documents from archival records, we reconstructed the factors surrounding the extinction of the California grizzly bear (Ursus arctos californicus), a once-abundant brown bear subspecies last seen in 1924. Historical documents portrayed California grizzlies as massive hypercarnivores that endangered public safety. Yet, morphological measurements on skulls and teeth generate smaller body size estimates in alignment with extant North American grizzly populations (approx. 200 kg). Stable isotope analysis (δ13C, δ15N) of pelts and bones (n = 57) revealed that grizzlies derived less than 10% of their nutrition from terrestrial animal sources and were therefore largely herbivorous for millennia prior to the first European arrival in this region in 1542. Later colonial land uses, beginning in 1769 with the Mission era, led grizzlies to moderately increase animal protein consumption (up to 26% of diet), but grizzlies still consumed far less livestock than otherwise claimed by contemporary accounts. We show how human activities can provoke short-term behavioural shifts, such as heightened levels of carnivory, that in turn can lead to exaggerated predation narratives and incentivize persecution, triggering rapid loss of an otherwise widespread and ecologically flexible animal.

Published

2024