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1. Predicting 3D and 2D surface area of corals from simple field measurements

Author

Josie F. Chandler, Will F. Figueira, Deborah Burn, Peter C. Doll, Abby Johandes, Agustina Piccaluga, and Morgan S. Pratchett

Subjects
Medicine, Science
Abstract

Abstract The structural architecture of coral reefs is a known predictor of species richness, fish biomass and reef resilience. At a smaller scale, three-dimensional (3D) surface area of corals is a fundamental determinant of physical and biological processes. Quantifying the 3D surface area of corals has applications for a broad range of scientific disciplines, including carbonate production estimates, coral predation studies, and assessments of reef growth. Here, we present morphotaxon-specific conversion metrics to estimate total 3D surface area and projected 2D surface area of individual colonies from simple field measurements of colony maximum diameter. Underwater photogrammetry techniques were used to quantify surface area and estimate conversion metrics. Bayesian models showed strong non-linear (power) relationships between colony maximum diameter and both total 3D surface area and projected 2D surface area for 13 out of 15 morphotaxa. This study presents a highly resolved and efficient method for obtaining critical surface area assessments of corals for various applications, including assessments of biotic surface area, tissue biomass, calcification rates, coral demographic rates, and reef restoration monitoring.

Published
2024
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3. Closing the gap between existing large‐area imaging research and marine conservation needs

Author

McCarthy, Orion S, Contractor, Kanisha, Figueira, Will F, Gleason, Arthur CR, Viehman, T Shay, Edwards, Clinton B, and Sandin, Stuart A

Subjects
Environmental Sciences, Ecology, Environmental Management, Biological Sciences, Life Below Water, coral reef, conservation technology, large-area imaging, photomosaic, remote sensing, structure-from-motion photogrammetry, arrecife de coral, estructura a partir del movimiento, fotogrametria, fotomosaico, imagenes de gran superficie, tecnologia de la conservacion, teledeteccion, fotogrametría, imágenes de gran superficie, tecnología de la conservación, teledetección, Agricultural and Veterinary Sciences, Zoology, Environmental management
Abstract

Emerging technology has immense potential to increase the scale and efficiency of marine conservation. One such technology is large-area imaging (LAI), which relies on structure-from-motion photogrammetry to create composite products, including 3-dimensional (3-D) environmental models, that are larger in spatial extent than the individual images used to create them. Use of LAI has become widespread in certain fields of marine science, primarily to measure the 3D structure of benthic ecosystems and track change over time. However, the use of LAI in the field of marine conservation appears limited. We conducted a review of the coral reef literature on the use of LAI to identify research themes and regional trends in applications of this technology. We also surveyed 135 coral reef scientists and conservation practitioners to determine community familiarity with LAI, evaluate barriers practitioners face in using LAI, and identify applications of LAI believed to be most exciting or relevant to coral conservation. Adoption of LAI was limited primarily to researchers at institutions based in advanced economies and was applied infrequently to conservation, although conservation practitioners and survey respondents from emerging economies indicated they expect to use LAI in the future. Our results revealed disconnect between current LAI research topics and conservation priorities identified by practitioners, highlighting the need for more diverse, conservation-relevant research using LAI. We provide recommendations for how early adopters of LAI (typically Global North scientists from well-resourced institutions) can facilitate access to this conservation technology. These recommendations include developing training resources, creating partnerships for data storage and analysis, publishing standard operating procedures for LAI workflows, standardizing methods, developing tools for efficient data extraction from LAI products, and conducting conservation-relevant research using LAI.

Published
2023

6. Quantifying wildlife conflicts with metabarcoding and traditional dietary analyses: applied to seabird predation by long-nosed fur seals

Author

Natasha A. Hardy, Tina E. Berry, Michael Bunce, Nathan J. Bott, Will F. Figueira, and Rebecca R. McIntosh

Subjects
ecological surveillance, conservation management and monitoring, predator-prey interaction, predation impact, eDNA, fur seal (Arctocephalus forsteri), Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

Wildlife conflicts require robust quantitative data on incidence and impacts, particularly among species of conservation and cultural concern. We apply a multi-assay framework to quantify predation in a southeastern Australian scenario where complex management implications and calls for predator culling have grown despite a paucity of data on seabird predation by recovering populations of long-nosed fur seals (Arctocephalus forsteri). We apply two ecological surveillance techniques to analyze this predator’s diet – traditional morphometric (prey hard-part) and environmental DNA metabarcoding (genetic) analyses using an avian specific primer for the 12S ribosomal RNA (rRNA) gene – to provide managers with estimated predation incidence, number of seabird species impacted and inter-prey species relative importance to the predator. DNA metabarcoding identified additional seabird taxa and provided relative quantitative information where multiple prey species occur within a sample; while parallel use of both genetic and hard-part analyses revealed a greater diversity of taxa than either method alone. Using data from both assays, the estimated frequency of occurrence of predation on seabirds by long-nosed fur seals ranged from 9.1–29.3% of samples and included up to 6 detected prey species. The most common seabird prey was the culturally valued little penguin (Eudyptula minor) that occurred in 6.1–25.3% of samples, higher than previously reported from traditional morphological assays alone. We then explored DNA haplotype diversity for little penguin genetic data, as a species of conservation concern, to provide a preliminary estimate of the number of individuals consumed. Polymorphism analysis of consumed little penguin DNA identified five distinct mitochondrial haplotypes – representing a minimum of 16 individual penguins consumed across 10 fur seal scat samples (equivalent to 10.1% of samples). We recommend rapid uptake and development of cost-effective genetic techniques and broader spatiotemporal sampling of fur seal diets to further quantify predation and hotspots of concern for wildlife conflict management.

Published
2024
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8. No apparent trade-offs associated with heat tolerance in a reef-building coral

Author

Liam Lachs, Adriana Humanes, Daniel R. Pygas, John C. Bythell, Peter J. Mumby, Renata Ferrari, Will F. Figueira, Elizabeth Beauchamp, Holly K. East, Alasdair J. Edwards, Yimnang Golbuu, Helios M. Martinez, Brigitte Sommer, Eveline van der Steeg, and James R. Guest

Subjects
Biology (General), QH301-705.5
Abstract

Abstract As marine species adapt to climate change, their heat tolerance will likely be under strong selection. Yet trade-offs between heat tolerance and other life history traits could compromise natural adaptation or assisted evolution. This is particularly important for ecosystem engineers, such as reef-building corals, which support biodiversity yet are vulnerable to heatwave-induced mass bleaching and mortality. Here, we exposed 70 colonies of the reef-building coral Acropora digitifera to a long-term marine heatwave emulation experiment. We tested for trade-offs between heat tolerance and three traits measured from the colonies in situ – colony growth, fecundity, and symbiont community composition. Despite observing remarkable within-population variability in heat tolerance, all colonies were dominated by Cladocopium C40 symbionts. We found no evidence for trade-offs between heat tolerance and fecundity or growth. Contrary to expectations, positive associations emerged with growth, such that faster-growing colonies tended to bleach and die at higher levels of heat stress. Collectively, our results suggest that these corals exist on an energetic continuum where some high-performing individuals excel across multiple traits. Within populations, trade-offs between heat tolerance and growth or fecundity may not be major barriers to natural adaptation or the success of assisted evolution interventions.

Published
2023
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9. Activating alternative transport modes in a multidrug resistance efflux pump to confer chemical susceptibility

Author

Peyton J. Spreacker, Nathan E. Thomas, Will F. Beeninga, Merissa Brousseau, Colin J. Porter, Kylie M. Hibbs, and Katherine A. Henzler-Wildman

Subjects
Science
Abstract

Antibiotic resistance through multidrug efflux is a major hurdle in antibiotic development. Here, authors experimentally demonstrate that EmrE, a small multidrug resistance efflux pump from E. coli, can confer resistance or susceptibility depending on the small molecule substrate.

Published
2022
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11. Optimising sampling of fish assemblages on intertidal reefs using remote underwater video

Author

Katherine R. Erickson, Ana B. Bugnot, and Will F. Figueira

Subjects
Cryptic fish, Intertidal reef, Sampling effort, Unbaited underwater camera, Medicine, Biology (General), QH301-705.5
Abstract

Background Assessing fish assemblages in subtidal and intertidal habitats is challenging due to the structural complexity of many of these systems. Trapping and collecting are regarded as optimal ways to sample these assemblages, but this method is costly and destructive, so researchers also use video techniques. Underwater visual census and baited remote underwater video stations are commonly used to characterise fish communities in these systems. More passive techniques such as remote underwater video (RUV) may be more appropriate for behavioural studies, or for comparing proximal habitats where the broad attraction caused by bait plumes could be an issue. However, data processing for RUVs can be time consuming and create processing bottlenecks. Methods Here, we identified the optimal subsampling method to assess fish assemblages on intertidal oyster reefs using RUV footage and bootstrapping techniques. We quantified how video subsampling effort and method (systematic vs random) affect the accuracy and precision of three different fish assemblage metrics; species richness and two proxies for the total abundance of fish, MaxNT and MeanCountT, which have not been evaluated previously for complex intertidal habitats. Results Results suggest that MaxNT and species richness should be recorded in real time, whereas optimal sampling for MeanCountT is every 60 s. Systematic sampling proved to be more accurate and precise than random sampling. This study provides valuable methodology recommendations which are relevant for the use of RUV to assess fish assemblages in a variety of shallow intertidal habitats.

Published
2023
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13. A record of Late Cretaceous to early Paleogene Insular terrane accretion within the northern Cordillera: Insights from monazite petrochronology across the Kluane Schist, southwest Yukon, Canada.

Author

McKenzie, Will F., Dyck, Brendan, Gibson, H. Daniel, and Larson, Kyle

Subjects
*PHASE equilibrium, *MONAZITE, *PALEOGENE, *GARNET, *LASER ablation inductively coupled plasma mass spectrometry, *SUBDUCTION
Abstract

The Kluane Schist is a metamorphosed package of siliciclastic and lesser calcareous rocks that lies between the inboard pericratonic Intermontane terranes and outboard Insular terranes of the North American Cordillera within Yukon, Canada. The metamorphic sequence of the Kluane Schist preserves a record of the tectono-thermal evolution and timing of Insular terrane accretion. Here we document the timing of metamorphism and deformation across the Kluane Schist using in situ laser ablation–inductively coupled plasma–mass spectrometry U-Th-Pb monazite petrochronology. Monazite-bearing samples collected across an inverted metamorphic sequence preserved in the northern regions of the Kluane Schist yield dates ranging from ca. 70 Ma to 55 Ma. Complementary phase equilibria modeling and thin section analysis indicate monazite grew between ∼450 °C and 3.0–3.5 kbar to ∼700–715 °C and 4.0–4.5 kbar, coeval with the development of the Kluane Schist’s inverted metamorphic sequence. Dating the four chemical zones preserved by monazite demonstrates its protracted growth during three distinct periods of garnet crystallization and breakdown, as well as coeval with melt generation. Our data illustrate that peak metamorphic conditions were reached at progressively younger ages with decreasing structural level within the Kluane Schist. Our results are consistent with Buchan-style metamorphism associated with the terminal accretion of the outboard Insular terranes and southwest-directed overriding of the inboard Yukon-Tanana terrane from ca. 70 Ma to 55 Ma. These findings are further congruous with a Late Cretaceous timing for the terminal accretion of the Insular terranes within southwest Yukon, facilitated by eastdipping subduction beneath a westward migrating North American continent. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Assessing the Relative Vulnerability of Chondrichthyan Species as Bycatch Using Spatially Reported Catch Data Series

Author

Marcelo Reis and Will F. Figueira

Subjects
chondrichthyans, spatial modeling, fisheries, risk assessment, fisheries vulnerability assessment, Biology (General), QH301-705.5
Abstract

Fishery impacts pose threats not only to target species, but also to bycatch species. Nevertheless, choosing priorities for conservation or research in fisheries is often driven by economic value and most retained bycatch species such as sharks and rays have been historically of low profit. Traditional stock assessments usually require large quantities of data, financial support, and feasible study conditions. The multi-species nature of Chondrichthyan catch along with their relatively lower value and sparsity of fishery-independent data creates significant challenges to developing accurate impact predictions. This study introduces a novel technique to quantify the relative vulnerability of Chondrichthyan species taken as bycatch. The approach is based on spatial interactions between species and fishing activity (termed here the fishery interaction index, or FII) and is correlated to metrics of productivity. A database of 15 years of fisheries logbooks was used to apply the method to 20 bycatch sharks and target species in one of the largest fishing sectors of Australia’s EEZ. Overall vulnerability based on the FII-productivity combinations obtained was found to agree considerably with the IUCN status of the assessed species, with only a few exceptions that reflected the local status differing from the general global assessments.

Published
2023
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18. Age, growth and reproductive biology of two endemic demersal bycatch elasmobranchs: Trygonorrhina fasciata and Dentiraja australis (Chondrichthyes: Rhinopristiformes, Rajiformes) from Eastern Australia

Author

Marcelo Reis and Will F. Figueira

Subjects
Zoology, QL1-991
Abstract

Bottom-dwelling elasmobranchs, such as guitarfishes, skates and stingrays are highly susceptible species to bycatch due to the overlap between their distribution and area of fishing operations. Catch data for this group is also often merged in generic categories preventing species-specific assessments. Along the east coast of Australia, the Eastern Fiddler Ray, Trygonorrhina fasciata (Muller & Henle, 1841), and the Sydney Skate, Dentiraja australis (Macleay, 1884), are common components of bycatch yet there is little information about their age, growth and reproductive timing, making impact assessment difficult. In this study the age and growth (from vertebral bands) as well as reproductive parameters of these two species are estimated and reported based on 171 specimens of Eastern Fiddler Rays (100 females and 71 males) and 81 Sydney Skates (47 females and 34 males). Based on von Bertalanffy growth curve fits, Eastern Fiddler Rays grew to larger sizes than Sydney Skate but did so more slowly (ray: L∞ = 109.61, t0 = 0.26 and K = 0.20; skate: L∞ = 51.95, t0 = -0.99 and K = 0.34 [both sexes combined]). Both species had higher liver weight ratios (HSI) during austral summer. Gonadal weight ratios (GSI) were higher in the austral winter for Eastern Fiddler and in the austral spring for Sydney Skates.

Published
2020
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23. Evaluating the effectiveness of drones for quantifying invasive upside-down jellyfish (Cassiopea sp.) in Lake Macquarie, Australia

Author

Claire E. Rowe, Will F. Figueira, Brendan P. Kelaher, Anna Giles, Lea T. Mamo, Shane T. Ahyong, and Stephen J. Keable

Subjects
Medicine, Science
Abstract

Upside-down jellyfish (Cassiopea sp.) are mostly sedentary, benthic jellyfish that have invaded estuarine ecosystems around the world. Monitoring the spread of this invasive jellyfish must contend with high spatial and temporal variability in abundance of individuals, especially around their invasion front. Here, we evaluated the utility of drones to survey invasive Cassiopea in a coastal lake on the east coast of Australia. To assess the efficacy of a drone-based methodology, we compared the densities and counts of Cassiopea from drone observations to conventional boat-based observations and evaluated cost and time efficiency of these methods. We showed that there was no significant difference in Cassiopea density measured by drones compared to boat-based methods along the same transects. However, abundance estimates of Cassiopea derived from scaling-up transect densities were over-inflated by 319% for drones and 178% for boats, compared to drone-based counts of the whole site. Although conventional boat-based survey techniques were cost-efficient in the short-term, we recommend doing whole-of-site counts using drones. This is because it provides a time-saving and precise technique for long-term monitoring of the spatio-temporally dynamic invasion front of Cassiopea in coastal lakes and other sheltered marine habitats with relatively clear water.

Published
2022

26. Habitat‐setting affects biodiversity while predation determines oyster survival on experimental oyster reefs.

Author

Hart, Josee L., Smith, Ruby L., Poore, Alistair G. B., Erickson, Katherine R., Figueira, Will F., Bishop, Melanie J., O'Connor, Wayne A., and Gribben, Paul E.

Subjects
PREDATION, OLYMPIA oyster, REEFS, OYSTERS, BIODIVERSITY, CLATHRATE compounds
Abstract

Foundation species are being restored into inherently variable landscapes with multiple, interspersed habitats. However, understanding of the influence of different neighbouring habitats on community assembly and the survival of restored species is limited, despite their significant potential to affect restoration outcomes. We tested how habitat‐setting (being next to seagrass, seagrass and mangroves, or unvegetated sediments) and predation (by meso‐ and/or large predators) influenced macroinvertebrate community assembly and the survival of juvenile Sydney rock oysters (Saccostrea glomerata) on experimental oyster reef units in the Port Hacking estuary, New South Wales, Australia. Each habitat‐setting produced a distinct macroinvertebrate community on experimental reefs, whereas predation had limited effects on community structure. Juvenile oysters were instead highly predated everywhere, and oyster predation was dominated by the large, transient fish Acanthropagrus australis. Our findings allow practitioners to predict and tailor the communities which establish on restored oyster reefs by strategically placing them next to different habitats. If sites have a high predation risk but require seeding for reefs to establish, then caging or complex substrates must be used to increase seeded oyster survival. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Functional promiscuity of small multidrug resistance transporters from Staphylococcus aureus, Pseudomonas aeruginosa, and Francisella tularensis.

Author

Spreacker, Peyton J., Wegrzynowicz, Andrea K., Porter, Colin J., Beeninga, Will F., Demas, Sydnye, Powers, Emma N., and Henzler‐Wildman, Katherine A.

Subjects
FRANCISELLA tularensis, MULTIDRUG resistance, PSEUDOMONAS aeruginosa, ESCHERICHIA coli, PROMISCUITY, STAPHYLOCOCCUS aureus, MICROCOCCACEAE
Abstract

Small multidrug resistance transporters efflux toxic compounds from bacteria and are a minimal system to understand multidrug transport. Most previous studies have focused on EmrE, the model SMR from Escherichia coli, finding that EmrE has a broader substrate profile than previously thought and that EmrE may perform multiple types of transport, resulting in substrate‐dependent resistance or susceptibility. Here, we performed a broad screen to identify potential substrates of three other SMRs: PAsmr from Pseudomonas aeruginosa; FTsmr from Francisella tularensis; and SAsmr from Staphylococcus aureus. This screen tested metabolic differences in E. coli expressing each transporter versus an inactive mutant, for a clean comparison of sequence and substrate‐specific differences in transporter function, and identified many substrates for each transporter. In general, resistance compounds were charged, and susceptibility substrates were uncharged, but hydrophobicity was not correlated with phenotype. Two resistance hits and two susceptibility hits were validated via growth assays and IC50 calculations. Susceptibility is proposed to occur via substrate‐gated proton leak, and the addition of bicarbonate antagonizes the susceptibility phenotype, consistent with this hypothesis. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Closing the gap between existing large‐area imaging research and marine conservation needs.

Author

McCarthy, Orion S., Contractor, Kanisha, Figueira, Will F., Gleason, Arthur C. R., Viehman, T. Shay, Edwards, Clinton B., and Sandin, Stuart A.

Subjects
MARINE resources conservation, CORAL reef conservation, CORAL reefs & islands, TECHNOLOGICAL innovations, CORALS, CORAL bleaching, CORAL reef restoration
Abstract

Copyright of Conservation Biology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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37. Trophic ecology of juvenile lean and siscowet lake charr (Salvelinus namaycush) in Lake Superior: assessing for potential competition.

Author

Gerig, Brandon S., Sitar, Shawn P., Otte, Will F., Yule, Daniel L., Swanson, Heidi K., Bronte, Charles R., Carl, Dray, and Blankenheim, Joshua

Abstract

We investigated the spatial overlap, diet, isotopic niche, and growth of juvenile lean and siscowet lake charr (Salvelinus namaycush) in Lake Superior to address concerns of potential competition with implications to the study of resource polymorphism. Catch data revealed the greatest levels of sympatry in waters from 40 to 60 m. Juvenile lean and siscowet diet changed ontogenetically with Mysis being the dominant prey item for the smallest lake charr but differentiating with onset of piscivory. As ecotypes increased in size, lean diets became dominated by pelagic prey, whereas siscowets had equal proportions of benthic and pelagic prey. Isotopic niche overlap declined between ecotypes coincident with siscowet lake charr shifting to deeper habitats around 400 mm. Lean and siscowet exhibited different growth trajectories. However, length at age-4 declined in parallel for both ecotypes with no trend in condition suggesting that lake charr growth is sensitive to prey biomass and unlikely related to competition. Our findings indicate minimal evidence of competition and support the concept that multiple sympatric ecotypes of lake charr in Lake Superior are maintained by resource polymorphism. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Supplementary Tables 1-2 from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Author

Burgess, Teresa L., primary, Sun, Jan, primary, Meyer, Susanne, primary, Tsuruda, Trace S., primary, Sun, Jilin, primary, Elliott, Gary, primary, Chen, Qing, primary, Haniu, Mitsuru, primary, Barron, Will F., primary, Juan, Todd, primary, Zhang, Ke, primary, Coxon, Angela, primary, and Kendall, Richard L., primary

Published
2023
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40. Supplementary Figure 1 from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Author

Burgess, Teresa L., primary, Sun, Jan, primary, Meyer, Susanne, primary, Tsuruda, Trace S., primary, Sun, Jilin, primary, Elliott, Gary, primary, Chen, Qing, primary, Haniu, Mitsuru, primary, Barron, Will F., primary, Juan, Todd, primary, Zhang, Ke, primary, Coxon, Angela, primary, and Kendall, Richard L., primary

Published
2023
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41. Supplementary Figure Legend from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Author

Burgess, Teresa L., primary, Sun, Jan, primary, Meyer, Susanne, primary, Tsuruda, Trace S., primary, Sun, Jilin, primary, Elliott, Gary, primary, Chen, Qing, primary, Haniu, Mitsuru, primary, Barron, Will F., primary, Juan, Todd, primary, Zhang, Ke, primary, Coxon, Angela, primary, and Kendall, Richard L., primary

Published
2023
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44. Supplementary Tables 1-2 from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Author

Richard L. Kendall, Angela Coxon, Ke Zhang, Todd Juan, Will F. Barron, Mitsuru Haniu, Qing Chen, Gary Elliott, Jilin Sun, Trace S. Tsuruda, Susanne Meyer, Jan Sun, and Teresa L. Burgess

Abstract

Supplementary Tables 1-2 from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Published
2023

45. Data from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Author

Richard L. Kendall, Angela Coxon, Ke Zhang, Todd Juan, Will F. Barron, Mitsuru Haniu, Qing Chen, Gary Elliott, Jilin Sun, Trace S. Tsuruda, Susanne Meyer, Jan Sun, and Teresa L. Burgess

Abstract

AMG 102 is a fully human monoclonal antibody that selectively targets and neutralizes hepatocyte growth factor/scatter factor (HGF/SF). A detailed biochemical and functional characterization of AMG 102 was done to support its clinical development for the treatment of cancers dependent on signaling through the HGF/SF:c-Met pathway. In competitive equilibrium binding experiments, AMG 102 bound to human and cynomolgus monkey HGF with affinities of approximately 19 pmol/L and 41 pmol/L, respectively. However, AMG 102 did not detect mouse or rabbit HGF on immunoblots. Immunoprecipitation experiments showed that AMG 102 preferentially bound to the mature, active form of HGF, and incubation of AMG 102/HGF complexes with kallikrein protease indicated that AMG 102 had no apparent effect on proteolytic processing of the inactive HGF precursor. AMG 102 inhibited human and cynomolgus monkey HGF-induced c-Met autophosphorylation in PC3 cells with IC50 values of 0.12 nmol/L and 0.24 nmol/L, respectively. AMG 102 also inhibited cynomolgus monkey HGF-induced migration of human MDA-MB-435 cells but not rat HGF-induced migration of mouse 4T1 cells. Epitope-mapping studies of recombinant HGF molecules comprising human/mouse chimeras and human-to-mouse amino acid substitutions showed that amino acid residues near the NH2-terminus of the β-chain are critical for AMG 102 binding. Bound AMG 102 protected one trypsin protease cleavage site near the NH2-terminus of the β-chain of human HGF, further substantiating the importance of this region for AMG 102 binding. Currently, AMG 102 is in phase II clinical trials in a variety of solid tumor indications. Mol Cancer Ther; 9(2); 400–9

Published
2023

46. Supplementary Figure 1 from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Author

Richard L. Kendall, Angela Coxon, Ke Zhang, Todd Juan, Will F. Barron, Mitsuru Haniu, Qing Chen, Gary Elliott, Jilin Sun, Trace S. Tsuruda, Susanne Meyer, Jan Sun, and Teresa L. Burgess

Abstract

Supplementary Figure 1 from Biochemical Characterization of AMG 102: A Neutralizing, Fully Human Monoclonal Antibody to Human and Nonhuman Primate Hepatocyte Growth Factor

Published
2023

47. Kinetics, Kinematics, and Fixed Postures: An Exploration of How Attentional Focus Manipulation Enhances Movement

Author

Maclean Turner, Nathan Hammer, Emma Lamping, Will F. W. Wu, and James Becker

Subjects
Nephrology, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, General Medicine
Abstract

There is debate in the literature regarding how manipulating the focus of attention (FOA) influences ground reaction forces during the standing long jump (SLJ) and gaps in understanding as to which phases of the SLJ are affected (takeoff, flight, and landing) and whether FOA manipulation benefits remain when tasks are performed in fixed body postures.

Published
2022

50. Global warming and recurrent mass bleaching of corals

Author

Hughes, Terry P., Kerry, James T., lvarez-Noriega, Mariana, lvarez-Romero, Jorge G., Anderson, Kristen D., Baird, Andrew H., Babcock, Russell C., Beger, Maria, Bellwood, David R., Berkelmans, Ray, Bridge, Tom C., Butler, Ian R., Byrne, Maria, Cantin, Neal E., Comeau, Steeve, Connolly, Sean R., Cumming, Graeme S., Dalton, Steven J., Diaz-Pulido, Guillermo, Eakin, C. Mark, Figueira, Will F., Gilmour, James P., Harrison, Hugo B., Heron, Scott F., Hoey, Andrew S., Hobbs, Jean-Paul A., Hoogenboom, Mia O., Kennedy, Emma V., Kuo, Chao-yang, Lough, Janice M., Lowe, Ryan J., Liu, Gang, McCulloch, Malcolm T., Malcolm, Hamish A., McWilliam, Michael J., Pandolfi, John M., Pears, Rachel J., Pratchett, Morgan S., Schoepf, Verena, Simpson, Tristan, Skirving, William J., Sommer, Brigitte, Torda, Gergely, Wachenfeld, David R., Willis, Bette L., and Wilson, Shaun K.

Subjects
Global warming -- Surveys -- Environmental aspects, Coral reefs -- Environmental aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

During 20152016, record temperatures triggered a pan-tropical episode of coral bleaching, the third global-scale event since mass bleaching was first documented in the 1980s. Here we examine how and why the severity of recurrent major bleaching events has varied at multiple scales, using aerial and underwater surveys of Australian reefs combined with satellite-derived sea surface temperatures. The distinctive geographic footprints of recurrent bleaching on the Great Barrier Reef in 1998, 2002 and 2016 were determined by the spatial pattern of sea temperatures in each year. Water quality and fishing pressure had minimal effect on the unprecedented bleaching in 2016, suggesting that local protection of reefs affords little or no resistance to extreme heat. Similarly, past exposure to bleaching in 1998 and 2002 did not lessen the severity of bleaching in 2016. Consequently, immediate global action to curb future warming is essential to secure a future for coral reefs., Author(s): Terry P. Hughes (corresponding author) [1]; James T. Kerry [1]; Mariana lvarez-Noriega [1, 2]; Jorge G. lvarez-Romero [1]; Kristen D. Anderson [1]; Andrew H. Baird [1]; Russell C. Babcock [...]

Published
2017
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