Your search keyword '"Platypus"' showing total 19 results

1. Comparative genomics of monotremes provides insights into the early evolution of mammalian epidermal differentiation genes.

Author

Steinbinder, Julia, Sachslehner, Attila Placido, Holthaus, Karin Brigit, and Eckhart, Leopold

Subjects

*COMPARATIVE genomics, *GENETIC regulation, *PLATYPUS, *GENES, *FILAGGRIN, KERATINOCYTE differentiation

Abstract

The function of the skin as a barrier against the environment depends on the differentiation of epidermal keratinocytes into highly resilient corneocytes that form the outermost skin layer. Many genes encoding structural components of corneocytes are clustered in the epidermal differentiation complex (EDC), which has been described in placental and marsupial mammals as well as non-mammalian tetrapods. Here, we analyzed the genomes of the platypus (Ornithorhynchus anatinus) and the echidna (Tachyglossus aculeatus) to determine the gene composition of the EDC in the basal clade of mammals, the monotremes. We report that mammal-specific subfamilies of EDC genes encoding small proline-rich proteins (SPRRs) and late cornified envelope proteins as well as single-copy EDC genes such as involucrin are conserved in monotremes, suggesting that they have originated in stem mammals. Monotremes have at least one gene homologous to the group of filaggrin (FLG), FLG2 and hornerin (HRNR) in placental mammals, but no clear one-to-one pairwise ortholog of either FLG, FLG2 or HRNR. Caspase-14, a keratinocyte differentiation-associated protease implicated in the processing of filaggrin, is encoded by at least 3 gene copies in the echidna. Our results reveal evolutionarily conserved and clade-specific features of the genetic regulation of epidermal differentiation in monotremes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Early Triassic marine reptile representing the oldest record of unusually small eyes in reptiles indicating non-visual prey detection.

Author

Cheng, Long, Motani, Ryosuke, Jiang, Da-Yong, Yan, Chun-Bo, Tintori, Andrea, and Rieppel, Olivier

Subjects

Eye, Mechanoreceptors, Animals, Platypus, Reptiles, Ecosystem, Geologic Sediments, Fossils, China, Biological Evolution

Abstract

The end-Permian mass extinction (EPME) led to reorganization of marine predatory communities, through introduction of air-breathing top predators, such as marine reptiles. We report two new specimens of one such marine reptile, Eretmorhipis carrolldongi, from the Lower Triassic of Hubei, China, revealing superficial convergence with the modern duckbilled platypus (Ornithorhynchus anatinus), a monotreme mammal. Apparent similarities include exceptionally small eyes relative to the body, snout ending with crura with a large internasal space, housing a bone reminiscent of os paradoxum, a mysterious bone of platypus, and external grooves along the crura. The specimens also have a rigid body with triangular bony blades protruding from the back. The small eyes likely played reduced roles during foraging in this animal, as with extant amniotes (group containing mammals and reptiles) with similarly small eyes. Mechanoreceptors on the bill of the animal were probably used for prey detection instead. The specimens represent the oldest record of amniotes with extremely reduced visual capacity, utilizing non-visual cues for prey detection. The discovery reveals that the ecological diversity of marine predators was already high in the late Early Triassic, and challenges the traditional view that the ecological diversification of marine reptiles was delayed following the EPME.

Published

2019

3. Using DNA metabarcoding as a novel approach for analysis of platypus diet.

Author

Hawke, Tahneal, Bino, Gilad, Shackleton, Michael E., Ross, Alexandra K., and Kingsford, Richard T.

Subjects

*PLATYPUS, *GENETIC barcoding, *STABLE isotope analysis, *DNA, *FRESHWATER habitats, *ODONATA

Abstract

Platypuses (Ornithorhynchus anatinus) forage for macroinvertebrate prey exclusively in freshwater habitats. Because food material in their faeces is well digested and mostly unidentifiable, previous dietary studies have relied on cheek pouch assessments and stable isotope analysis. Given DNA metabarcoding can identify species composition from only fragments of genetic material, we investigated its effectiveness in analysing the diet of platypuses, and to assess variation across seasons and sexes. Of the 18 orders and 60 families identified, Ephemeroptera and Diptera were the most prevalent orders, detected in 100% of samples, followed by Trichoptera, Pulmonata, and Odonata (86.21% of samples). Caenidae and Chironomidae were the most common families. Diptera had a high average DNA read, suggesting it is an important dietary component that may have been underestimated in previous studies. We found no variation in diet between sexes and only minimal changes between seasons. DNA metabarcoding proved to be a highly useful tool for assessing platypus diet, improving prey identification compared to cheek pouch analysis, which can underestimate soft-bodied organisms, and stable isotope analysis which cannot distinguish all taxa isotopically. This will be a useful tool for investigating how platypus prey diversity is impacted by habitat degradation as a result of anthropogenic stressors. [ABSTRACT FROM AUTHOR]

Published

2022

4. Seasonal and geographic variation in packed cell volume and selected serum chemistry of platypuses.

Author

Stewart, Jana, Bino, Gilad, Hawke, Tahneal, and Kingsford, Richard T.

Subjects

*PLATYPUS, *BLOOD serum analysis, *ANTHROPOGENIC effects on nature, *ALBUMINS

Abstract

Platypuses (Ornithorhynchus anatinus) inhabit the permanent rivers and creeks of eastern Australia, from north Queensland to Tasmania, but are experiencing multiple and synergistic anthropogenic threats. Baseline information of health is vital for effective monitoring of populations but is currently sparse for mainland platypuses. Focusing on seven hematology and serum chemistry metrics as indicators of health and nutrition (packed cell volume (PCV), total protein (TP), albumin, globulin, urea, creatinine, and triglycerides), we investigated their variation across the species' range and across seasons. We analyzed 249 unique samples collected from platypuses in three river catchments in New South Wales and Victoria. Health metrics significantly varied across the populations' range, with platypuses from the most northerly catchment, having lower PCV, and concentrations of albumin and triglycerides and higher levels of globulin, potentially reflecting geographic variation or thermal stress. The Snowy River showed significant seasonal patterns which varied between the sexes and coincided with differential reproductive stressors. Male creatinine and triglyceride levels were significantly lower than females, suggesting that reproduction is energetically more taxing on males. Age specific differences were also found, with juvenile PCV and TP levels significantly lower than adults. Additionally, the commonly used body condition index (tail volume index) was only negatively correlated with urea, and triglyceride levels. A meta-analysis of available literature revealed a significant latitudinal relationship with PCV, TP, albumin, and triglycerides but this was confounded by variation in sampling times and restraint methods. We expand understanding of mainland platypuses, providing reference intervals for PCV and six blood chemistry, while highlighting the importance of considering seasonal variation, to guide future assessments of individual and population condition. [ABSTRACT FROM AUTHOR]

Published

2021

5. Long-term movements and activity patterns of platypus on regulated rivers.

Author

Hawke, Tahneal, Bino, Gilad, Kingsford, Richard T., Iervasi, Dion, Iervasi, Kylie, and Taylor, Matthew D.

Subjects

*PLATYPUS, *FRESHWATER habitats, *UNDERWATER acoustic telemetry, *INVERTEBRATES

Abstract

The platypus is a semi-aquatic mammal, endemic to freshwater habitats of eastern Australia. There are gaps in the understanding of platypus movement behaviour within river systems, including spatial and temporal organization of individuals. We tracked movements of 12 platypuses on the regulated Snowy and Mitta Mitta Rivers for up to 12-months, the longest continuous tracking of platypus using acoustic telemetry. Platypuses remained relatively localized, occupying 0.73–8.45 km of river over 12 months, consistent with previous tracking studies over shorter periods. Males moved further than females, and larger males had higher cumulative movements, suggesting a possible relationship to metabolic requirements. Platypuses moved greater distances on the Mitta Mitta River, possibly associated with impacts of altered flow regimes to their macroinvertebrate diet. Increased movements and diurnal activity during winter were primarily driven by males, possibly attributable to breeding behaviours, rather than increased costs of winter foraging. Evidence for relatively small movements has implications for declining populations, given areas of localised declines are unlikely to be supplemented by migrating platypuses, especially when dispersal is restricted by dam walls. Understanding platypus movement behaviour is pertinent for their conservation, as water resource development and habitat modification continue to reduce connectivity between populations across their distribution. [ABSTRACT FROM AUTHOR]

Published

2021

6. Platypus predation has differential effects on aquatic invertebrates in contrasting stream and lake ecosystems.

Author

McLachlan-Troup, Tanya A., Nicol, Stewart C., and Dickman, Christopher R.

Subjects

*PLATYPUS, *RIVER ecology, *BENTHIC animals, *ECOSYSTEMS

Abstract

Predators can have strong impacts on prey populations, with cascading effects on lower trophic levels. Although such effects are well known in aquatic ecosystems, few studies have explored the influence of predatory aquatic mammals, or whether the same predator has similar effects in contrasting systems. We investigated the effects of platypus (Monotremata: Ornithorhynchus anatinus) on its benthic invertebrate prey, and tested predictions that this voracious forager would more strongly affect invertebrates—and indirectly, epilithic algae—in a mesotrophic lake than in a dynamic stream ecosystem. Hypotheses were tested using novel manipulative experiments involving platypus-exclusion cages. Platypuses had strongly suppressive effects on invertebrate prey populations, especially detritivores and omnivores, but weaker or inconsistent effects on invertebrate taxon richness and composition. Contrary to expectation, predation effects were stronger in the stream than the lake; no effects were found on algae in either ecosystem due to weak effects of platypuses on herbivorous invertebrates. Platypuses did not cause redistribution of sediment via their foraging activities. Platypuses can clearly have both strong and subtle effects on aquatic food webs that may vary widely between ecosystems and locations, but further research is needed to replicate our experiments and understand the contextual drivers of this variation. [ABSTRACT FROM AUTHOR]

Published

2020

7. Vivid biofluorescence discovered in the nocturnal Springhare (Pedetidae)

Author

Adam S. Gunnelson, Sharon E. Anthony, Jonathan G. Martin, Leigh Ramon, Paula Spaeth Anich, Michaela Jurewicz, Erik R. Olson, Michaela R. Carlson, V. M. Sadagopa Ramanujam, Alissa M. Hulstrand, Allison M Kohler, and Lindsay Sears

Subjects

0106 biological sciences, 0301 basic medicine, Old World, Evolution, Science, Zoology, Nocturnal, Monotreme, Evolutionary ecology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Article, 03 medical and health sciences, Phylogenetics, biology.animal, Cuticle (hair), Marsupial, Multidisciplinary, biology, biology.organism_classification, 030104 developmental biology, Medicine, Platypus, Pedetidae

Abstract

Biofluorescence has been detected in several nocturnal-crepuscular organisms from invertebrates to birds and mammals. Biofluorescence in mammals has been detected across the phylogeny, including the monotreme duck-billed platypus (Ornithorhyncus anatinus), marsupial opossums (Didelphidae), and New World placental flying squirrels (Gluacomys spp.). Here, we document vivid biofluorescence of springhare (Pedetidae) in both museum specimens and captive individuals—the first documented biofluorescence of an Old World placental mammal. We explore the variation in biofluorescence across our sample and characterize its physical and chemical properties. The striking visual patterning and intensity of color shift was unique relative to biofluorescence found in other mammals. We establish that biofluorescence in springhare likely originates within the cuticle of the hair fiber and emanates, at least partially, from several fluorescent porphyrins and potentially one unassigned molecule absent from our standard porphyrin mixture. This discovery further supports the hypothesis that biofluorescence may be ecologically important for nocturnal-crepuscular mammals and suggests that it may be more broadly distributed throughout Mammalia than previously thought.

Published

2021

8. Using DNA metabarcoding as a novel approach for analysis of platypus diet

Author

Tahneal Hawke, Gilad Bino, Michael E. Shackleton, Alexandra K. Ross, and Richard T. Kingsford

Subjects

Male, Multidisciplinary, Science, parasitic diseases, Medicine, Animals, DNA Barcoding, Taxonomic, Female, Platypus, Uncategorized, Diet

Abstract

Platypuses (Ornithorhynchus anatinus) forage for macroinvertebrate prey exclusively in freshwater habitats. Because food material in their faeces is well digested and mostly unidentifiable, previous dietary studies have relied on cheek pouch assessments and stable isotope analysis. Given DNA metabarcoding can identify species composition from only fragments of genetic material, we investigated its effectiveness in analysing the diet of platypuses, and to assess variation across seasons and sexes. Of the 18 orders and 60 families identified, Ephemeroptera and Diptera were the most prevalent orders, detected in 100% of samples, followed by Trichoptera, Pulmonata, and Odonata (86.21% of samples). Caenidae and Chironomidae were the most common families. Diptera had a high average DNA read, suggesting it is an important dietary component that may have been underestimated in previous studies. We found no variation in diet between sexes and only minimal changes between seasons. DNA metabarcoding proved to be a highly useful tool for assessing platypus diet, improving prey identification compared to cheek pouch analysis, which can underestimate soft-bodied organisms, and stable isotope analysis which cannot distinguish all taxa isotopically. This will be a useful tool for investigating how platypus prey diversity is impacted by habitat degradation as a result of anthropogenic stressors.

Published

2022

9. Long-term movements and activity patterns of platypus on regulated rivers

Author

Kylie Iervasi, Dion Iervasi, Richard T. Kingsford, Gilad Bino, Tahneal Hawke, and Matthew D. Taylor

Subjects

Male, 0106 biological sciences, Behavioural ecology, Movement, Science, Foraging, Fresh Water, 010603 evolutionary biology, 01 natural sciences, Article, Rivers, biology.animal, parasitic diseases, Animals, Platypus, Ecosystem, Multidisciplinary, Ecology, biology, 010604 marine biology & hydrobiology, Australia, Water resource development, 15. Life on land, Habitat, Freshwater ecology, Medicine, Biological dispersal, Female, Mammal, Temporal organization

Abstract

The platypus is a semi-aquatic mammal, endemic to freshwater habitats of eastern Australia. There are gaps in the understanding of platypus movement behaviour within river systems, including spatial and temporal organization of individuals. We tracked movements of 12 platypuses on the regulated Snowy and Mitta Mitta Rivers for up to 12-months, the longest continuous tracking of platypus using acoustic telemetry. Platypuses remained relatively localized, occupying 0.73–8.45 km of river over 12 months, consistent with previous tracking studies over shorter periods. Males moved further than females, and larger males had higher cumulative movements, suggesting a possible relationship to metabolic requirements. Platypuses moved greater distances on the Mitta Mitta River, possibly associated with impacts of altered flow regimes to their macroinvertebrate diet. Increased movements and diurnal activity during winter were primarily driven by males, possibly attributable to breeding behaviours, rather than increased costs of winter foraging. Evidence for relatively small movements has implications for declining populations, given areas of localised declines are unlikely to be supplemented by migrating platypuses, especially when dispersal is restricted by dam walls. Understanding platypus movement behaviour is pertinent for their conservation, as water resource development and habitat modification continue to reduce connectivity between populations across their distribution.

Published

2021

10. Seasonal and geographic variation in packed cell volume and selected serum chemistry of platypuses

Author

Jana Stewart, Tahneal Hawke, Richard T. Kingsford, and Gilad Bino

Subjects

0106 biological sciences, Globulin, Range (biology), media_common.quotation_subject, Science, Population, Drainage basin, Zoology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Article, Reference Values, parasitic diseases, medicine, Juvenile, Animals, education, Platypus, Signs and symptoms, media_common, education.field_of_study, geography, Multidisciplinary, geography.geographical_feature_category, Hematologic Tests, biology, Ecology, 010604 marine biology & hydrobiology, Australia, Seasonality, medicine.disease, Environmental sciences, Blood chemistry, Hematocrit, biology.protein, Medicine, Seasons, Reproduction, Biomarkers

Abstract

Platypuses (Ornithorhynchus anatinus) inhabit the permanent rivers and creeks of eastern Australia, from north Queensland to Tasmania, but are experiencing multiple and synergistic anthropogenic threats. Baseline information of health is vital for effective monitoring of populations but is currently sparse for mainland platypuses. Focusing on seven hematology and serum chemistry metrics as indicators of health and nutrition (packed cell volume (PCV), total protein (TP), albumin, globulin, urea, creatinine, and triglycerides), we investigated their variation across the species’ range and across seasons. We analyzed 249 unique samples collected from platypuses in three river catchments in New South Wales and Victoria. Health metrics significantly varied across the populations’ range, with platypuses from the most northerly catchment, having lower PCV, and concentrations of albumin and triglycerides and higher levels of globulin, potentially reflecting geographic variation or thermal stress. The Snowy River showed significant seasonal patterns which varied between the sexes and coincided with differential reproductive stressors. Male creatinine and triglyceride levels were significantly lower than females, suggesting that reproduction is energetically more taxing on males. Age specific differences were also found, with juvenile PCV and TP levels significantly lower than adults. Additionally, the commonly used body condition index (tail volume index) was only negatively correlated with urea, and triglyceride levels. A meta-analysis of available literature revealed a significant latitudinal relationship with PCV, TP, albumin, and triglycerides but this was confounded by variation in sampling times and restraint methods. We expand understanding of mainland platypuses, providing reference intervals for PCV and six blood chemistry, while highlighting the importance of considering seasonal variation, to guide future assessments of individual and population condition.

Published

2020

11. Platypus predation has differential effects on aquatic invertebrates in contrasting stream and lake ecosystems

Author

Tanya A. McLachlan-Troup, Stewart C. Nicol, and Chris R. Dickman

Subjects

0106 biological sciences, Aquatic Organisms, Geologic Sediments, Ecosystem ecology, Foraging, lcsh:Medicine, Biology, Models, Biological, 010603 evolutionary biology, 01 natural sciences, Article, Predation, Rivers, parasitic diseases, Animals, Ecosystem, Biomass, Platypus, lcsh:Science, Phylogeny, Trophic level, Multidisciplinary, Ecology, 010604 marine biology & hydrobiology, Aquatic ecosystem, lcsh:R, Lake ecosystem, Detritivore, Invertebrates, Lakes, Benthic zone, Predatory Behavior, Multivariate Analysis, Freshwater ecology, lcsh:Q

Abstract

Predators can have strong impacts on prey populations, with cascading effects on lower trophic levels. Although such effects are well known in aquatic ecosystems, few studies have explored the influence of predatory aquatic mammals, or whether the same predator has similar effects in contrasting systems. We investigated the effects of platypus (Monotremata: Ornithorhynchus anatinus) on its benthic invertebrate prey, and tested predictions that this voracious forager would more strongly affect invertebrates—and indirectly, epilithic algae—in a mesotrophic lake than in a dynamic stream ecosystem. Hypotheses were tested using novel manipulative experiments involving platypus-exclusion cages. Platypuses had strongly suppressive effects on invertebrate prey populations, especially detritivores and omnivores, but weaker or inconsistent effects on invertebrate taxon richness and composition. Contrary to expectation, predation effects were stronger in the stream than the lake; no effects were found on algae in either ecosystem due to weak effects of platypuses on herbivorous invertebrates. Platypuses did not cause redistribution of sediment via their foraging activities. Platypuses can clearly have both strong and subtle effects on aquatic food webs that may vary widely between ecosystems and locations, but further research is needed to replicate our experiments and understand the contextual drivers of this variation.

Published

2020

12. NumtS colonization in mammalian genomes

Author

D. L. Balacco, Francesco Maria Calabrese, Mario Ventura, Roberto Preste, R. Forino, Maria Angela Diroma, and Marcella Attimonelli

Subjects

0301 basic medicine, Mitochondrial DNA, Nuclear gene, In silico, lcsh:Medicine, Genome, DNA, Mitochondrial, DNA sequencing, Article, Evolution, Molecular, 03 medical and health sciences, Phylogenetics, biology.animal, Databases, Genetic, Animals, Humans, lcsh:Science, Phylogeny, Repetitive Sequences, Nucleic Acid, Mammals, Multidisciplinary, 030102 biochemistry & molecular biology, Phylogenetic tree, biology, lcsh:R, Computational Biology, Genomics, Mutagenesis, Insertional, 030104 developmental biology, Evolutionary biology, lcsh:Q, Platypus

Abstract

The colonization of the nuclear genome by mitochondrial DNA is an ongoing process in eukaryotes and plays an important role in genomic variability. Notwithstanding the DNA sequence availability of about 100 complete eukaryotic genomes, up to now NumtS distribution has been fully reported for a small number of sequenced eukaryotic species. With the aim to clarify the time and way of NumtS evolution, we explored the genomic distribution of NumtS in 23 eukaryotic species using an intra/interspecies in silico approach based on a cross-species similarity search and deeply investigate the evolution of NumtS in mammals. The intra- and interspecies analysis underlined how some mitochondrial regions that populated nuclear genomes can be considered as hotspots. Considering the large amount of NumtS we found in platypus and opossum genomes, we hypothesized the occurrence of an earlier colonization that happened prior to the Prototherian/Therian mammal divergence, approximately 160–210 million years ago. These events are still detectable due to the species-specific dynamics that have affected these genomes. Phylogenetic analyses of NumtS derived from two different mitochondrial DNA loci allowed us to recognize the unusual NumtS evolution that acted differently on primate and non-primate species’ genomes.

Published

2017

13. Differential cohesin loading marks paired and unpaired regions of platypus sex chromosomes at prophase I

Author

Aaron E. Casey, Tasman Daish, Frank Grützner, José Luis Barbero, Australian Research Council, and Ministerio de Economía y Competitividad (España)

Subjects

0301 basic medicine, Male, Chromomere, Chromosomal Proteins, Non-Histone, Science, Cell Cycle Proteins, Biology, Article, Chromosomal crossover, 03 medical and health sciences, Meiotic Prophase I, Prophase, Animals, Platypus, In Situ Hybridization, Fluorescence, Genetics, Cohesin loading, Multidisciplinary, Sex Chromosomes, Cohesin, Synapsis, Chromatin, Chromosome Pairing, 030104 developmental biology, Evolutionary biology, Medicine, Chromatid, Female, biological phenomena, cell phenomena, and immunity

Abstract

14 p.-9 fig.-1 tab., Cohesins are vital for chromosome organisation during meiosis and mitosis. In addition to the important function in sister chromatid cohesion, these complexes play key roles in meiotic recombination, DSB repair, homologous chromosome pairing and segregation. Egg-laying mammals (monotremes) feature an unusually complex sex chromosome system, which raises fundamental questions about organisation and segregation during meiosis. We discovered a dynamic and differential accumulation of cohesins on sex chromosomes during platypus prophase I and specific reorganisation of the sex chromosome complex around a large nucleolar body. Detailed analysis revealed a differential loading of SMC3 on the chromatin and chromosomal axis of XY shared regions compared with the chromatin and chromosomal axes of asynapsed X and Y regions during prophase I. At late prophase I, SMC3 accumulation is lost from both the chromatin and chromosome axes of the asynaptic regions of the chain and resolves into subnuclear compartments. This is the first report detailing unpaired DNA specific SMC3 accumulation during meiosis in any species and allows speculation on roles for cohesin in monotreme sex chromosome organisation and segregation., FG is funded by the Australian research council, AC is funded by an Australian Postgraduate Award. JLB is funded by BFU2014-59307-R.

Published

2017

14. Evolutionary and Molecular Characterization of liver-enriched gene 1

Author

Yanna Dang, Peng Jinrong, Jin He, Chen Liu, Jin-Yang Wang, and Kun Zhang

Subjects

0301 basic medicine, Agricultural genetics, lcsh:Medicine, Genome, Article, Evolution, Molecular, 03 medical and health sciences, Mice, Structure-Activity Relationship, 0302 clinical medicine, biology.animal, Homologous chromosome, Animals, Humans, Cloning, Molecular, Clade, lcsh:Science, Gene, Zebrafish, Phylogeny, Genetics, Multidisciplinary, biology, Sequence Analysis, RNA, lcsh:R, Proteins, Evolution of mammals, Genomics, Zebrafish Proteins, biology.organism_classification, Biological Evolution, Phylogenetics, 030104 developmental biology, Subfunctionalization, lcsh:Q, Platypus, 030217 neurology & neurosurgery

Abstract

Liver-enriched gene 1 (Leg1) is a newly identified gene with little available functional information. To evolutionarily and molecularly characterize Leg1 genes, a phylogenetic study was first conducted, which indicated that Leg1 is a conserved gene that exists from bacteria to mammals. During the evolution of mammals, Leg1s underwent tandem duplications, which gave rise to Leg1a, Leg1b, and Leg1c clades. Analysis of the pig genome showed the presence of all three paralogs of pig Leg1 genes (pLeg1s), whereas only Leg1a could be found in the human (hLeg1a) or mouse (mLeg1a) genomes. Purifying force acts on the evolution of Leg1 genes, likely subjecting them to functional constraint. Molecularly, pLeg1a and its coded protein, pig LEG1a (pLEG1a), displayed high similarities to its human and mouse homologs in terms of gene organization, expression patterns, and structures. Hence, pLeg1a, hLeg1a, and mLeg1a might preserve similar functions. Additionally, expression analysis of the three Leg1as suggested that eutherian Leg1as might have different functions from those of zebrafish and platypus due to subfunctionalization. Therefore, pLeg1a might provide essential information about eutherian Leg1a. Moreover, a preliminary functional study using RNA-seq suggested that pLeg1a is involved in the lipid homeostasis. In conclusion, our study provides some basic information on the aspects of evolution and molecular function, which could be applied for further validation of Leg1 using pig models.

Published

2019

15. Use of implanted acoustic tags to assess platypus movement behaviour across spatial and temporal scales

Author

Matthew D. Taylor, T. R. Grant, Larry Vogelnest, Richard T. Kingsford, and Gilad Bino

Subjects

Male, 0106 biological sciences, Movement, lcsh:Medicine, Zoology, Nocturnal, 010603 evolutionary biology, 01 natural sciences, Article, Intraspecific competition, biology.animal, Animals, Juvenile, Platypus, lcsh:Science, Temporal scales, Multidisciplinary, biology, Movement (music), 010604 marine biology & hydrobiology, lcsh:R, Female, lcsh:Q, Mammal, Spatial variability

Abstract

The platypus (Ornithorhynchus anatinus) is an evolutionarily distinct mammal, endemic to Australian freshwaters. Many aspects of its ecology and life-history, including detailed understanding of movements, are poorly known, hampered by its cryptic and mainly nocturnal habits and small numbers. We effectively trialled intraperitoneal implanted acoustic transmitters in nine platypuses in the Severn River (NSW), Australia, as a potential approach for studying movements in this challenging species. We tracked platypus movements over six months, at fine and broad spatial scales, using an array of acoustic sensors. Over six months (March-August 2016), four of five adult platypuses (two females\three males) maintained localized movements (average monthly maximums 0.37 km ± 0.03 sd), while one adult, one sub-adult, and one juvenile (males) moved further: average monthly maxima 1.2 km ± 2.0 sd, 0.9 km ± 0.6 sd, 4.5 km ± 5.9 sd, respectively. The longest recorded movement was by a male adult, covering 11.1 km in three days and travelling a maximum distance of about 13 km between records. Only one implanted animal was not detected immediately after release, indicative of transmission failure rather than an adverse event. High cumulative daily movements (daily 1.9 km ± 0.8 sd) indicated high metabolic requirements, with implications for previous estimates of platypus abundances and carrying capacities, essential for effective conservation. This novel approach offers new avenues to investigate relating to mating, nesting, and intraspecific competition behaviours and their temporal and spatial variation.

Published

2018

16. Monotreme glucagon-like peptide-1 in venom and gut: one gene – two very different functions

Author

Mark A. Myers, Patrick M. Sexton, Chuan He, Frank Grützner, Enkhjargal Tsend-Ayush, Sof Andrikopoulos, Briony E. Forbes, Denise Wootten, and Nicole Wong

Subjects

0301 basic medicine, endocrine system, Tachyglossidae, 030209 endocrinology & metabolism, Venom, Peptide, Monotreme, Incretins, Article, 03 medical and health sciences, 0302 clinical medicine, Glucagon-Like Peptide 1, biology.animal, Gene duplication, Insulin Secretion, Gila monster, Animals, Insulin, Intestinal Mucosa, Selection, Genetic, Platypus, Gene, Cells, Cultured, Phylogeny, chemistry.chemical_classification, Multidisciplinary, biology, Monotremata, Venoms, digestive, oral, and skin physiology, Anatomy, biology.organism_classification, Biological Evolution, Cell biology, 030104 developmental biology, chemistry, Echidna, Exenatide, Peptides, hormones, hormone substitutes, and hormone antagonists

Abstract

The importance of Glucagon like peptide 1 (GLP-1) for metabolic control and insulin release sparked the evolution of genes mimicking GLP-1 action in venomous species (e.g. Exendin-4 in Heloderma suspectum (gila monster)). We discovered that platypus and echidna express a single GLP-1 peptide in both intestine and venom. Specific changes in GLP-1 of monotreme mammals result in resistance to DPP-4 cleavage which is also observed in the GLP-1 like Exendin-4 expressed in Heloderma venom. Remarkably we discovered that monotremes evolved an alternative mechanism to degrade GLP-1. We also show that monotreme GLP-1 stimulates insulin release in cultured rodent islets, but surprisingly shows low receptor affinity and bias toward Erk signaling. We propose that these changes in monotreme GLP-1 are the result of conflicting function of this peptide in metabolic control and venom. This evolutionary path is fundamentally different from the generally accepted idea that conflicting functions in a single gene favour duplication and diversification, as is the case for Exendin-4 in gila monster. This provides novel insight into the remarkably different metabolic control mechanism and venom function in monotremes and an unique example of how different selective pressures act upon a single gene in the absence of gene duplication.

Published

2016

17. Life history and dynamics of a platypus (Ornithorhynchus anatinus) population: four decades of mark-recapture surveys

Author

Richard T. Kingsford, Gilad Bino, and T. R. Grant

Subjects

Range (biology), media_common.quotation_subject, Population, Longevity, Population Dynamics, Article, Mark and recapture, biology.animal, Surveys and Questionnaires, Juvenile, Population growth, Animals, education, Platypus, media_common, education.field_of_study, Life Cycle Stages, Multidisciplinary, biology, Ecology, Australia, Biological dispersal, Seasons, Demography

Abstract

Knowledge of the life-history and population dynamics of Australia’s iconic and evolutionarily distinct platypus (Ornithorhynchus anatinus) remains poor. We marked-recaptured 812 unique platypuses (total 1,622 captures), over four decades (1973–2014) in the Shoalhaven River, Australia. Strong sex-age differences were observed in life-history, including morphology and longevity. Apparent survival of adult females (Φ = 0.76) were higher than adult males (Φ = 0.57), as in juveniles: females Φ = 0.27, males Φ = 0.13. Females were highly likely to remain in the same pool (adult: P = 0.85, juvenile: P = 0.88), while residency rates were lower for males (adult: P = 0.74, juvenile: P = 0.46). We combined survival, movement and life-histories to develop population viability models and test the impact of a range of life-history parameters. While using estimated apparent survival produced unviable populations (mean population growth rate r = −0.23, extinction within 20 years), considering residency rates to adjust survival estimates, indicated more stable populations (r = 0.004, p = 0.04 of 100-year extinction). Further sensitivity analyses highlighted adult female survival and overall success of dispersal as most affecting viability. Findings provide robust life-history and viability estimates for a difficult study species. These could support developing large-scale population dynamics models required to underpin a much needed national risk assessment for the platypus, already declining in parts of its current distribution.

Published

2015

18. Life history and dynamics of a platypus (Ornithorhynchus anatinus) population: four decades of mark-recapture surveys.

Author

Bino, Gilad, Grant, Tom R., and Kingsford, Richard T.

Subjects

*PLATYPUS, *ORNITHORHYNCHUS, *ORNITHORHYNCHIDAE, *ANIMAL population density, *POPULATION biology, *PHYSIOLOGY

Abstract

Knowledge of the life-history and population dynamics of Australia's iconic and evolutionarily distinct platypus (Ornithorhynchus anatinus) remains poor. We marked-recaptured 812 unique platypuses (total 1,622 captures), over four decades (1973-2014) in the Shoalhaven River, Australia. Strong sex-age differences were observed in life-history, including morphology and longevity. Apparent survival of adult females (Φ = 0.76) were higher than adult males (Φ = 0.57), as in juveniles: females Φ = 0.27, males Φ = 0.13. Females were highly likely to remain in the same pool (adult: P = 0.85, juvenile: P = 0.88), while residency rates were lower for males (adult: P = 0.74, juvenile: P = 0.46). We combined survival, movement and life-histories to develop population viability models and test the impact of a range of life-history parameters. While using estimated apparent survival produced unviable populations (mean population growth rate r = −0.23, extinction within 20 years), considering residency rates to adjust survival estimates, indicated more stable populations (r = 0.004, p = 0.04 of 100-year extinction). Further sensitivity analyses highlighted adult female survival and overall success of dispersal as most affecting viability. Findings provide robust life-history and viability estimates for a difficult study species. These could support developing large-scale population dynamics models required to underpin a much needed national risk assessment for the platypus, already declining in parts of its current distribution. [ABSTRACT FROM AUTHOR]

Published

2015

19. Monotreme glucagon-like peptide-1 in venom and gut: one gene - two very different functions.

Author

Tsend-Ayush E, He C, Myers MA, Andrikopoulos S, Wong N, Sexton PM, Wootten D, Forbes BE, and Grutzner F

Subjects

Animals, Biological Evolution, Cells, Cultured, Exenatide, Glucagon-Like Peptide 1 metabolism, Incretins metabolism, Insulin metabolism, Insulin Secretion, Peptides genetics, Phylogeny, Selection, Genetic, Glucagon-Like Peptide 1 genetics, Intestinal Mucosa metabolism, Monotremata, Platypus, Tachyglossidae, Venoms genetics, Venoms metabolism

Abstract

The importance of Glucagon like peptide 1 (GLP-1) for metabolic control and insulin release sparked the evolution of genes mimicking GLP-1 action in venomous species (e.g. Exendin-4 in Heloderma suspectum (gila monster)). We discovered that platypus and echidna express a single GLP-1 peptide in both intestine and venom. Specific changes in GLP-1 of monotreme mammals result in resistance to DPP-4 cleavage which is also observed in the GLP-1 like Exendin-4 expressed in Heloderma venom. Remarkably we discovered that monotremes evolved an alternative mechanism to degrade GLP-1. We also show that monotreme GLP-1 stimulates insulin release in cultured rodent islets, but surprisingly shows low receptor affinity and bias toward Erk signaling. We propose that these changes in monotreme GLP-1 are the result of conflicting function of this peptide in metabolic control and venom. This evolutionary path is fundamentally different from the generally accepted idea that conflicting functions in a single gene favour duplication and diversification, as is the case for Exendin-4 in gila monster. This provides novel insight into the remarkably different metabolic control mechanism and venom function in monotremes and an unique example of how different selective pressures act upon a single gene in the absence of gene duplication.

Published

2016