Ecological Civilisation and Amphibian Sustainability through Reproduction Biotechnologies, Biobanking, and Conservation Breeding Programs (RBCs).

Intergenerational justice entitles the maximum retention of Earth's biodiversity. The 2022 United Nations COP 15, "Ecological Civilisation: Building a Shared Future for All Life on Earth", is committed to protecting 30% of Earth's terrestrial environments and, through COP 28, to mitigate the effects of the climate catastrophe on the biosphere. We focused this review on three core themes: the need and potential of reproduction biotechnologies, biobanks, and conservation breeding programs (RBCs) to satisfy sustainability goals; the technical state and current application of RBCs; and how to achieve the future potentials of RBCs in a rapidly evolving environmental and cultural landscape. RBCs include the hormonal stimulation of reproduction, the collection and storage of sperm and oocytes, and artificial fertilisation. Emerging technologies promise the perpetuation of species solely from biobanked biomaterials stored for perpetuity. Despite significant global declines and extinctions of amphibians, and predictions of a disastrous future for most biodiversity, practical support for amphibian RBCs remains limited mainly to a few limited projects in wealthy Western countries. We discuss the potential of amphibian RBCs to perpetuate amphibian diversity and prevent extinctions within multipolar geopolitical, cultural, and economic frameworks. We argue that a democratic, globally inclusive organisation is needed to focus RBCs on regions with the highest amphibian diversity. Prioritisation should include regional and international collaborations, community engagement, and support for RBC facilities ranging from zoos and other institutions to those of private carers. We tabulate a standard terminology for field programs associated with RBCs for publication and media consistency.

Effect of Diluents and Storage Time on the Cryopreservation of Collared Peccary (Pecari tajacu) Semen after Cooling Storage in a Transport Container at 5 °C.

We verified the possibility of cooling peccary semen for 4, 24, and 48 h before cryopreservation, using different dilution media (TRIS + egg yolk (20%) and PRIMXcell Ultra). Ten ejaculates were divided equally into six aliquots and then diluted. Two aliquots were stored in a biological incubator (4 h), and the remaining aliquots were stored in a commercial container, the Botutainer® (24 and 48 h), both at 5 °C. The samples were cryopreserved and then evaluated for kinetic parameters, functionality, integrity, mitochondrial activity, morphology, and sperm binding capacity. After thawing, samples diluted in TRIS showed total motility of 43.4 ± 6.8%, 48.4 ± 6.2%, and 38.6 ± 5.0% after cooling for 4, 24, and 48 h before cryopreservation, respectively. Such results are significantly greater than those achieved with the use of PRIMXcell diluent for 4 (8.3 ± 2.8%), 24 (4.7 ± 1.4%), and 48 h (4.8 ± 2.9%) storage (p < 0.05). Furthermore, TRIS provided better preservation of sperm membrane integrity when samples were cooled for 24 h (44.5 ± 4.7%) before cryopreservation compared to those samples diluted in PRIMXcell Ultra stored for 24 (25.7 ± 4.0%) and 48 h (25.2 ± 4.0%) before freezing (p < 0.05). In summary, we suggest TRIS diluent + egg yolk (20%) as an effective option to allow semen to cool for 24 or 48 h in a transport container before cryopreservation.

An Efficient Extraction Method Allowing the Genetic Evaluation of Host DNA from Samples Collected for Virus Infection Diagnosis in Viral Transport Medium.

Introduction: During the COVID-19 pandemic, an extraordinary number of nasopharyngeal secretion samples inoculated in viral transport medium (VTM) were collected and analyzed to detect SARS-CoV-2 infection. In addition to viral detection, those samples can also be a source of host genomic material, providing excellent opportunities for biobanking and research. Objective: To describe a simple, in-house-developed DNA extraction method to obtain high yield and quality genomic DNA from VTM samples for host genetic analysis and assess its relative efficiency by comparing its yield and suitability to downstream applications to two different commercial DNA extraction kits. Methods: In this study, 13 VTM samples were processed by two commercial silica-based kits and compared with an in-House-developed protocol for host DNA extraction. An additional 452 samples were processed by the in-House method. The quantity and quality of the differentially extracted DNA samples were assessed by Qubit and spectrophotometric measurements. The suitability of extracted samples for downstream applications was tested by polymerase chain reaction (PCR) amplification followed by amplicon sequencing and allelic discrimination in real-time PCR. Results: The in-House method provided greater median DNA yield (0.81 µg), being significantly different from the PureLink® method (0.14 µg, p < 0.001), but not from the QIAamp® method (0.47 µg, p = 0.980). Overall satisfactory results in DNA concentrations and purity, in addition to cost, were observed using the in-House method, whose samples were able to produce clear amplification in PCR and sequencing reads, as well as effective allelic discrimination in real-time PCR TaqMan® assay. Conclusion: The described in-House method proved to be suitable and economically viable for genomic DNA extraction from VTM samples for biobanking purposes. These results are extremely valuable for the study of the COVID-19 pandemic and other emergent infectious diseases, allowing host genetic studies to be performed in samples initially collected for diagnosis.

Reproductive evaluation of Luisa, the last jaguar of the Caatinga.

The in situ population of jaguars in the Caatinga is less than 250 individuals, subdivided into five subpopulations, and is classified as endangered regarding its risk of extinction. Luisa, a 15-year-old female weighing 36 kg, was the last known ex situ jaguar from this biome. Her reproductive evaluation is detailed in this manuscript. Luisa was subjected to both a clinical and laparoscopic evaluation of her reproductive system. After 45 days of reproductive investigation, she died unexpectedly, and skin fragments were taken to establish the postmortem fibroblast lineage. At the clinical evaluation, Luisa had small, undeveloped mammary gland and a small vulva, characteristic of a nulliparous female, with no mammary gland nodules, edema, or abnormal masses. By laparoscopy, normal-appearing bladder and bowel loops were observed, as were uterine horns with standard color, shape, and length with no striae. Ovaries and uterine horns seem free of fibrinous adhesions. Both ovaries showed a yellowish color, a fibrous consistency, a decreased size (atrophied), and no follicles, hemorrhagic corpus, corpus luteum, luteal scars, or other abnormal structures. We may assume that this jaguar female was infertile based on Luisa's mature age and the absence of birthing or ovarian activity signs. The harsh conditions of the Caatinga biome, which included low food availability and frequent conflicts with humans, may have impacted both the pregnancy and lactation of Luisa's mother and her development after birth.

Effect of Detergents Based on Sodium Dodecyl Sulfate on Functional Metrics of Frozen-Thawed Collared Peccary (Pecari tajacu) Semen.

We evaluated the effects of detergents based on sodium dodecyl sulfoxide (SDS) on the functional parameters of collared peccary frozen-thawed sperm. Semen aliquots from ten individuals were diluted in a Tris-egg yolk-glycerol extender alone or with 0.5% Equex STM® paste or SDS (at 0.1%, 0.3% or 0.5% (v/v) concentration). Samples were fast frozen in liquid nitrogen with a post-thaw evaluation of motility, membrane functionality and integrity, mitochondrial activity, sperm binding ability and thermal resistance. The treatments without SDS (41.8 ± 3.5%) and those containing Equex (41.8 ± 4.4%) or 0.1% SDS (41.2 ± 5.5%) provided greater sperm motility (p < 0.05) than those containing SDS 0.3% (30.5 ± 4.7%) and 0.5% (31.2 ± 6.3%). Immediately after thawing, only treatments containing 0.1% SDS effectively preserved sperm straightness (STR) when compared to the negative control. All treatments preserved the amplitude of lateral head (ALH) and straightness (STR) during a thermal resistance test (p > 0.05), but SDS 0.5% impaired the membrane functionality and mitochondrial activity after thawing (p < 0.05). All treatments provided a similar recovery of sperm binding ability after thawing (p < 0.05). Our results showed that the addition of 0.1% SDS to the Tris-yolk-glycerol extender optimized the freeze-thaw recovery of peccary semen.

Sperm Cooling as an Assisted Reproduction Tool for Wildlife: An Underrated Technology.

The search for assisted reproduction techniques applied to the conservation and even the genetic improvement of wild species is becoming increasingly common. Regarding conservation of male gametes from wild animals, although current advances are focused on cryopreservation, the development of protocols for sperm refrigeration seems to be underrated, despite its various advantages and applications. Therefore, this review aims to highlight the importance of short-term conservation of sperm from wild mammals, report the development of state-of-the-art refrigeration protocols for both ejaculated and epididymal sperm, and evaluate the challenges and prospects of their application.

Contribution of Mendelian Disorders in a Population-Based Pediatric Neurodegeneration Cohort.

OBJECTIVE: To evaluate Mendelian causes of neurodegenerative disorders in a cohort of pediatric patients. STUDY DESIGN: Patients enrolled in the Center for Applied Genomics Biobank at the Children's Hospital of Philadelphia with neurodegenerative symptoms were identified using an algorithm that consisted of including and excluding selected International Classification of Diseases, 9th and 10th edition codes. A manual chart review was then performed to abstract detailed clinical information. RESULTS: Of approximately 100 000 patients enrolled in the Center for Applied Genomics Biobank, 76 had a neurodegenerative phenotype. After chart review, 7 patients were excluded. Of the remaining 69 patients, 42 had a genetic diagnosis (60.9%) and 27 were undiagnosed (39.1%). There were 32 unique disorders. Common diagnoses included Rett syndrome, mitochondrial disorders, and neuronal ceroid lipofuscinoses. CONCLUSIONS: The disorders encountered in our cohort demonstrate the diverse diseases and pathophysiology that contribute to pediatric neurodegeneration. Establishing a diagnosis often informed clinical management, although curative treatment options are lacking. Many patients who underwent genetic evaluation remained undiagnosed, highlighting the importance of continued research efforts in this field.

Cryopreservation of Testicular Tissue from Adult Red-Rumped Agoutis (Dasyprocta leporina Linnaeus, 1758).

This study measured the effects of different freezing techniques and permeating cryoprotectants on the preservation of testicular tissues from adult red-rumped agoutis. Tissue biopsies (3.0 mm3) from five individuals were allocated to different experimental groups: control (non-cryopreserved); slow freezing (SF), solid-surface vitrification (SSV), and conventional vitrification (CV). Each method used dimethyl sulfoxide (DMSO), ethylene glycol (EG), or a DMSO + EG combination. Morphology, viability, mitochondrial activity, and proliferative potential were assessed in fresh and frozen tissue samples. Testicular morphology was better using SSV with a combination of DMSO and EG. Across the different cryopreservation approaches, as well as cryoprotectant combinations, cell viability was comparable. Regarding mitochondrial activity, DMSO + EG/SSV or CV, and DMSO + EG/CV were similar to the EG/SF group, which was the best group that provided values similar to fresh control groups. Adequate preservation of the proliferative potential of spermatogonia, Leydig cells, and Sertoli cells was obtained using SSV with DMSO + EG. Overall, the use of SSV with DMSO + EG was the best protocol for the preservation of testicular tissues from adult red-rumped agoutis.

Effects of Refrigeration at 5°C for Long Periods of Time on Bovine Ear Skin as a Strategy to Transport Biological Material and Isolate Fibroblasts to Use in the Nuclear Transfer.

Animal cloning is an important technique used to produce clones from valuable farm animals, to rescue animals in risk of extinction, and for producing transgenic animals. The objective of this work was to evaluate the effects of refrigeration on bovine ear skin as a strategy to transport biological material for long periods of time to isolate viable fibroblasts. Ears from eight cows were collected after death and stored for 30 days at 5°C. On days 0, 2, 4, 7, 14, 21, and 30, skin biopsies were cultured in vitro for fibroblast isolation. The time for first fibroblast outgrowth, time to reach 100% confluence. and cell concentration before freezing were observed for each period. In addition, plasma membrane integrity, cell apoptosis, and necrosis in cells were evaluated through fluorescent colorant combination in a flow cytometer from all periods after thawing. Fibroblasts obtained after 30 days of storage, considered a critical period, were tested for embryo production using nuclear transfer (NT) with micromanipulators. All time points allowed for cell culture. The time of cell growth onset was longer in samples refrigerated for 14, 21, and 30 days. The time to reach confluence also increased with longer refrigeration periods. Cells from day 0 reached confluence in 24 ± 2 days, while day 30 cells took 31 ± 0 days. Cell concentration and viability dropped with increased storage time and freezing/thawing, respectively. It was found that a long period of sample storage results in cell damage, making cultivation more difficult and decreasing cell viability post-thawing and cell concentration. However, when cells from day 30 were used as nuclei donors in NT, a 26.05% blastocyst rate after 7 days in culture was obtained. In conclusion, refrigeration at 5°C was shown to be efficient in maintaining viable tissue for up to 30 days, and fibroblasts isolated can be used for cloned embryo production.

The biobank of barretos cancer hospital: 14 years of experience in cancer research.

Despite the developments in cancer research over years, cancer is still one of the leading causes of death worldwide. In Brazil, the number of cancer cases for the several next years (2020-2022) is expected to increase up to 625,000. Thus, translational research has been vital to determine the potential risk, prognostic, and predictive biomarkers in cancer. Therefore, Barretos Cancer Hospital implemented a biobank (BB-BCH) in 2006, which is responsible for processing, storage, and provision of biological materials from cancer and non-cancer participants. Hence, this article aimed to describe BB-BCH's history, experiences, and outcomes and explore its impact on Brazilian translational oncology research scenario. BB-BCH has a multidisciplinary team who are responsible for guaranteeing the quality of all processes as recommended by international guidelines for biobanks. Furthermore, BB-BCH has ample equipment to ensure the quality of all material requested by researchers as genetic material (DNA and RNA) and/or entire biospecimens. From 2006 to 2019, BB-BCH contained 252,069 samples from 44,933 participants, the whole collection is represented by 15 different types of biospecimens collected from them. According to our data, the most collected and stored topography in men is head and neck (29%); in women is breast (28%); and in children is torso and limb (27%) samples. Finally, we supported national and international consortia and projects such as The Cancer Genome Atlas. BB-BCH is a vital knowledge source for scientific community, enabling the development of high-quality studies, with a wide variety of tumor categories and high national representativeness of Brazilian population.

Effect of growth differentiation factor 9 (GDF-9) on in vitro development of collared peccary preantral follicles in ovarian tissues.

The aims were to identify the effects of growth differentiation factor 9 (GDF-9) on the in vitro development of ovarian preantral follicles (PAFs) of collared peccaries. Ovarian fragments were in vitro cultured for 1 or 7 days without or with inclusion of GDF-9 in the medium (0, 50, 100, or 200 ng/mL). The non-cultured (control) and cultured fragments were evaluated for PAF viability, activation, and cell proliferation. Although there were no differences in the percentage of morphologically normal follicles, the percentage of growing follicles was greater compared to the control in all treatment groups, especially those cultured with 200 ng/mL GDF-9 for 7 days (P < 0.05). The inclusion of GDF-9 in the medium did not interfere with PAF viability (P> 0.05); however, treatment with 200 ng/mL GDF-9 resulted in greater (P < 0.05) cell proliferation in PAFs cultured for 1 or 7 days (∼2.5 nucleolar organizing regions - NORs) compared to the follicles of the control group (2.0 NORs). In addition, peccary ovarian cortexes were subjected to PCR analysis and there was detection of the mRNA GDF-9 receptor transcripts of the BMPR2 (type I receptor) and ALK-5 (type II receptor) types. In conclusion, GDF-9, especially at a 200 ng/mL inclusion in the culture medium, was actively involved in the in vitro development of collared peccary PAFs.

Advances and Challenges in Understanding and Assisting Reproduction of Wild Animal Species / Avanços e desafíos na compreensão e reprodução assistida de espécies selvagens

Studying reproduction in wild animals is complex as there are as many biological traits as there are species. What we currently know is minimal compared to the large number of species that remain unstudied. In addition to the impressive diversity of natural mechanisms, other complexities limit the progress of wildlife reproductive science - little interest in animal reproduction, difficult access to animals, lack of expertise, hard working conditions, and insufficient funding. Despite those challenges, some species are being saved from extinction with the help of a precise understanding of reproduction, development of assisted reproductive technologies, and creations of cryo-banks. Those advances originate from huge progresses in non-invasive measurements of steroid metabolites in urine or fecal samples to study and monitor reproductive functions and pregnancies. Progresses in cryobiology also have been impactful in animal conservation. Importantly, emerging technologies (transcriptomics, microfluidics) and additional research areas (reproductive aging, microbiomes) could lead to more successes and address current challenges in the reproduction of rare and endangered species. However, while some emerging approaches like stem cell technologies may sound promising, it is necessary to design holistic strategies considering all available tools to optimize investments, time, and efforts in conservation.

Rederivation by Cryopreservation of a Paternal Line of Rabbits Suggests Exhaustion of Selection for Post-Weaning Daily Weight Gain after 37 Generations.

Rabbit selection programmes have mainly been evaluated using unselected or divergently selected populations, or populations rederived from cryopreserved embryos after a reduced number of generations. Nevertheless, unselected and divergent populations do not avoid genetic drift, while rederived animals seem to influence phenotypic traits such as birth and adult weights or prolificacy. The study aimed to evaluate the effect of a long-term selection for post-weaning average daily weight gain (ADG) over 37 generations with two rederived populations. Specifically, two coetaneous populations were derived from vitrified embryos with 18 generational intervals (R19 and R37), reducing or avoiding genetic drift and environmental and cryopreservation effects. After two generations of both rederived populations (R21 vs. R39 generations), all evaluated traits showed some progress as a result of the selection, the response being 0.113 g/day by generation. This response does not seem to affect the estimated Gompertz growth curve parameters in terms of the day, the weight at the inflexion point or the adult weight. Moreover, a sexual dimorphism favouring females was observed in this paternal line. Results demonstrated that the selection programme had improved ADG without variations in adult body weight but, after 37 generations of selection, this trait seems exhausted. Given the reduction in the cumulative reproductive performance and as a consequence in the selection pressure, or possibly/perhaps due to an unexpected effect, rederivation could be the cause of this weak selection response observed from generation 18 onwards.

Establishment of a protocol for the isolation of ovarian preantral follicles derived from collared peccaries (Pecari tajacu).

We compare the efficiency of mechanical or enzymatic methods, and their combination, for the isolation of ovarian preantral follicles (PFs) from collared peccaries. The ovaries from six females were subjected to the different methods investigated here. For the enzymatic method, ovary fragments were exposed to collagenase type IV in TCM-HEPES medium; the mechanical procedure was based on ovarian cortex dissociation by using a scalpel blade. The residual solution obtained after the mechanical isolation was subjected to the enzymatic procedure. The number of isolated PFs was quantified and classified as primordial, primary, or secondary; their viability was assessed using trypan blue dye assay. To confirm the results, PFs derived from the most efficient method were evaluated for integrity using scanning electron microscopy (SEM) and subjected to a 24 h in vitro culture for subsequent evaluation of viability by using fluorescent probes. A higher number of PFs (P < 0.05) was obtained from the enzymatic method (961.7 ± 132.9) in comparison with the mechanical method (434.3 ± 88.9), but no difference was observed between the two methods and their combination (743.2 ± 92.8). The trypan blue assay showed that the enzymatic method (98.7 ± 0.6%) provided the highest percentage of viable follicles (P < 0.05). Furthermore, SEM confirmed the ultrastructural integrity of the surface architecture of peccary PFs isolated by the enzymatic procedure; epifluorescence microscopy was used to confirm their viability (86.0%). In conclusion, we suggest that the enzymatic method investigated here is useful for the isolation of viable ovarian PFs from collared peccaries.

Epididymal sperm from Spix's yellow-toothed cavies sperm successfully cryopreserved in Tris extender with 6% glycerol and 20% egg yolk.

As a non-threatened hystricognath rodent species, Spix's yellow-toothed cavies can be used as a model for the development of assisted reproductive techniques for the conservation of closely related species. The objective was to establish a functional protocol for cryopreservation of epididymal sperm from these cavies. Twelve sexually mature males, ∼2 y old and weighing ∼300 g, were euthanized. Sperm were recovered by retrograde flushing of the vas deferens and cauda epididymis with Tris extender. Thereafter, sperm were extended in Tris plus 20% egg yolk, with 3%, 6% or 9% glycerol or dimethyl sulfoxide (DMSO), placed in 0.25 mL straws and cryopreserved in liquid nitrogen. Sperm concentration, motility (using computer-assisted sperm analysis; CASA), plasma membrane integrity, osmotic response, morphology and sperm binding-ability were determined in fresh and frozen-thawed sperm. For most sperm endpoints, glycerol was a more desirable cryoprotectant than DMSO. Data (mean ±â€¯SEM) were similar with use of 3%, 6%, and 9% glycerol (P > 0.05) in osmotic response (40.66 ±â€¯6.3%, 42.5 ±â€¯7.1%, and 39.5 ±â€¯5.0% respectably), and membrane integrity (55.17 ±â€¯5.5%, 68.4 ±â€¯4.1%, and 59.1 ±â€¯4.9% respectably). Among concentrations assessed, the use of 6% glycerol resulted in the greatest (P < 0.05) post-thaw values for total motility (60.9 ±â€¯4.4%), rapid subpopulation motility (27.7 ±â€¯3.1%) and sperm-binding capability (227.0 ±â€¯20.2). In conclusion, epididymal sperm from the Spix's yellow-toothed cavies (G. spixii) are optimally cryopreserved in Tris extender with 6% glycerol and 20% egg yolk.

Community Perceptions of Biobanking Participation: A Qualitative Study among Mexican-Americans in Three Texas Cities.

BACKGROUND: Most biospecimens in the US are collected from non-Hispanic Whites, limiting the generalizability of findings. There is a need to increase participation in biobanking among ethnic and racial minorities. The purpose of this study was to use qualitative methods to identify factors that may influence Mexican-American individuals' willingness to participate in biobanking. METHODS: We conducted 15 focus groups in three Texas cities with Mexican-American individuals, in both Spanish and English. RESULTS: Lack of knowledge about medical research and biobanks, lack of information about the specifics of biobanking participation, lack of communication of the results, fear of pain or harm, and distrust of the healthcare system or health research were identified as barriers to biobanking participation. Facilitators to participation were altruism, safety, understanding biobanking procedures and purposes, perceived benefits to participation, and culturally appropriate recruitment strategies. Although Mexican-Americans living in Texas are willing to donate biospecimens for altruistic reasons, such as helping society or advancing science, they want more information about what biobanking entails. They want to be assured that participation will not cause them harm and that the research is conducted with good intentions. CONCLUSION: Results from this study can inform educational materials or interventions to increase Hispanic participation in biobanking.

Biobanking and fertility preservation for rare and endangered species

For more than 25 years, systematic gatheringand cryo-storage of biomaterials from diverse wildspecies have been ongoing to save gene diversity andimprove captive (ex situ) and wild (in situ) animalmanagement. Cryo-storage of biomaterials offers broadopportunities - from helping understand the fundamentalbiology of unstudied species to enhanced conservationbreeding, genomics and veterinary medicine. Whilepromoted for decades, the banking of germplasm, tissue,blood and DNA from wildlife species only recently hasbeen considered by some to be a core function of animalconservation programs. Importantly, reproductivebiotechnologies and fertility preservation are criticaltools for saving and maintaining endangered species andare tightly related to biobanking. Some successes havebeen reported with the use and integration of artificialinsemination (with fresh or frozen-thawed semen) inconservation programs. However, not a single wildspecies is currently managed through oocyte freezing orembryo-based technologies. This is primarily due to thelack of knowledge of species biology, as well asinadequate facilities, space, expertise, and fundingneeded for their successful application. Morefundamental studies on animal reproductive biology aswell as more fertility preservation options are neededwith all parties involved (reproductive technologists,zoo biologists and conservationists) adopting parallelefforts to sustain wild populations and habitats.

Biobanking and fertility preservation for rare and endangered species

For more than 25 years, systematic gatheringand cryo-storage of biomaterials from diverse wildspecies have been ongoing to save gene diversity andimprove captive (ex situ) and wild (in situ) animalmanagement. Cryo-storage of biomaterials offers broadopportunities - from helping understand the fundamentalbiology of unstudied species to enhanced conservationbreeding, genomics and veterinary medicine. Whilepromoted for decades, the banking of germplasm, tissue,blood and DNA from wildlife species only recently hasbeen considered by some to be a core function of animalconservation programs. Importantly, reproductivebiotechnologies and fertility preservation are criticaltools for saving and maintaining endangered species andare tightly related to biobanking. Some successes havebeen reported with the use and integration of artificialinsemination (with fresh or frozen-thawed semen) inconservation programs. However, not a single wildspecies is currently managed through oocyte freezing orembryo-based technologies. This is primarily due to thelack of knowledge of species biology, as well asinadequate facilities, space, expertise, and fundingneeded for their successful application. Morefundamental studies on animal reproductive biology aswell as more fertility preservation options are neededwith all parties involved (reproductive technologists,zoo biologists and conservationists) adopting parallelefforts to sustain wild populations and habitats.(AU)