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0 Q&A 223 Views Apr 5, 2025

Daphnia magna is a well-established model organism in ecotoxicology, environmental monitoring, and genetics due to its sensitivity to pollutants, its pivotal role in freshwater ecosystems, and its well-characterized genome. Despite its extensive use in these fields, there is a notable lack of established protocols for developing primary cell culture systems and conducting transgenic studies in Daphnia spp. This study addresses these gaps by optimizing a medium and standardizing protocols for primary cell culture and transgenic experiments in D. magna. Primary cell cultures were established from both D. magna embryos and whole organisms, with medium optimization verified using XTT assay. Cell viability was sustained for over two months using a modified Schneider’s insect medium enriched with FBS, glucose, MEM vitamin mix, and selenium. DNA replication and cell proliferation were confirmed through BrdU labeling. Both mechanical and enzymatic passaging methods were compared, resulting in 20% and 10% cell attachment, respectively. For transgenic applications, this study successfully standardized plasmid-mediated lipofection and baculovirus-mediated transduction, achieving success rates of 52% and 45%. These findings represent a pioneering effort in D. magna embryonic cell culture, offering a reliable in vitro platform for future biological research, including ecotoxicological and epigenetic investigations. The established protocols and optimized cell culture medium have significant implications for advancing crustacean cell line research and transgenic model development, enhancing our understanding of biological processes in controlled laboratory environments.

0 Q&A 306 Views Sep 5, 2024

Current ischemic models strive to replicate ischemia-mediated injury. However, they face challenges such as inadequate reproducibility, difficulties in translating rodent findings to humans, and ethical, financial, and practical constraints that limit the accuracy of extensive research. This study introduces a novel approach to inducing persistent ischemia in 3-day-old chicken embryos using endothelin-1. The protocol targets the right vitelline arteries, validated with Doppler blood flow imaging and molecular biology experiments. This innovative approach facilitates the exploration of oxidative stress, inflammatory responses, cellular death, and potential drug screening suitability utilizing a 3-day-old chicken embryo.

0 Q&A 3903 Views Jul 5, 2019
The early embryo of Drosophila melanogaster exists as a rapidly dividing syncytium of nuclei that are transcriptionally silent. Maternally deposited factors are required to awaken the genome and assist in the transition from maternal to zygotic control of development. Because many of these essential factors are maternally deposited and the early nuclear divisions are so rapid, it has been difficult to assess the functional role of transcription factors at discrete points in early embryonic development. To address this issue, we have developed an optogenetic system that can rapidly and reversibly inactivate transcription factors with nuclear-cycle resolution. The temporal precision enabled by this technique will allow a mechanistic understanding of how transcription factors function together to control genome activation and patterning in the early embryo and is likely broadly applicable to factors throughout embryogenesis.



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