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             <p>We obtained <em>B. bigelowii</em> as a gift from Dr. Kyoko Hagino (Kochi University, Japan) and cultured it according to the protocol. For the transplantation of the nitroplast into a different model organism, we were also required to isolate this organelle from its host. Our project also implemented the protocol for nitroplast isolation from its host, according to the protocol and suggestions provided by Dr. Tyler Coale (University of California, San Diego, USA). Isolated UCYN-A could potentially be used for PEG fusion with other eukaryotes.</p>
             <p>Finally, we have also wondered how our project would affect society. For this, our human practices team has actively worked to understand the possible consequences of our project. Also, wider acceptance of our idea goes hand in hand with educating the general population. Last but not least, we have also assessed the potential economic benefits of our idea and the omission of fertilizer use in agriculture. For this, we made an <strong>economic analysis</strong> and business plan.</p>
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             <p>Our project <strong>lays the foundation for the transplantation of nitroplast</strong> into eukaryotic hosts. The emergence of nitrogen-fixing plants could lead to a significant drop in the demand for fertilizers, and consequently in both carbon emissions and nitrogen pollution.</p>
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