Low cost programmable incubator for growing mycelium textile, controlling temperature and humidity to standardize growing recipes.
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First example of a low-cost dissolved oxygen sensor that will allow the implementation of fed-batch DIY bioreactors.
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Establishing the capacity to tackle some of East-Africa's most devastating crop pathogens through partnership and collaboration.
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Resources for genetically-engineering bacteria to construct microbial communities with defined ecological and structural relationships.
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Interdisciplinary team investigating biological structures and physical mechanisms of electron transfer between microorganisms.
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New stress priming treatment in green alga for hyperaccumulation of biodiesel precursors.
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Learn how to build an incubator, grow your own dinoflagellates and build a multi-computer 3D imaging system.
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We aim to develop and characterize low-cost DIY microscopes that brewers can use to count yeast and check its viability for production.
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We aim to establish a CRISPR/Cpf1-based technique to insert transgenes into specific genome sites that are predicted to promote high expression.
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We aim to develop a tool to monitor the progress of beer fermentation in real-time and non-invasively.
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Small home-grow chamber capable of sensing moisture, temperature, humidity and light. Optimised to automate water, humidity and CO2 levels.
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A fast, east and efficient way of modulating gene expression in yeast cultures.
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We are a small, merry band of newbie Biomakers and amateur homebrewers and have started a project to monitor the progression of our fine brews in real time.
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An open microbial bioreactor for growing cultures of about 1L.
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Our “LyseeFlask” is a one-pot solution for lysis of bacterial cells and immobilized metal ion chromatography.
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Our device, the Oscillostat, continuously evolves bacteria while oscillating between selective pressures to mimic fluctuating environments.
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