[HTML][HTML] Enabling clonal analyses of yeast in outer space by encapsulation and desiccation in hollow microparticles
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
[HTML][HTML] Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles
S Ng, C Williamson, M van Zee, D Di Carlo… - Life, 2022 - ncbi.nlm.nih.gov
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles
S Ng, C Williamson, M van Zee, D Di Carlo… - Life, 2022 - ui.adsabs.harvard.edu
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
[PDF][PDF] Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles
S Ng, C Williamson, M van Zee, D Di Carlo… - Life, 2022 - pdfs.semanticscholar.org
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles.
S Ng, C Williamson, M van Zee, D Di Carlo… - Life (2075 …, 2022 - search.ebscohost.com
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles
S Ng, C Williamson, M van Zee… - Life (Basel …, 2022 - pubmed.ncbi.nlm.nih.gov
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles.
S Ng, C Williamson, M van Zee, D Di Carlo… - Life (Basel …, 2022 - europepmc.org
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles
S Ng, C Williamson, M van Zee, D Di Carlo… - agris.fao.org
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles.
S Ng, C Williamson, M van Zee, D Di Carlo… - Life (Basel …, 2022 - escholarship.org
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …
[PDF][PDF] Enabling Clonal Analyses of Yeast in Outer Space by Encapsulation and Desiccation in Hollow Microparticles
S Ng, C Williamson, M van Zee, D Di Carlo… - Life, 2022 - researchgate.net
Studying microbes at the single-cell level in space can accelerate human space exploration
both via the development of novel biotechnologies and via the understanding of cellular …
both via the development of novel biotechnologies and via the understanding of cellular …