| Limitations of using cultured algae to study cnidarian‐algal symbioses and suggestions for future studies S Maruyama, VM Weis Journal of Phycology 57 (1), 30-38, 2021 | 32 | 2021 |
| Heat stress of algal partner hinders colonization success and alters the algal cell surface glycome in a cnidarian-algal symbiosis S Maruyama, PE Mandelare-Ruiz, M McCauley, W Peng, BG Cho, ... Microbiology Spectrum 10 (3), e01567-22, 2022 | 6 | 2022 |
| Algae from Aiptasia egesta are robust representations of Symbiodiniaceae in the free-living state S Maruyama, JR Unsworth, V Sawiccy, VM Weis PeerJ 10, e13796, 2022 | 2 | 2022 |
| The role of algal cellular physiology on the onset and maintenance of a model cnidarian-algal symbiosis S Maruyama | 2 | 2022 |
| Plug and Play: A Versatile CURE Curriculum for Scientific Process Skills in Upper Division Life Science Labs V Sawiccy, JB Cai, S Maruyama, NS de Leonardi, VM Weis, NL Kirk EdArXiv, 2023 | | 2023 |
| Symbiont density quantification in live Aiptasia S Maruyama, V Weis | | 2021 |
| Characterizing symbiosis-specific proteins in a cnidariandinoflagellate symbiosis using aptamer Cell-SELEX S Maruyama, VM Weis INTEGRATIVE AND COMPARATIVE BIOLOGY 61, E579-E580, 2021 | | 2021 |
| The role of symbiont glycans and host immunity in the recolonization of the model cnidarian Aiptasia with heat-stressed Symbiodinium S Maruyama, VM Weis INTEGRATIVE AND COMPARATIVE BIOLOGY 58, E146-E146, 2018 | | 2018 |
| Preparation of gene-specific templates for the use in single primer amplification T Maruyama, S Maruyama, SCJ Okumura US Patent 9,890,414, 2018 | | 2018 |
