Automatic Multi-functional Integration Program (AMFIP) towards All-optical Mechanobiology Interrogation [article]

Qin Luo, Justin Zhang, Gaoming Lin, Miao Huang, Mai Tanaka, Sharon Lepler, Juan Guan, Dietmar Siemann, Xin Tang
2021 bioRxiv   pre-print
Automatic operations of multi-functional and time-lapse live-cell imaging are necessary for biomedical studies of active, multi-faceted, and long-term biological phenomena. To achieve automatic control, most existing solutions often require the purchase of extra software programs and hardware that rely on the manufacturers own specifications. However, these software programs are usually non-user-programmable and unaffordable for many laboratories. Micro-Manager is a widely used open-source
more » ... are platform for controlling many optoelectronic instruments. Due to limited development since its introduction, micro-Manager lacks compatibility with some of the latest microscopy equipment. To address this unmet need, we have developed a novel software-based automation program, titled Automatic Multi-functional Integration Program (AMFIP), as a new Java-based and hardware-independent plugin for micro-Manager. Without extra hardware, AMFIP enables the functional synchronization of micro-Manager, the Nikon NIS-Elements platform, and other 3rd party software to achieve automatic operations of most commercially available microscopy systems, including but not limited to Nikon. AMFIP provides a user-friendly and programmable graphical user interface (GUI), opening the door to expanding the customizability for many hardware and software. Users can customize AMFIP according to their own specific experimental requirements and hardware environments. To verify the performance of AMFIP, we applied it to elucidate the relationship between cell spreading and spatial-temporal cellular expression of Yes-associated protein (YAP), a mechanosensitive protein that shuttles between cytoplasm and nucleus upon mechanical stimulation, in an epithelial cell line. We found that the ratio of YAP expression in nucleus and cytoplasm decreases as the spreading area of cells increases, suggesting that the accumulation of YAP in the nucleus decreases throughout the cell spreading processes. In summary, AMFIP provides a new open-source and charge-free solution to integrate multiple hardware and software to satisfy the need of automatic imaging operations in the scientific community.
doi:10.1101/2021.03.31.437936 fatcat:e3bjbkj6cfgano7yhycd3xtane