MA YUANQING Lab

第一作者 (含共同一作):

1.           Yang, Y., Y. Ma, J.F. Berengut, L.K. Lee, R.D. Tilley, K. Gaus, and J.J. Gooding, Electrochemically controlled blinking of fluorophores for quantitative STORM imaging. Nature Photonics, 2024. 18(7): p. 713-720. Link

2.           Ma, Y., A. Macmillan, Y. Yang, and K. Gaus, Lifetime based axial contrast enable simple 3D-STED imaging. Methods and Applications in Fluorescence, 2022. 10. Link

3.           Ma, Y., Y.J. Lim, A. Benda, J. Lou, J. Goyette, and K. Gaus, Clustering of the ζ-chain can initiate T cell receptor signaling. International Journal of Molecular Sciences, 2020. 21(10): p. 3498. Link

4.           Ma, Y., A. Benda, J. Kwiatek, D.M. Owen, and K. Gaus, Time-resolved laurdan fluorescence reveals insights into membrane viscosity and hydration levels. Biophysical journal, 2018. 115(8): p. 1498-1508. Link

5.           Ma, Y., et al., A FRET sensor enables quantitative measurements of membrane charges in live cells. Nature biotechnology, 2017. 35(4): p. 363-370. Link

6.           Ma, Y., et al., An intermolecular FRET sensor detects the dynamics of T cell receptor clustering. Nature communications, 2017. 8(1): p. 15100. Link

7.           Ma, Y., K. Poole, J. Goyette, and K. Gaus, Introducing membrane charge and membrane potential to T cell signaling. Frontiers in immunology, 2017. 8: p. 1513. Link

8.           Ma, Y., A. Benda, P.R. Nicovich, and K. Gaus, Measuring membrane association and protein diffusion within membranes with supercritical angle fluorescence microscopy. Biomedical optics express, 2016. 7(4): p. 1561-1576. Link

9.           Ma, Y., E. Hinde, and K. Gaus, Nanodomains in biological membranes. Essays in biochemistry, 2015. 57: p. 93-107. Link

通讯作者 (含共同通讯):

1.           Yang, Y., Y. Ma, R.D. Tilley, and J.J. Gooding, Electrochemical Control of Fluorescence Emission: From Intensity Modulation to Single Molecule Switching for Applications in Light Microscopy. Accounts of Chemical Research, 2026. 59(5): p. 751-761. Link

2.           Yang, Y., Y. Ma, and J. Gooding, Electrochemical Dye Switching Assisted Spectral Demixing and 3D STORM Imaging. Angewandte Chemie International Edition, 2026. 65(18): p. e17001. Link

3.           Yang, Y., Y. Ma, R.D. Tilley, and J.J. Gooding, Electrochemically controlled switching of dyes for enhanced superresolution optical fluctuation imaging (EC-SOFI). Proceedings of the National Academy of Sciences, 2025. 122(28): p. e2425390122. Link

4.           Yang, Y., Y. Ma, A. Macmillan, R. Tilley, and J.J. Gooding, Electrochemical fluorescence modulation enables simultaneous multicolour imaging. Nature Photonics, 2025. 19(7): p. 718-724. Link

其他:

1.           Yang, Y., Y. Ma, and J.J. Gooding, The electrochemical modulation of single molecule fluorescence. Faraday Discussions, 2025. 257: p. 333-343. Link

2.           Hagness, D.E., et al., An investigative study of electrochemical induced fluorescence for fluorophores. Chemical Science, 2025. 16(20): p. 8959-8969.

3.           Hagness, D.E., et al., Electrochemically Stimulated Autofluorescence of Indium Tin Oxide Surface: The Implications for Fluorescence Microscopy. ACS Electrochemistry, 2025. 1(12): p. 2690-2699.

4.           Yang, Y., et al., Electrochemical fluorescence switching of enhanced green fluorescent protein. Biosensors and Bioelectronics, 2023. 237: p. 115467. LInk

5.           Conway, J.R., et al., Monitoring AKT activity and targeting in live tissue and disease contexts using a real-time Akt-FRET biosensor mouse. Science Advances, 2023. 9(17): p. eadf9063.

6.           Wang, W., et al., Investigating spatial heterogeneity of nanoparticles movement in live cells with pair-correlation microscopy and phasor analysis. Analytical chemistry, 2021. 93(8): p. 3803-3812.

7.           Hilzenrat, G., et al., Conformational states control Lck switching between free and confined diffusion modes in T cells. Biophysical journal, 2020. 118(6): p. 1489-1501.

8.           Goyette, J., D.J. Nieves, Y. Ma, and K. Gaus, How does T cell receptor clustering impact on signal transduction? Journal of cell science, 2019. 132(4): p. jcs226423.

9.           Zhao, M., et al., Ultralow-and low-background surfaces for single-molecule localization microscopy of multistep biointerfaces for single-molecule sensing. Langmuir, 2018. 34(34): p. 10012-10018.

10.        Shinoda, H., Y. Ma, R. Nakashima, K. Sakurai, T. Matsuda, and T. Nagai, Acid-tolerant monomeric GFP from Olindias formosa. Cell Chemical Biology, 2018. 25(3): p. 330-338. e7. Link

11.        Nicovich, P.R., J.M. Kwiatek, Y. Ma, A. Benda, and K. Gaus, FSCS reveals the complexity of lipid domain dynamics in the plasma membrane of live cells. Biophysical journal, 2018. 114(12): p. 2855-2864.

12.        Lim, Y.J., et al., Human indoleamine 2, 3-dioxygenase 1 is an efficient mammalian nitrite reductase. Biochemistry, 2018. 58(7): p. 974-986.

13.        Pageon, S.V., et al., Functional role of T-cell receptor nanoclusters in signal initiation and antigen discrimination. Proceedings of the National Academy of Sciences, 2016. 113(37): p. E5454-E5463.

14.        Benda, A., Y. Ma, and K. Gaus, Self-calibrated line-scan STED-FCS to quantify lipid dynamics in model and cell membranes. Biophysical journal, 2015. 108(3): p. 596-609. Link

15.        Rossy, J., Y. Ma, and K. Gaus, The organisation of the cell membrane: do proteins rule lipids? Current opinion in chemical biology, 2014. 20: p. 54-59.

专利:

1.           Gooding, J., Y. Yang,  Y. Ma, and K. Gaus, Method and apparatus for electrochemical fluorescence microscopy. Patent Number: WO2024250070A1.

2.           Nagai, T., H. Shinoda, T. Matsuda, and Y. Ma, Fluorescent protein. 2021, Patent Number: US10899804B2.

3.           Anya Salih, Y. Ma., Fluorescent proteins and uses thereof. 2013, Patent Number: WO2013163681A1.