[1] Karl D. Optogenetics[J]. Nature Methods, 2011, 8(1): 26-29.

[2] Karl D. Optogenetics: 10 years of microbial opsins in neuroscience[J]. Nature Neuroscience, 2015, 18(9): 1213-1225.

[3] Toettcher J E, Weiner O D, Lim W A. Using optogenetics to interrogate the dynamic control of signal transmission by the Ras/Erk module[J]. Cell, 2013, 155(6): 1422-1434.

[4] Boyden E S, Zhang F, Bamberg E, et al. Millisecond-timescale, genetically targeted optical control of neural activity[J]. Nature Neuroscience, 2005, 8(9): 1263-1268.

[5] 孔令杰, 靳程, 金国藩. 基于光遗传学的在体高空间分辨率神经调控技术[J]. 中国激光, 2021, 48(15): 1507003.

    Kong L J, Jin C, Jin G F. Advances on in vivo high-spatial-resolution neural manipulation based on optogenetics[J]. Chinese Journal of Lasers, 2021, 48(15): 1507003.

[6] Toettcher J E, Voigt C A, Weiner O D, et al. The promise of optogenetics in cell biology: interrogating molecular circuits in space and time[J]. Nature Methods, 2011, 8(1): 35-38.

[7] Jia Z H, Valiunas V, Lu Z J, et al. Stimulating cardiac muscle by light: cardiac optogenetics by cell delivery[J]. Circulation. Arrhythmia and Electrophysiology, 2011, 4(5): 753-760.

[8] Gradinaru V, Zhang F, Ramakrishnan C, et al. Molecular and cellular approaches for diversifying and extending optogenetics[J]. Cell, 2010, 141(1): 154-165.

[9] 王一帆, 郑瑶, 朱玥, 等. 精准光遗传学的关键技术及进展[J]. 激光与光电子学进展, 2022, 59(8): 0800001.

    Wang Y F, Zheng Y, Zhu Y, et al. Key technologies and progress of precision optogenetics[J]. Laser＆Optoelectronics Progress, 2022, 59(8): 0800001.

[10] Adelsberger H, Garaschuk O, Konnerth A. Cortical calcium waves in resting newborn mice[J]. Nature Neuroscience, 2005, 8(8): 988-990.

[11] Lütcke H, Murayama M, Hahn T, et al. Optical recording of neuronal activity with a genetically-encoded calcium indicator in anesthetized and freely moving mice[J]. Frontiers in Neural Circuits, 2010, 4: 9.

[12] Schulz K, Sydekum E, Krueppel R, et al. Simultaneous BOLD fMRI and fiber-optic calcium recording in rat neocortex[J]. Nature Methods, 2012, 9(6): 597-602.

[13] Sych Y, Chernysheva M, Sumanovski L T, et al. High-density multi-fiber photometry for studying large-scale brain circuit dynamics[J]. Nature Methods, 2019, 16(6): 553-560.

[14] Liutkus A, Martina D, Popoff S, et al. Imaging with nature: compressive imaging using a multiply scattering medium[J]. Scientific Reports, 2014, 4: 5552.

[15] 苏良闯, 陈涛. 可独立调控的多通道体外无线光遗传刺激系统[J]. 激光与光电子学进展, 2021, 58(19): 1917001.

    Su L C, Chen T. Wireless stimulation system with multiple channels and independent regulation for optogenetics in vitro[J]. Laser＆Optoelectronics Progress, 2021, 58(19): 1917001.

[16] Roelfsema P R, Engel A K, König P, et al. Visuomotor integration is associated with zero time-lag synchronization among cortical areas[J]. Nature, 1997, 385(6612): 157-161.

[17] Lewis C M, Bosman C A, Fries P. Recording of brain activity across spatial scales[J]. Current Opinion in Neurobiology, 2015, 32: 68-77.

[18] Borton D A, Yin M, Aceros J, et al. An implantable wireless neural interface for recording cortical circuit dynamics in moving Primates[J]. Journal of Neural Engineering, 2013, 10(2): 026010.

[19] Guo Q C, Zhou J F, Feng Q R, et al. Multi-channel fiber photometry for population neuronal activity recording[J]. Biomedical Optics Express, 2015, 6(10): 3919-3931.

[20] Gu R Y, Mahalati R N, Kahn J M. Design of flexible multi-mode fiber endoscope[J]. Optics Express, 2015, 23(21): 26905-26918.

[21] Ohayon S, Caravaca-Aguirre A, Piestun R, et al. Minimally invasive multimode optical fiber microendoscope for deep brain fluorescence imaging[J]. Biomedical Optics Express, 2018, 9(4): 1492-1509.

[22] Adelsberger H, Zainos A, Alvarez M, et al. Local domains of motor cortical activity revealed by fiber-optic calcium recordings in behaving nonhuman Primates[J]. Proceedings of the National Academy of Sciences of the United States of America, 2014, 111(1): 463-468.

[23] Paukert M, Agarwal A, Cha J, et al. Norepinephrine controls astroglial responsiveness to local circuit activity[J]. Neuron, 2014, 82(6): 1263-1270.

[24] Kim C K, Yang S J, Pichamoorthy N, et al. Simultaneous fast measurement of circuit dynamics at multiple sites across the mammalian brain[J]. Nature Methods, 2016, 13(4): 325-328.

[25] Aravanis A M, Wang L P, Zhang F, et al. An optical neural interface: in vivo control of rodent motor cortex with integrated fiberoptic and optogenetic technology[J]. Journal of Neural Engineering, 2007, 4(3): S143-S156.