International Journal of Bioprinting                             Bacteriorhodopsin-embedded hydrogel device




            5.   Kim D, Han SA, Kim JH, Lee JH, Kim SW, Lee SW.   NIR-triggered photoelectrical response.  Chem Commun
               Biomolecular piezoelectric materials: from amino acids to   (Camb). 2015;51(29):6373-6376.
               living tissues. Adv Mater. 2020;32(14):1906989.      doi: 10.1039/c5cc00457h
               doi: 10.1002/adma.201906989
                                                               18.  Choi HG, Min J, Choi JW, Lee WH. Molecular photoreceptor
            6.   Lanyi JK. Understanding structure and function in the   consisting of bacteriorhodopsin/flavin complex Langmuir–
               light-driven proton pump bacteriorhodopsin. J Struct Biol.   Blodgett films.  Biosensor Bioelectron. 1998;13(10):1069-
               1998;124(2):164-178.                               1075.
               doi: 10.1006/jsbi.1998.4044                        doi: 10.1016/S0956-5663(98)00073-6
            7.   Oesterhelt D, Stoeckenius W. Rhodopsin-like protein from   19.  Hasegawa H, Sakamoto K, Shomura K, et al. Biomaterial-
               the purple membrane of Halobacterium halobium. Nat New   based biomimetic visual sensors: inkjet patterning
               Biol. 1971;233(39):149-152.                        of  bacteriorhodopsin.  ACS Appl Mater Interfaces.
               doi: 10.1038/newbio233149a0                        2023;15(38):45137-45145.
            8.  Lozier  RH,  Bogomolni  RA,  Stoeckenius  W.      doi: 10.1021/acsami.3c07540
               Bacteriorhodopsin: a light-driven proton pump in   20.  Okada-Shudo Y, Tanabe T, Mukai T, Kasai K, Zhang Y,
               Halobacterium halobium. Biophys J. 1975;15(9):955-962.   Watanabe M. Directionally selective motion detection
               doi: 10.1016/S0006-3495(75)85875-9                 with bacteriorhodopsin patterned sensor.  Synth Met.
            9.   Oesterhelt D. The purple membrane of  Halobacterium   2016;222:249-254.
               halobium: a new system for light energy conversion. Ciba      doi: 10.1016/j.synthmet.2016.10.020
               Found Symp. 1975;(31):147-167.                  21.  Lv Y, Yang N, Li S, Lu S, Xiang Y. A novel light-driven
               doi: 10.1002/9780470720134.ch9                     pH-biosensor based on bacteriorhodopsin.  Nano Energy.
            10.  Oesterhelt D. Bacteriorhodopsin as an example of a   2019;66:104129.
               light‐driven proton pump.  Angew Chem Int Ed Engl.      doi: 10.1016/j.nanoen.2019.104129
               1976;15(1):17-24.                               22.  Walczak KA, Bergstrom PL, Friedrich CR. Light sensor
               doi: 10.1002/anie.197600171                        platform based on the integration of bacteriorhodopsin with
            11.  Stoeckenius W, Lozier RH, Bogomolni RA. Bacteriorhodopsin   a single  electron  transistor.  Act Passive Electron Compon.
               and the purple membrane of halobacteria. Biochim Biophys   2011;2011:1-7.
               Acta 1979;505(3–4):215-278.                        doi: 10.1155/2011/586924
               doi: 10.1016/0304-4173(79)90006-5               23.  Chen HM, Jheng KR, Yu AD. Direct, label-free, selective,
            12.  Váró G, Keszthelyi L. Photoelectric signals from dried   and sensitive microbial detection using a bacteriorhodopsin-
               oriented purple membranes of  Halobacterium halobium.   based photoelectric immunosensor.  Biosens Bioelectron.
               Biophys J. 1983;43(1):47-51.                       2017;91:24-31.
               doi: 10.1016/S0006-3495(83)84322-7                 doi: 10.1016/j.bios.2016.12.032
            13.  Kouyama T, Kouyama AN, Ikegami A. Bacteriorhodopsin   24.  Ahmadi M, Yeow JTW. Fabrication and characterization
               is a powerful light-driven proton pump.  Biophys J.   of a radiation sensor based on bacteriorhodopsin. Biosens
               1987;51(5):839-841.                                Bioelectron. 2011;26(5):2171-2176.
               doi: 10.1016/S0006-3495(87)83411-2                 doi: 10.1016/j.bios.2010.09.029
            14.  Kikukawa  T,  Araiso  T,  Mukasa  K,  Shimozawa  T,  Kamo   25.  Ahmadi M, Osei EK, Yeow JTW. Bacteriorhodopsin for
               N. The molecular motion of bacteriorhodopsin mutant   superficial X-ray sensing.  Sens Actuat B Chem. 2012;166-
               D96N in the purple membrane.  FEBS Lett. 1995;377(3):   167:177-183.
               502-504.                                           doi: 10.1016/j.snb.2012.02.037
               doi: 10.1016/0014-5793(95)01408-X               26.  Choi HG, Jung WC, Min J, Lee WH, Choi JW. Color
            15.  Miyasaka  TMT.  Design of  intelligent optical  sensors   image detection by biomolecular photoreceptor using
               with organized bacteriorhodopsin films.  Jpn  J Appl Phys.   bacteriorhodopsin-based complex LB films.  Biosens
               1995;34(7S):3920.                                  Bioelectron. 2001;16(9):925-935.
               doi: 10.1143/JJAP.34.3920                          doi: 10.1016/s0956-5663(01)00211-1
            16.  Miyasaka T, Koyama K, Itoh I. Quantum conversion and   27.  Kim JH, Kim DH, So JH, Koo HJ. Toward eco-friendly dye-
               image detection by a bacteriorhodopsin-based artificial   sensitized solar cells (DSSCs): natural dyes and aqueous
               photoreceptor. Science. 1992;255(5042):342-344.    electrolytes. Energies. 2021;15(1):219.
               doi: 10.1126/science.255.5042.342                  doi: 10.3390/en15010219
            17.  Lu Z, Wang J, Xiang X, Li R, Qiao Y, Li CM. Integration   28.  Devi  P, Thakur  A,  Ghosh  D,  et  al.  Boosting
               of bacteriorhodopsin with upconversion nanoparticles for   photoelectrochemical  performance  of  GaN  nanowall



            Volume 10 Issue 6 (2024)                       529                                doi: 10.36922/ijb.4454