[1] BALKWILL F. TNF-α in promotion and progression of cancer[J]. Cancer and metastasis reviews, 2006, 25:409-416.

[2] RADNER H, ALETAHA D. Anti-TNF in rheumatoid arthritis:an overview[J]. Wiener medizinische wochenschrift, 2015, 165:3-9.::

[3] DECOURT B, LAHIRI D K, SABBAGH M N. Targeting tumor necrosis factor alpha for Alzheimer’s disease[J]. Current Alzheimer research, 2017, 14:412-425.

[4] BOSS J D, SINGH P K, PANDYA H K, et al. Assessment of neurotrophins and inflammatory mediators in vitreous of patients with diabetic retinopathy[J]. Investigative othalmology & visual science, 2017, 58(12): 5594-5603.

[5] ASIEDU M K, INGLE J N, BEHRENS M D, et al. TGFβ/TNFα-mediated epithelial-mesenchymal transition generates breast cancer stem cells with a claudin-low phenotype[J]. Cancer research, 2011, 71: 4707-4719.

[6] RENUKARADHYA G J, EBERLE K C, VENNWATSON S K, et al. Development and testing of species-specific ELISA assays to measure IFN-γ and TNF-α in bottlenose dolphins (Tursiops truncatus)[J]. Plos one, 2018, 13(1):e0190786.

[7] WU H T, WEN Y B, YUE C, et al. Serum TNF-α level is associated with disease severity in adult patients with immunoglobulin a vasculitis nephritis[J]. Disease markers, 2020, 2020:5514145.

[8] LU Y, ZHOU Q Q, XU L. Non-invasive electrochemical biosensors for TNF-α cytokines detection in body fluids[J]. Frontiers in bioengineering and biotechnology, 2021, 9:701045.

[9] LUO B B, XU Y F, WU S X, et al. A novel immunosensor based on excessively tilted fiber grating coated with gold nanospheres improves the detection limit of newcastle disease virus[J]. Biosensors and bioelectronics, 2018, 100:169-175.

[10] DANDAPAT K, TRIPATHI S M, CHINIFOOROSHAN Y, et al. Compact and cost-effective temperature-insensitive bio-sensor based on long-period fiber gratings for accurate detection of E. coli bacteria in water[J]. Optics letters, 2016, 41(18):4198-4201.

[11] EN H Y, WANG S F, LI C H, et al. Real-time and sensitive immunosensor for label-free detection of specific antigen with a comb of microchannel long-period fiber grating[J]. Analytical chemistry, 2020, 92:15989-15996.

[12] SUN D D, GUO T, RAN Y, et al. In-situ DNA hybridization detection with a reflective microfiber grating biosensor[J]. Biosensors and bioelectronics, 2014, 61: 541-546.

[13] VALADEZ A, LANA C, TU S I, et al. Evanescent wave fiber optic biosensor for salmonella detection in food[J]. Sensors, 2009, 9:5810-5824.

[14] JAUREGUI-VAZQUEZ D, LOZANO-SOTOMAYOR P, MEJíA-BENAVIDES J E, et al. Binding analysis of functionalized multimode optical-fiber sandwich-like structure with organic polymer and its sensing application for humidity and beath monitoring[J]. Biosensors, 2021, 11(9):324.

[15] LINDER M B, SZILVAY G R, NAKARI-SET?L? T, et al. Hydrophobins:the protein-amphiphiles of filamentous fungi[J]. FEMS microbiology reviews, 2005, 29:877-896.

[16] MGBEAHURUIKE A C, KOVALCHUK A, CHEN H X, et al. Evolutionary analysis of hydrophobin gene family in two wood-degrading basidiomycetes, Phlebia brevispora and Heterobasidion annosum s.l[J]. BMC ecology and evolution, 2013, 13:240.

[17] VRIES O M H, FEKKES M P, W?STEN H A B, et al. Insoluble hydrophobin complexes in the walls of Schizophyllum commune and other filamentous fungi[J]. Archives of microbiology, 1993, 159:330-335.

[18] PAANANEN A, VUORIMAA E, TORKKELI M, et al. Structural hierarchy in molecular films of two class II hydrophobins[J]. Biochemistry, 2003, 42(18):5253-5258.

[19] PISCITELLI A, PENNACCHIO A, LONGOBARDI S, et al. VMH2 hydrophobin as a tool for the development of “self-immobilizing” enzymes for biosensing[J]. Biotechnology and bioengineering, 2017, 114:46-52.

[20] REUTER L J, SHAHBAZI M A, M?KIL? E M, et al. Coating nanoparticles with plant-produced transferrin-hydrophobin fusion protein enhances their uptake in cancer cells[J]. Bioconjugate chemistry, 2017, 28: 1639-1648.

[21] FAN H C, WANG B, ZHANG Y, et al. A cryo-electron microscopy support film formed by 2D crystals of hydrophobin HFBI[J]. Nature communications, 2021, 12: 7257.

[22] DUAN S X, WANG B, QIAO M Q, et al. Hydrophobin HGFI-based fibre-optic biosensor for detection of antigen-antibody interaction[J]. Nanophotonics, 2019, 9: 177-186.

[23] SONG B B, JIN C, WANG B, et al. Hydrophobin HGFI assisted immunobiologic sensor based on a cascaded taper integrated ultra-long-period fiber grating[J]. Biomedical optics express, 2021, 12(5):2790-2799.

[24] WU J X, WANG B, SONG B B, et al. Bioimmunoassay based on hydrophobin HGFI self-assembled whispering gallery mode optofluidic microresonator[J]. Sensors and actuators A:physical, 2021, 319:112545.

[25] SONG D M, GAO Z D, ZHAO L Q, et al. High-yield fermentation and a novel heat-precipitation purification method for hydrophobin HGFI from Grifola frondosa in Pichia pastoris[J]. Protein expression and purification, 2016, 128:22-28.

[26] ZHAO R, SHU X W, WANG P. High-performance bending sensor based on femtosecond laser-inscribed in-fiber Mach-Zehnder interferometer[J]. Journal of lightwave technology, 2020, 38:6371-6378.

[27] YU F, XUE P, ZHENG J. Enhancement of refractive index sensitivity by bending a core-offset in-line fiber Mach-Zehnder interferometer[J]. IEEE sensors journal, 2019, 19:3328-3334.

[28] WANG Z F, LIENEMANN M, QIAO M Q, et al. Mechanisms of protein adhesion on surface films of hydrophobin[J]. Langmuir, 2010, 26:8491-8496.