Abstract: The present disclosure provides a digital image sensing device with a light intensifier, its structure includes a locating handle, a button, a host, a light intensifier, a regulating mechanism and a sensor, wherein the locating handle is connected to the host, the host fits with the light intensifier through the button in a form of electric connection, and the regulating mechanism is arranged between the light intensifier and the sensor; a stopping device and an interweaving device are arranged on a force-assisted body, and mutual fit is performed on a fillet cylinder through the stopping device and the interweaving device; when a guide rail has a closing tendency, a drum bulge inside the guide rail will firstly push the fillet cylinder to roll upwards, the interweaving device is guided to be located on a stabilizer through a pulling sheet.
Abstract: The present invention relates to the field of electrode material of a low temperature resistant supercapacitor, and in particular to a nickel foam-supported defective tricobalt tetroxide nanomaterial, a low temperature resistant supercapacitor and a preparation method thereof. The method includes the following steps: dissolving cobalt acetate in an ethylene glycol solution and stirring uniformly to obtain a pink transparent solution; adding hexadecyl trimethyl ammonium bromide to the pink transparent solution, and stirring until the hexadecyl trimethyl ammonium bromide dissolves to obtain a mixed solution; putting the mixed solution into a teflon-lined reactor, adding pretreated nickel foam for hydrothermal reaction, taking out the nickel foam after the reaction is completed, and ultrasonic cleaning the nickel foam repeatedly before drying; and heat-treating the nickel foam obtained after drying.
Type:
Application
Filed:
January 14, 2021
Publication date:
December 22, 2022
Applicant:
ZHEJIANG NORMAL UNIVERSITY
Inventors:
Yang JIAO, Jianrong CHEN, Hongjun LIN, Yan XU, Yanchao XU
Abstract: The application belongs to the field of biotechnology and microbiology, in particular to a strain of Streptomyces roseoverticillatus (Sr-63) which antagonizes the Rice Bacterial Blight and its application in the prevention and treatment of plant diseases. The application discloses a strain of S. roseoverticillatus (Sr-63) with the accession number CCTCC No.: M 2019261. It is also disclosed the application of the S. roseoverticillatus (Sr-63): used for controlling Rice Bacterial Blight.
Abstract: A method for preparing a compound with a spiro[5.5] molecular skeleton by electrooxidation is provided, which relates to the field of organic synthesis technology. Specifically, the method includes o-alkynyl benzoyl biphenyl reacts with sodium fluoromethylsulfite in an electrolyte and a solvent under a current condition to obtain the compound with the spiro[5.5] molecular skeleton. The method uses cheap CF3 (trifluoromethyl) free radical and electrooxidation to realize the de-aromatization of biphenyl without catalyst. The reaction can occur only under the action of current, which is energy-saving and economical. The free radical used in the reaction is cheap, easy to obtain and low cost. The reaction device is simple and easy to operate, and the yield of the reaction is as high as 60%.
Abstract: The present disclosure discloses a Streptomyces antioxidans strain Sa-21, namely, strain Sa-21 with an accession number of CCTCC NO: M 2020423. The present disclosure also discloses the use of the aforementioned Strepiomyces antioxidans strain Sa-21 in inhibition of Alternaria solani (A. solani). The Streptomyces antioxidans strain also has an inhibiting effect on both plant pathogenic fungi and plant pathogenic bacteria.
Abstract: The present disclosure provides a method for increasing lycopene content in a tomato fruit, including knocking out the gene LIE1 of SEQ ID No 1. The disclosure also provides a method for knocking out gene LIE1 in tomato. The method of the disclosure is effective for increasing the content of lycopene in tomato fruits. Finally, the disclosure provides a transgenic tomato plant with knockout of gene LIE1.
Abstract: Image encryption and decryption methods based on biological information. The encryption method includes: obtaining the biological information; using the chaotic mapping method to preprocess the biological information to construct the first chaotic biological phase plate and the second chaotic biological phase plate; obtaining the original image to be encrypted and use the first chaotic biological phase plate and the second chaotic biological phase plate to determine the reconstructed optical encrypted image based on the discrete cosine transform method, and Fresnel transform method; and inputting reference light that interferes with the encrypted image of the reproduction light to determine the encrypted image. The invention can reduce the information amount of the key, improve the efficiency of storage and transmission, and improve security.
Abstract: An ultramarine fluorescent protein, is a protein selected from (a) and (b) protein: (a) a protein consisting of an amino acid sequence set forth in SEQ ID:NO. 2; (b) a protein derived from (a) by substitution, deletion or addition with one or more amino acids in the amino acid sequence of (a) and having activity of the ultramarine fluorescent protein. The ultramarine fluorescent protein (UFP) has the characteristics of pH-insensitivity and light stability, and its chromophore can absorb long-wavelength ultraviolet (UVA) and release fluorescence at wavelength longer than 400 nm. And the aromatic amino acids residue (with content of 9.2%) can absorb medium wavelength ultraviolet (UVB) and release UVA.
Type:
Application
Filed:
May 21, 2021
Publication date:
January 13, 2022
Applicant:
Zhejiang Normal University
Inventors:
Meihao SUN, Huihui WANG, Mengmeng SHI, Hongfei ZHOU, Jie LIU
Abstract: The present disclosure belongs to the technical field of plant genetic engineering, and discloses a gene for controlling the rice grain number per panicle and its use. Nucleotide sequence of OsCKX11 is SEQ ID NO. 1, nucleotide sequence for coding protein region is SEQ ID NO. 2, amino acid sequence of the encoded protein is SEQ ID NO. 3. The disclosure constructs an OsCKX11-knocked-out vector using CRISPR/Cas9, and identifies multiple independent homozygous lines through PCR amplification and sequencing methods, and provides a mutant in which specific knockout of gene OsCKX11 of the rice leads to an increase in cytokinin levels and an increase in grain number per panicle. Based on the biological function of OsCKX11 to increase the rice grain number per panicle, methods such as gene editing, natural allele replacement, RNA interference, or molecular assisted breeding can be used to improve existing rice varieties.
Abstract: A method for improving photosynthesis of rice includes the step of knocking out IPS1 gene in rice. The IPS1 gene has a nucleotide sequence shown in SEQ ID NO: 1.