Abstract: A foldable mechanism and a foldable terminal. The foldable terminal includes the foldable mechanism. The foldable mechanism is conducive to a lightweight design of the foldable terminal. The foldable mechanism includes a base and a pressing plate assembly. The pressing plate assembly is mounted on the base. The pressing plate assembly includes a first pressing plate and a first pressing plate swing arm. The first pressing plate is an integrally formed structural member. A sliding portion of the first pressing plate swing arm is slidably connected to the first pressing plate, to implement slidable connection between the first pressing plate swing arm and the first pressing plate. A rotating portion of the first pressing plate swing arm is rotatably connected to the base, to implement rotatable connection between the first pressing plate swing arm and the base.

Abstract: The present invention belongs to the field of gene editing. In particular, the present invention relates to an improved cytosine base editing system which has a significantly reduced genome-wide off target effect and a narrow editing window.

Abstract: The present invention belongs to the field of gene editing, and particularly relates to a method and means for detecting genome wide random off-target effect of a base editing system in a rapid and high-throughput mode.

Abstract: Provided are an improved genome editing system and a method that has high specificity, which are capable of obtaining stable mutation types. The system includes an expression construct including a coding sequence of a gRNA targeting at least one genomic target sequence; an expression construct including a coding sequence of a CRISPR nuclease; and an expression construct including a coding sequence for a gRNA targeting a target sequence within the coding sequence of the CRISPR nuclease. Upon introduction into the cell, the gRNA targeting the at least one genomic target sequence directs the CRISPR nuclease to the at least one genomic target sequence and results in one or more mutations in the genomic target sequence, and the gRNA targeting a target sequence within the coding sequence of the CRISPR nuclease directs the CRISPR nuclease to the target sequence within the coding sequence of the CRISPR nuclease and results in an inactivating mutation of the CRISPR nuclease.

Abstract: The present invention relates to the field of plant genetic engineering. Specifically, the present invention relates to a method for targeted modification of a plant genome sequence. More specifically, the present invention relates to a method for targeted modification of a specific sequence in the plant genome into a target sequence of interest by a nuclease-reverse transcriptase fusion protein guided by a guide RNA, a genetically-modified plant produced by said method, and progenies of said plant.

Abstract: The present invention belongs to the field of genetic engineering. Specifically, the present invention relates to a gene editing system derived from Flavobacterium and uses thereof.

Abstract: The present disclosure describes aspects of a conductive receptacle collar for desense mitigation. In aspects, an apparatus comprises a printed circuit board assembly (PCBA) that includes an integrated circuit with signal lines for a wired data interface. The apparatus also includes a coupling component with a receptacle for the wired data interface and an enclosure in which the PCBA is mounted. The enclosure has an opening through which the receptacle for the wired data interface is exposed. A conductive collar is disposed between an exterior surface of the receptacle and an interior surface of this opening. The conductive collar contacts the receptacle's exterior surface and the interior surface of the opening to electrically couple these respective surfaces. By so doing, the conductive collar improves grounding of the receptacle to the enclosure, which may mitigate the desense of the apparatus's wireless receivers caused by operation of the wired data interface.

Abstract: The present disclosure describes aspects of a conductive receptacle collar for desense mitigation. In aspects, an apparatus comprises a printed circuit board assembly (PCBA) that includes an integrated circuit with signal lines for a wired data interface. The apparatus also includes a coupling component with a receptacle for the wired data interface and an enclosure in which the PCBA is mounted. The enclosure has an opening through which the receptacle for the wired data interface is exposed. A conductive collar is disposed between an exterior surface of the receptacle and an interior surface of this opening. The conductive collar contacts the receptacle's exterior surface and the interior surface of the opening to electrically couple these respective surfaces. By so doing, the conductive collar improves grounding of the receptacle to the enclosure, which may mitigate the desense of the apparatus's wireless receivers caused by operation of the wired data interface.

Abstract: A method for improving mechanical properties by changing a gradient nanotwinned structure of metallic materials is the technical field of nanostructured metallic materials. The method uses the inherent principles of microstructure and mechanical properties of metallic materials to improve materials mechanical properties. The metallic materials has a gradient nanotwinned structure. The principles of microstructure and mechanical properties of the metallic materials mean that the mechanical properties of the metallic materials are adjusted by changing the structural gradient scale of the nanotwinned structure. The method combines two strengthening methods of nanotwins and gradient structure, and can obviously improve the mechanical properties of the metallic materials. For pure copper materials of the gradient nanotwinned structure prepared by an electrodeposition technology: the yield strength is 481±15 MPa, the tensile strength is 520±12 MPa, the uniform elongation can be 7±0.

Abstract: Provided are an improved genome editing system and a method that has high specificity, which are capable of obtaining stable mutation types.

Abstract: Embodiments of the present disclosure disclose a method for defending against a User Datagram Protocol (UDP) attack and a defense device. The method is implemented by a defense device, the defense device comprising a memory, a processor, and a bus system. The method comprising: detecting, by the defense device, whether a target host is attacked by a UDP attack from an attack device; obtaining, by the defense device, an Internet Control Message Protocol (ICMP) data packet sent back by the target host to the attack device, in response to the target host being attacked by the attack device; extracting, by the defense device, information about target ports in the ICMP data packet; and performing, by the defense device according to the information about the target ports, interception processing on UDP data packets sent by the attack device to the target ports.

Abstract: Embodiments of the present disclosure disclose a method for defending against a User Datagram Protocol (UDP) attack and a defense device. The method is implemented by a defense device, the defense device comprising a memory, a processor, and a bus system. The method comprising: detecting, by the defense device, whether a target host is attacked by a UDP attack from an attack device; obtaining, by the defense device, an Internet Control Message Protocol (ICMP) data packet sent back by the target host to the attack device, in response to the target host being attacked by the attack device; extracting, by the defense device, information about target ports in the ICMP data packet; and performing, by the defense device according to the information about the target ports, interception processing on UDP data packets sent by the attack device to the target ports.