Abstract: A unit pixel includes a transparent substrate, a plurality of light emitting devices arranged on the transparent substrate, and an optical layer disposed between the light emitting devices and the transparent substrate and transmitting light emitted from the light emitting devices. The transparent substrate has a concavo-convex pattern on a surface facing the light emitting devices.

Abstract: A robot control system and a method may be operated in a microservices architecture (MSA)-based control environment. The robot control system includes an application programming interface (API) gateway that connects an authentication server for authenticating a robot, a management server for managing the robot, and an operation server for operating the robot in a Hyper Text Transfer Protocol (HTTP) communication method and an administrator terminal that communicates with the robot through WebRTC (Web Real-Time Communication).

Abstract: Embodiments relate to a polymer film. The polymer film comprises a polymer resin selected from the group consisting of a polyamide-based resin and a polyimide-based resin and has a haze (HZ0) before autoclave treatment of 3% or less and a ?HZ24 represented by Equation 1a of 500% or less.

Abstract: An integrated circuit may include a first active region and a second active region, and the first and second active regions may extend on a substrate in a first horizontal direction in parallel to each other and have different conductivity types from each other. A first gate line may extend in a second horizontal direction crossing the first horizontal direction, and may form a first transistor with the first active region. The first transistor may include a gate to which a first input signal is applied. The first gate line may include a first partial gate line that overlaps the first active region in a perpendicular direction and that has an end on a region between the first and second active regions.

Abstract: The present invention discloses novel macromolecule transduction domain (MTD) peptides which facilitate the traverse of a biologically active molecule across the cell membrane. Also disclosed are polynucleotides encoding the MTD peptides, methods of identifying the MTD peptides; methods of genetically engineering a biologically active molecule to have cell permeability by using the MTD peptides, methods of importing a biologically active molecule into a cell by using the MTD peptides, and uses thereof.

Abstract: The present invention discloses novel macromolecule transduction domain (MTD) peptides which facilitate the traverse of a biologically active molecule across the cell membrane. Also disclosed are polynucleotides encoding the MTD peptides, methods of identifying the MTD peptides; methods of genetically engineering a biologically active molecule to have cell permeability by using the MTD peptides, methods of importing a biologically active molecule into a cell by using the MTD peptides, and uses thereof.

Abstract: The present invention discloses novel macromolecule transduction domain (MTD) peptides which facilitate the traverse of a biologically active molecule across the cell membrane. Also disclosed are polynucleotides encoding the MTD peptides, methods of identifying the MTD peptides; methods of genetically engineering a biologically active molecule to have cell permeability by using the MTD peptides, methods of importing a biologically active molecule into a cell by using the MTD peptides, and uses thereof.

Abstract: Disclosed are a cell-permeable p53 recombinant protein in which a macromolecule transduction domain (MTD) is fused to the tumor suppressor p53, a polynucleotide encoding the same, a recombinant expression vector for producing the same, and a pharmaceutical composition of the treatment of cancer, comprising the same. Having high cell permeability, the p53 recombinant protein is effectively transduced into cells so that the tumor suppressor p53 can be translocated into cell nuclei. Within nuclei, p53 inhibits the formation of cyclin-CDK complexes to halt the cell cycle, thus suppressing excessive cell proliferation and inducing apoptosis of tumor cells. Therefore, the p53 recombinant protein can be useful as an anticancer agent in the treatment of various cancers.

Abstract: The present invention discloses cell permeable p18 recombinant proteins where a macromolecule transduction domain (MTD) is fused to a tumor suppressor p18. Also disclosed are polynucleotides encoding the cell permeable p18 recombinant proteins, an expression vector containing the cell permeable p18 recombinant protein, and a pharmaceutical composition for treating p18 deficiency or failure which contains the cell permeable p18 recombinant protein as an effective ingredient. The cell permeable p18 recombinant proteins of the present invention are capable of efficiently introducing a haploinsufficient tumor suppressor p18 into a cell, and thus, can activate cell signaling mechanisms involved in the activation of ATM and p53 that induce cell cycle arrest and apoptosis in response to DNA damage or oncogenic signals. Therefore, the cell permeable p18 recombinant proteins of the present invention can be effectively used as an anticancer agent.

Abstract: Disclosed are a cell-permeable p53 recombinant protein in which a macromolecule transduction domain (MTD) is fused to the tumor suppressor p53, a polynucleotide encoding the same, a recombinant expression vector for producing the same, and a pharmaceutical composition of the treatment of cancer, comprising the same. Having high cell permeability, the p53 recombinant protein is effectively transduced into cells so that the tumor suppressor p53 can be translocated into cell nuclei. Within nuclei, p53 inhibits the formation of cyclin-CDK complexes to halt the cell cycle, thus suppressing excessive cell proliferation and inducing apoptosis of tumor cells. Therefore, the p53 recombinant protein can be useful as an anticancer agent in the treatment of various cancers.

Abstract: The present invention relates to a reprogramming transcription factor recombinant protein in which a macromolecule transduction domain (MTD) is fused to a reprogramming transcription factor to obtain cell permeability. The present invention also relates to a polynucleotide for coding said reprogramming transcription factor recombinant protein and to an expression vector of said cell-permeable reprogramming transcription factor recombinant protein. Treating a somatic cell with the cell-permeable reprogramming transcription factor recombinant protein induces the reprogramming of the stem cell-specific gene of the somatic cell, and thus can be effectively used in the establishment of an induced pluripotent stem cell (iPS cell) having characteristics similar to those of an embryonic stem cell in terms of morphology and genetics.

Abstract: The present invention discloses cell permeable RUNX3 recombinant proteins where a Macromolecule Transduction Domain (MTD) is fused to a tumor and metastasis suppressor RUNX3. Also disclosed are polynucleotides encoding the cell permeable RUNX3 recombinant proteins, an expression vector containing the cell permeable RUNX3 recombinant protein, and a pharmaceutical composition for preventing metastasis which contains the cell permeable RUNX3 recombinant protein as an effective ingredient. The cell permeable RUNX3 recombinant proteins of the present invention can induce the reactivation of TGF-? signal transduction pathway which causes cell cycle arrest by efficiently introducing a tumor and metastasis suppressor RUNX3 into a cell. Therefore, the cell permeable RUNX3 recombinant proteins of the present invention can be effectively used as an anticancer agent capable of preventing cancer growth and metastasis by suppressing the proliferation, differentiation, and migration of cancer cells.

Abstract: The present invention discloses cell permeable p18 recombinant proteins where a macromolecule transduction domain (MTD) is fused to a tumor suppressor p18. Also disclosed are polynucleotides encoding the cell permeable p18 recombinant proteins, an expression vector containing the cell permeable p18 recombinant protein, and a pharmaceutical composition for treating p18 deficiency or failure which contains the cell permeable p18 recombinant protein as an effective ingredient. The cell permeable p18 recombinant proteins of the present invention are capable of efficiently introducing a haploinsufficient tumor suppressor p18 into a cell, and thus, can activate cell signaling mechanisms involved in the activation of ATM and p53 that induce cell cycle arrest and apoptosis in response to DNA damage or oncogenic signals. Therefore, the cell permeable p18 recombinant proteins of the present invention can be effectively used as an anticancer agent.

Abstract: The present invention discloses novel macromolecule transduction domain (MTD) peptides which facilitate the traverse of a biologically active molecule across the cell membrane. Also disclosed are polynucleotides encoding the MTD peptides, methods of identifying the MTD peptides; methods of genetically engineering a biologically active molecule to have cell permeability by using the MTD peptides, methods of importing a biologically active molecule into a cell by using the MTD peptides, and uses thereof.