How to turn off developer mode in oppo f9 Pro?

Papers (6)	Insight
Journal Article•DOI Highly Ordered TiO2 Nanotubes on Patterned Substrates: Synthesis-in-Place for Ultrasensitive Chemiresistors Do Hong Kim, Young Seok Shim, Hi Gyu Moon, Hye Jung Chang, Dong Su, Soo Young Kim, Jin Sang Kim, Byeong Kwon Ju, Seok-Jin Yoon, Ho Won Jang - Show less +9 more 15 Aug 2013-Journal of Physical Chemistry C 26 Citations	Beyond the high sensitivity, selective responses to ethanol and acetone create oppo...
Journal Article•DOI Forward Osmosis (FO) for Water Reclamation from Emulsified Oil/Water Solutions: Effects of Membrane and Emulsion Characteristics Gang Han, Sun Sun Chan, Tai-Shung Chung - Show less +2 more 23 Aug 2016-ACS Sustainable Chemistry & Engineering 35 Citations	However, the FO mode is superior to the PRO mode in terms of pe...
Journal Article•DOI RT-PLRU: A New Paging Scheme for Real--Time Execution of Program Codes on NAND Flash Memory for Portable Media Players Jong-Chan Kim, Duhee Lee, Chang-Gun Lee, Kanghee Kim - Show less +3 more 01 Aug 2011-IEEE Transactions on Computers 15 Citations	Moreover, the proposed process optimally configure the RT-PLRU in a developer-transparent way without giving any burden to the program developer.
Book Chapter•DOI Design and Implementation of a Hybrid P2P-based Grid Resource Discovery System Artie Basukoski, Vladimir Getov, Jeyarajan Thiyagalingam, Stavros Isaiadis - Show less +3 more 01 Jan 2008 3 Citations	Firstly, due to abstracting away network level functionalities, thus reducing the technical demands on the developer.
Open access•Journal Article•DOI Expression of the murine apolipoprotein E gene is coupled to the differentiated state of F9 embryonal carcinoma cells. Khaja Basheeruddin, Paul S. G. Stein, Sidney Strickland, David L. Williams - Show less +3 more 01 Feb 1987-Proceedings of the National Academy of Sciences of the United States of America 23 Citations	These data suggest that both quantitative and qualitative features of apoE gene expression in development are retained in the F9 cell.
Open access•Journal Article•DOI Molecular cloning and characterization of the human orthologue of the oppo 1 gene encoding a sperm tail protein. Kouichi Kitamura, Yasushi Miyagawa, Naoko Iguchi, Hiromi Nishimura, Hiromitsu Tanaka, Yoshitake Nishimune - Show less +5 more 01 May 2003-Molecular Human Reproduction 9 Citations	Comparison of the two genomic sequences indicated that human oppo 1 has evolved independently, resulting in substantial differences in the genomic structure after the human-mouse split, whereas the sequence of the basic functional unit of the oppo 1 gene seems to have been relatively well conserved.

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The exploration of carbon nanotube (CNT) reinforced natural rubber (NR) nanocomposites for prosthetic applications has yielded significant insights into their dynamic mechanical behavior, as evidenced by a range of studies. Medupin et al. demonstrated that multi-walled carbon nanotube (MWCNT) reinforced NR polymer nanocomposites exhibit superior mechanical properties, including enhanced tensile and dynamic loading capacities, which are crucial for the development of anthropomorphic prosthetic feet. This finding is supported by Ebrahimi and Dabbagh, who highlighted the exceptional stiffness and fracture toughness of CNT-reinforced polymer nanocomposites, underscoring their potential in designing high-performance prosthetics. Further, Ismail et al. reviewed the mechanical aspect of magnetorheological elastomer composites with added MWCNTs, finding that even a small amount of CNTs could significantly improve the mechanical performance of conventional materials used in prosthetics. This is in line with the dynamic mechanical analysis (DMA) results from studies by Saha and Bal, which showed a profound increase in storage modulus in MWCNT/epoxy composites, indicating improved energy storage capabilities essential for prosthetic applications. Moreover, the research by Li and Sun on MR elastomer composites with added MWCNTs revealed that these nanocomposites not only exhibit large improvements in dynamic stiffness and damping in the absence of a magnetic field but also show enhanced performance under magnetic fields, suggesting their utility in creating responsive prosthetic devices. Additionally, Aghadavoudi et al. discussed the impact of nano-scale defects in CNTs on the elastic behavior of nanocomposites, emphasizing the need for careful consideration of CNT quality in the development of prosthetics to ensure optimal mechanical properties. Collectively, these studies contribute to a deeper understanding of the dynamic mechanical analysis of CNT-NR nanocomposites, highlighting their promising applications in the field of prosthetics, where enhanced mechanical performance and responsiveness are paramount.What is the transgelin family?

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The transgelin family comprises actin-binding proteins involved in various cellular processes such as cytoskeletal remodeling, cell contractility, and cell shape regulation. In mammals and Drosophila, three genes encode transgelin proteins, with overlapping expression patterns but distinct roles. Transgelin, also known as TAGLN, plays a crucial role in regulating cell motility, proliferation, and differentiation in different cell types, including smooth muscle cells. Studies have shown that TAGLN is associated with tumor development, with conflicting roles reported as both a tumor suppressor and a pro-tumorigenic factor in different cancer types. Additionally, TAGLN has been identified as a key regulator of ferroptosis in esophageal squamous cell carcinoma, influencing cell functions and pathways associated with this form of cell death. Moreover, TAGLN has been linked to the differentiation and migration of human bone marrow-derived stromal stem cells, highlighting its importance in regenerative medicine applications.Which way is the most efficent to deliver genes in human mesenchymal stem cells?

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The most efficient way to deliver genes in human mesenchymal stem cells (hMSCs) involves using mini-intronic plasmids containing the cytomegalovirus (CMV) promoter delivered with Lipofectamine 3000. This method has been shown to produce the highest transfection levels in hMSCs. Other approaches like robotic microinjection have also demonstrated high transfection efficiency, with microinjection showing around 60% efficiency. Additionally, lipid-based carriers have been highlighted as efficient vehicles for nucleic acid delivery to MSCs, emphasizing the importance of carrier selection in gene delivery systems. Furthermore, lipidoid nanoparticles have been developed to deliver mRNA into hMSCs effectively, showcasing successful neural-like differentiation through CRISPR-based gene knockdown. Overall, these findings underscore the significance of optimized delivery methods for gene modification in hMSCs to enhance their therapeutic potential.What happen if dvl is overexpressed?

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Overexpression of Dvl (Dishevelled) has been shown to have significant effects in different contexts. In the case of hepatocellular carcinoma (HCC), Dvl2 overexpression is associated with increased cell migration and invasion, indicating a role in cancer progression and poor prognosis. In plant development, overexpression of DVL genes leads to severe alterations, particularly in socket cell recruitment and differentiation, suggesting a role in local signaling for cell fate determination. Moreover, in colorectal cancer (CRC), DVL1 overexpression is linked to liver metastasis, making it a potential prognostic marker for CRC patients. Additionally, in Arabidopsis, overexpression of DVL1 results in pleiotropic phenotypes affecting plant stature, leaf morphology, and fruit development, indicating a role in regulating plant growth and development.What is the relationship between memory bandwidth and the efficiency of data processing in modern computing?

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The relationship between memory bandwidth and the efficiency of data processing in modern computing systems is critically interdependent, as highlighted by a body of research. Modern computing systems, designed predominantly to move data towards computation, face significant performance, scalability, and energy bottlenecks due to this architecture. These challenges are exacerbated by the increasing data-intensiveness of applications, where data access from memory emerges as a key bottleneck because memory bandwidth and energy do not scale well with demand. The dichotomy between computation and data storage/movement, where a substantial portion of system energy is consumed and performance is lost in moving data, underscores the inefficiency of traditional computing paradigms. To address these inefficiencies, research has explored processing-in-memory (PIM) technologies, which aim to reduce or eliminate data movement by placing computation mechanisms closer to or inside memory storage. This approach leverages the analog operational properties of DRAM and 3D-stacked memory technology to perform massively parallel operations in memory, thereby potentially alleviating the memory bandwidth bottleneck. Furthermore, the importance of memory bandwidth is not limited to traditional computing systems but extends to specialized computing platforms like FPGAs. Efficient use of memory bandwidth is essential for fully utilizing the processing capabilities of these platforms, as demonstrated by FPGA-based implementations of two-dimensional fast Fourier transform (2D-FFT), which address the memory bandwidth bottleneck through algorithm and data path design. In addition, strategies for increasing global cache reuse and optimizing data access patterns have been proposed to mitigate bandwidth limitations and improve data processing efficiency. These strategies include fusing computations on the same data and grouping data used by the same computation to enable contiguous memory access. In summary, the relationship between memory bandwidth and data processing efficiency is a central concern in modern computing, driving innovations in memory system architecture, algorithm design, and processing paradigms to overcome inherent limitations.

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