Compact antenna designs have become a critical component in the recent advancements of wireless communication technologies over the past few decades. This paper presents a self-multiplexing antenna based on diplexing ...Compact antenna designs have become a critical component in the recent advancements of wireless communication technologies over the past few decades. This paper presents a self-multiplexing antenna based on diplexing and quadruplexing Substrate-Integrated Waveguide (SIW) cavities. The diplexing structure incorporates two V-shaped slots, while the quadruplexing structure advances this concept by combining the slots to form a cross-shaped configuration within the cavity. The widths and lengths of the slots are carefully tuned to achieve variations in the respective operating frequencies without affecting the others. The proposed diplexing antenna resonates at 8.48 and 9.2 GHz, with a frequency ratio of 1.08, while the quadruplexing antenna operates at 6.9, 7.1, 7.48, and 8.2GHz. Both designs exhibit isolation levels well below –20dB and achieve a simulated peak gain of 5.6 dBi at the highest frequency, with a compact cavity area of 0.56 λg^(2). The proposed antennas operate within the NR bands (n12, n18, n26), making them suitable for modern high-speed wireless communication systems. Moreover, the properties like multiband operation, compactness, high isolation, low loss, and low interference make the antenna favorable for the high-speed railway communication systems.展开更多
The cascade reaction of tyrosine phosphorylation provides an attractive mechanism to regulate the metabolism and growth of normal and transformed cells. Thus, considerable effort has been made to identify the cellular...The cascade reaction of tyrosine phosphorylation provides an attractive mechanism to regulate the metabolism and growth of normal and transformed cells. Thus, considerable effort has been made to identify the cellular substrates of the tyrosine kinases. In this work, the activity of the Insulin receptor tyrosine kinase and endogenous substrate in transformed lymphocytes were studied. Purified human T lymphocytes incubated with phytohemagglutinin (PHA) for 72 hours served as transformed cells, when labeled with [32P] - orthophosphate it appeared that the insulin-dependent protein kinase activity in the transformed cells increased 9- fold. In search for the physiologically significant substrates by using polyclonal antiphosphotyrosine antibody to immunoprecipitate phosphotyrosine-containing proteins that produced in the intact cell during insulin stimulation, a protein with molecular weight of 45kDa as identified and designated as PP45, which occurred during the 5 minutes response of lymphocytes to insulin.展开更多
文摘Compact antenna designs have become a critical component in the recent advancements of wireless communication technologies over the past few decades. This paper presents a self-multiplexing antenna based on diplexing and quadruplexing Substrate-Integrated Waveguide (SIW) cavities. The diplexing structure incorporates two V-shaped slots, while the quadruplexing structure advances this concept by combining the slots to form a cross-shaped configuration within the cavity. The widths and lengths of the slots are carefully tuned to achieve variations in the respective operating frequencies without affecting the others. The proposed diplexing antenna resonates at 8.48 and 9.2 GHz, with a frequency ratio of 1.08, while the quadruplexing antenna operates at 6.9, 7.1, 7.48, and 8.2GHz. Both designs exhibit isolation levels well below –20dB and achieve a simulated peak gain of 5.6 dBi at the highest frequency, with a compact cavity area of 0.56 λg^(2). The proposed antennas operate within the NR bands (n12, n18, n26), making them suitable for modern high-speed wireless communication systems. Moreover, the properties like multiband operation, compactness, high isolation, low loss, and low interference make the antenna favorable for the high-speed railway communication systems.
文摘The cascade reaction of tyrosine phosphorylation provides an attractive mechanism to regulate the metabolism and growth of normal and transformed cells. Thus, considerable effort has been made to identify the cellular substrates of the tyrosine kinases. In this work, the activity of the Insulin receptor tyrosine kinase and endogenous substrate in transformed lymphocytes were studied. Purified human T lymphocytes incubated with phytohemagglutinin (PHA) for 72 hours served as transformed cells, when labeled with [32P] - orthophosphate it appeared that the insulin-dependent protein kinase activity in the transformed cells increased 9- fold. In search for the physiologically significant substrates by using polyclonal antiphosphotyrosine antibody to immunoprecipitate phosphotyrosine-containing proteins that produced in the intact cell during insulin stimulation, a protein with molecular weight of 45kDa as identified and designated as PP45, which occurred during the 5 minutes response of lymphocytes to insulin.
