Live Breaking News & Updates on உயிரியல் ப்ரொடெக்ஶந்
Stay updated with breaking news from உயிரியல் ப்ரொடெக்ஶந். Get real-time updates on events, politics, business, and more. Visit us for reliable news and exclusive interviews.
Suspended animation always looks so easy in sci-fi movies and television shows – enter a windowed cylinder, someone pushes a button and sets the timer and you wake up months or years later in another place and time, looking the same age and feeling great. Making it happen in real like is a daunting challenge.. Read more » ....
Cell viability require that a variety of functions at the cell membrane are maintained properly. P-type ATPases translocate substrates across the membrane, and they have evolved into different types taking care of specific substrates within a diverse range. Now, key structural aspects have been described on how two different types of P-type ATPases a Ca2+ transporting Ca2+-ATPase and a lipid transporting P4-ATPase - have adapted to different substrates and physical environments. ....
Researchers from Nara Institute of Science and Technology have found that plants adapt to heat stress via a specific memory mechanism. The JUMONJI family of proteins can control small heat shock genes, allowing plants to become heat tolerant for better adaptation to future heat stress. This research is applicable to a broad range of scientific fields and understanding this mechanism could contribute to maintaining the food supply under global warming conditions. ....
An inter-university research group has succeeded in constructing the gene expression network behind the vascular development process in plants. They achieved this by performing bioinformatics analysis using the VISUAL tissue culture platform, which generates vascular stem cells from leaf cells. In this network, they also discovered a new BES/BZR transcription factor, BEH3, and illuminated its role in vascular cell maintenance. ....
E-Mail GRAND RAPIDS, Mich. (JUNE 10, 2021) Much like a supply truck crossing the countryside, the misfolded proteins that damage neurons in Alzheimer s disease travel the roads of the brain, sometimes stopping and sometimes re-routing to avoid roadblocks, reports a study published in The findings shed light on how tau proteins, which form tangled clumps that damage brain cells in Alzheimer s, move through the brain. The study also provides new insights into why some areas of the brain are more vulnerable to damage than other areas. While the interconnected structure of the brain is essential to its function, these misfolded proteins commandeer that structure to travel through the brain and cause progressive degeneration, said Michael X. Henderson, Ph.D., an assistant professor at Van Andel Institute and corresponding author of the study. By understanding how these proteins travel through the brain and what causes certain neurons to be at risk for damage, we c ....