Tリンパ球の救命装置 Date: 02 December 2020 Category: Research Update Specialties Developmental biology Biochemistry Cell biology Genomics Molecular biology For press enquiries, please contact media@oist.jp Share on: Related Media Image Tリンパ球の異常細胞死の防止機構 Image 図1 T細胞 Image 図2 Tリンパ球の遺伝子発現解析 Image 図3 Bbc3遺伝子 Related News Research Update A Step toward Clarification of the Mechanisms of Osteoporosis The bone metabolism is largely regulated by hormones, but more recently, the involvement of an intracellular protein named CNOT has been discovered. Research Update Seeking the Causes of Hyperactivity In a recent paper, the Cell Signal Unit reported that mice, lacking an intracellular trafficking protein called LMTK3, are hyperactive. Research Update A surprising protein player in diabetes A study looking at pancreatic beta cells has found a link between a commonly found protein, a subset of switched-off genes and the development of diabetes. Research Update Key protein linked to appetite and obesity in mice Loss of a protein essential for degrading mRNA from the forebrain of mice leads to increased appetite and the onset of obesity, a new study finds. Research Update How Do Neurons Recognize Each Other at Synapses? In a paper in the June 5 issue of Neuron, researchers in the Cell Signal Unit and colleagues identified the mechanism behind how synapses assemble in cortico-basal ganglia circuits.
Research Update A Step toward Clarification of the Mechanisms of Osteoporosis The bone metabolism is largely regulated by hormones, but more recently, the involvement of an intracellular protein named CNOT has been discovered.
Research Update Seeking the Causes of Hyperactivity In a recent paper, the Cell Signal Unit reported that mice, lacking an intracellular trafficking protein called LMTK3, are hyperactive.
Research Update A surprising protein player in diabetes A study looking at pancreatic beta cells has found a link between a commonly found protein, a subset of switched-off genes and the development of diabetes.
Research Update Key protein linked to appetite and obesity in mice Loss of a protein essential for degrading mRNA from the forebrain of mice leads to increased appetite and the onset of obesity, a new study finds.
Research Update How Do Neurons Recognize Each Other at Synapses? In a paper in the June 5 issue of Neuron, researchers in the Cell Signal Unit and colleagues identified the mechanism behind how synapses assemble in cortico-basal ganglia circuits.