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IMAGE: A. The regulation of SLAC1 control of stomatal aperture; B. The cryo-EM structure of plant SLAC1; C. The electrophysiological characterization of key phosphorylation residues in SLAC1. view more
Credit: IGDB
Stomata, formed by a pair of kidney-shaped guard cells, are tiny pores in leaves. They act like mouths that plants use to eat and breathe. When they open, carbon dioxide (CO
2) enters the plant for photosynthesis and oxygen (O
2) is released into the atmosphere. At the same time as gases pass in and out, a great deal of water also evaporates through the same pores by way of transpiration.
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Credit: IOCAS
Earthquakes and volcanoes in subduction zones may cause great human catastrophe. Previous studies on subduction zone structure and causal mechanisms of giant megathrust earthquakes (M ≥ 9.0) have mainly focused on aspects like subducting plates and plate interfaces.
In contrast, the oceanic asthenosphere structure beneath the subducting slab (at depths of 100-250 km) and its influence on the nucleation of giant megathrust earthquakes have not been well studied.
Recently, Dr. FAN Jianke from the Institute of Oceanology of the Chinese Academy of Sciences (IOCAS) and Prof. ZHAO Dapeng from Tohoku University turned their attention to this problem by investigating the oceanic asthenosphere structure of six subduction zones where giant earthquakes have occurred.
Credit: IGDB
A mechanistic understanding of brain development requires a systematic survey of neural progenitor cell types, their lineage specification and maturation of postmitotic neurons. Cumulative evidences based on single-cell transcriptomic analysis have revealed the heterogeneity of cortical neural progenitors, their temporal patterning and the developmental trajectories of excitatory and inhibitory neurons in the developing neocortex. Nevertheless, the developmental hierarchy of the hypothalamus, which contains an astounding diversity of neurons that regulate endocrine, autonomic and behavioral functions, has not been well understood.
Recently, however, Prof. WU Qingfeng s group from the Institute of Genetics and Developmental Biology of the Chinese Academy of Sciences (CAS) conducted a study focusing on the origin of this neuronal diversity. For their work, they profiled the transcriptome of 43,261 hypothalamic neural cells to map the developmental landscape of the mou
Study Shows Abnormal Enhancement of a-Particle Clustering in Uranium Isotopes
Written by AZoMApr 19 2021
In nuclear physics research, the discovery of new isotopes with extreme proton/neutron numbers is always fascinating. The α-decay in the heavy nuclei region is one of the ubiquitous decay modes and has a crucial role in the search for new isotopes.
The illustration of the enhanced α-particle preformation in
214,
216U deduced by the strong proton-neutron interaction. Image Credit: Zhiyuan Zhang.
But even after nearly a century of analyzing α-decay, researchers are still unable to perfectly explain how the α-particle forms at the nucleus surface before it is emitted.
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