BPG4 regulates chloroplast development and homeostasis by suppressing GLK transcription factors and involving light and brassinosteroid signaling

葉緑体の発達を適正に制御する新しい因子を発見. 京都大学プレスリリース. 2024-01-23.Chloroplast development adapts to the environment for performing suitable photosynthesis. Brassinosteroids (BRs), plant steroid hormones, have crucial effects on not only plant growth but also chloroplast development. However, the detailed molecular mechanisms of BR signaling in chloroplast development remain unclear. Here, we identify a regulator of chloroplast development, BPG4, involved in light and BR signaling. BPG4 interacts with GOLDEN2-LIKE (GLK) transcription factors that promote the expression of photosynthesis-associated nuclear genes (PhANGs), and suppresses their activities, thereby causing a decrease in the amounts of chlorophylls and the size of light-harvesting complexes. BPG4 expression is induced by BR deficiency and light, and is regulated by the circadian rhythm. BPG4 deficiency causes increased reactive oxygen species (ROS) generation and damage to photosynthetic activity under excessive high-light conditions. Our findings suggest that BPG4 acts as a chloroplast homeostasis factor by fine-tuning the expression of PhANGs, optimizing chloroplast development, and avoiding ROS generation

Upper mantle electrical resistivity structure beneath the central Mariana subduction system

Author Posting. © American Geophysical Union, 2010. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geochemistry Geophysics Geosystems 11 (2010): Q09003, doi:10.1029/2010GC003101.This paper reports on a magnetotelluric (MT) survey across the central Mariana subduction system, providing a comprehensive electrical resistivity image of the upper mantle to address issues of mantle dynamics in the mantle wedge and beneath the slow back-arc spreading ridge. After calculation of MT response functions and their correction for topographic distortion, two-dimensional electrical resistivity structures were generated using an inversion algorithm with a smoothness constraint and with additional restrictions imposed by the subducting slab. The resultant isotropic electrical resistivity structure contains several key features. There is an uppermost resistive layer with a thickness of up to 150 km beneath the Pacific Ocean Basin, 80–100 km beneath the Mariana Trough, and 60 km beneath the Parece Vela Basin along with a conductive mantle beneath the resistive layer. A resistive region down to 60 km depth and a conductive region at greater depth are inferred beneath the volcanic arc in the mantle wedge. There is no evidence for a conductive feature beneath the back-arc spreading center. Sensitivity tests were applied to these features through inversion of synthetic data. The uppermost resistive layer is the cool, dry residual from the plate accretion process. Its thickness beneath the Pacific Ocean Basin is controlled mainly by temperature, whereas the roughly constant thickness beneath the Mariana Trough and beneath the Parece Vela Basin regardless of seafloor age is controlled by composition. The conductive mantle beneath the uppermost resistive layer requires hydration of olivine and/or melting of the mantle. The resistive region beneath the volcanic arc down to 60 km suggests that fluids such as melt or free water are not well connected or are highly three-dimensional and of limited size. In contrast, the conductive region beneath the volcanic arc below 60 km depth reflects melting and hydration driven by water release from the subducting slab. The resistive region beneath the back-arc spreading center can be explained by dry mantle with typical temperatures, suggesting that any melt present is either poorly connected or distributed discontinuously along the strike of the ridge. Evidence for electrical anisotropy in the central Mariana upper mantle is weak.Japanese participation in the Marianas experiment was supported by Japan Society for the Promotion of Science for Grant-In-Aid for Scientific Research (15340149 and 12440116), Japan-U.S. Integrated Action Program and the 21st Century COE Program of Origin and Evolution of Planetary Systems, and by the Ministry of Education, Culture, Sports, Science, and Technology for the Stagnant Slab Project, Grant-in Aid for Scientific Research on Priority Areas (17037003 and 16075204). U.S. participation was supported by NSF grant OCE0405641. Australian support came from Flinders University. T. M. is supported by the Postdoctoral Scholar Program at the Woods Hole Oceanographic Institution, with funding provided by the Deep Ocean Exploration Institute

A horizontally transferred tRNACys gene in the sugar beet mitochondrial genome: evidence that the gene is present in diverse angiosperms and its transcript is aminoacylated

Of the two tRNACys(GCA) genes, trnC1-GCA and trnC2-GCA, previously identified in mitochondrial genome of sugar beet, the former is a native gene and probably a pseudo copy, whereas the latter, of origin unknown, is transcribed into a tRNA [tRNACys2(GCA)]. In this study, the trnC2-GCA sequence was mined from various public databases. To evaluate whether or not the trnC2-GCA sequence is located in the mitochondrial genome, the relative copy number of its sequence was assessed in a number of angiosperm species, using a quantitative real time PCR assay. The trnC2-GCA sequence was found to exist sporadically in the mitochondrial genomes of a wide range of angiosperms. The mitochondrial tRNACys2(GCA) species from sugar beet, spinach and cucumber were found to be aminoacylated, indicating that they may participate in translation. We also identified a sugar beet nuclear gene that encodes cysteinyl-tRNA synthetase, which is dual-targeted to mitochondria and plastids, and may aminoacylate tRNACys2(GCA). What is of particular interest is that trnC1-GCA and trnC2-GCA co-exist in the mitochondrial genomes of eight diverse angiosperms, including spinach, and that the spinach tRNACys1(GCA) is also aminoacylated. Taken together, our observations lead us to surmise that trnC2-GCA might have been horizontally transferred to a common ancestor of eudicots, followed by co-existence and dual-expression of trnC1-GCA and trnC2-GCA in mitochondria with occasional loss or inactivation of either trnC-GCA gene during evolution

Patients' and families' opinions via suggestion boxes for improving hospital care for cancer patients: Analysis of 3419 cases over 11 years

Abstract Background There has been a paradigm shift in cancer treatment from curing disease to both curing disease and caring for patients. In terms of care for patients, the opinions of patients and their families are important for improving medical services. Aim The opinions of patients and families were collected at Shizuoka Cancer Center (SCC) and examined from the standpoint of characteristics, response status, and temporal changes. Methods Patients' and families' opinions submitted to suggestion boxes at SCC over an 11‐year period (2005–2015) were analyzed. Opinions were categorized as complaints or compliments, with sub‐categories including “facilities, goods, and medical care,” “people,” “time,” and “other.” The status of facilities' response to complaints was categorized as “responded,” “did not respond”, and “difficult to respond”. Results Changes in the number of opinions and content over time were examined. In total, 3419 opinions were collected; 69.1% were complaints, and 30.5% were compliments. Of the complaints, 53.4% were related to “facilities, goods, and medical care” (mainly focusing on “poor product quality” and “shortage of goods”), 38.7% were related to “people,” and 7.7% to “time.” Of the compliments, 82.4% were about “people,” all of which concerned facility staff. Facilities' responses to complaints were as follows: “responded” (42.4%), “did not respond” (14.3%), and “difficult to respond” (43.3%). Conclusion Understanding patients' and families' opinions is effective for strengthening trust between patients and healthcare professionals, promoting holistic care

Recovery and separation of rare Earth elements using salmon milt.

Recycling rare earth elements (REEs) used in advanced materials such as Nd magnets is important for the efficient use of REE resources when the supply of several REEs is limited. In this work, the feasibility of using salmon milt for REE recovery and separation was examined, along with the identification of the binding site of REEs in salmon milt. Results showed that (i) salmon milt has a sufficiently high affinity to adsorb REEs and (ii) the adsorption capacity of the milt is 1.04 mEq/g, which is comparable with that of commercial cation exchange resin. Heavier REEs have higher affinity for milt. A comparison of stability constants and adsorption patterns of REEs discussed in the literature suggests that the phosphate is responsible for the adsorption of REE in milt. The results were supported by dysprosium (Dy) and lutetium (Lu) LIII-edge extended x-ray absorption fine structure (EXAFS) spectroscopy. The REE-P shell was identified for the second neighboring atom, which shows the importance of the phosphate site as REE binding sites. The comparison of REE adsorption pattern and EXAFS results between the milt system and other adsorbent systems (cellulose phosphate, Ln-resin, bacteria, and DNA-filter hybrid) revealed that the coordination number of phosphate is correlated with the slope of the REE pattern. The separation column loaded with milt was tested to separate REE for the practical use of salmon milt for the recovery and separation of REE. However, water did not flow through the column possibly because of the hydrophobicity of the milt. Thus, sequential adsorption-desorption approach using a batch-type method was applied for the separation of REE. As an example of the practical applications of REE separation, Nd and Fe(III) were successfully separated from a synthetic solution of Nd magnet waste by a batch-type method using salmon milt