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Purpose To investigate the effects of water-soluble dietary fibers (pectin, soybean fiber, and guar gum) on the bioavailability of quercetin glucoside mixture (Q3GM) comprising quercetin-3- O -glucoside (Q3G, 31.8%) and its glucose adducts. Methods Male Wistar/ST rats were fed test diet containing 0.7% Q3GM with or without 5% of each dietary fiber for 8 weeks. Total quercetin derivatives were evaluated with liquid chromatograph tandem mass spectrometry (LC–MS/MS) as total quercetin derivatives after enzymatic deconjugation in plasma, urine, and fecal samples on week 2, 4, 6 and 8. Quercetin glucuronides excreted in feces were also measured. Results Fiber feeding elevated cecal weight and reduced cecal pH, indicative of cecal fermentation promotion. Changes in plasma and urinary quercetin levels revealed three phases of quercetin metabolism, including cumulative, transient, and stable phases. On week 2, total quercetin derivatives were higher in plasma samples from three fiber-fed groups than those control groups; however, urinary excretion increased in fiber-fed groups on week 4. Soybean fiber upregulated plasma and urinary quercetin levels on week 6 and 8. Intestinal degradation of quercetin by bacteria, calculated from differences between aglycone ingestion and sum of urinary and fecal excretion, was suppressed after dietary fiber supplementation especially in pectin fiber, which may partly contribute to the increase in quercetin bioavailability. Fecal quercetin glucuronide excretion was high in soybean fiber-fed rats, suggestive of the reduction of β-glucuronidase in colon. Conclusion Water-soluble dietary fibers, especially soybean fiber, enhanced quercetin bioavailability after chronic feeding and may promote beneficial effects of quercetin on disease prevention.

A separation process was established to sequentially fractionate and recover three anti-inflammatory components derived from sugars, phycobiliprotein, and chlorophyll from the hot-air-dried thalli of the red alga dulse (Palmaria palmata). The developed process consisted of three steps, without the use of organic solvents. In Step I, the sugars were separated by disrupting the cell wall of the dried thalli with a polysaccharide-degrading enzyme, and a sugar-rich extract (E1) was obtained by precipitating the other components, which were simultaneously eluted by acid precipitation. In Step II, the residue suspension from Step I was digested with thermolysin to obtain phycobiliprotein-derived peptides (PPs), and a PP-rich extract (E2) was obtained by separating the other extracts using acid precipitation. In Step III, solubilized chlorophyll was obtained by heating the residue, which was acid-precipitated, neutralized, and re-dissolved to concentrate the chlorophyll-related components (Chls)-rich extract (E3). These three extracts suppressed inflammatory-cytokine secretion by lipopolysaccharide (LPS)-stimulated macrophages, confirming that the sequential procedure had no negative effects on the activities of any of the extracts. The E1, E2, and E3 were rich in sugars, PPs, and Chls, respectively, indicating that the anti-inflammatory components were effectively fractionated and recovered through the separation protocol.

High temperatures during seed development can affect the seed yield and quality in many crops. Here, we analyzed how high temperature alters the main seed storage compounds (lipid and protein) in soybean. At five days after R5 stage (initial seed filling stage), soybean plants were treated with control (20/20ºC day/night) and high temperature (30/30ºC day/night). After treatment, immature seed was sampled, analyzed for lipid and protein contents and for expression of seed storage compounds related genes. High temperature during seed filling increased lipid content but decreased protein content, associating with yield reduction. It increased the expression of two genes related to seed lipid biosynthesis (GmBCCP2 and GmKAS1) and genes for a lipid biosynthesis regulator (GmWRI1) and its transcription factor (GmDREBL), and decreased the expression of genes related to lipid degradation such as GmACXs. High temperature downregulated genes related to seed storage protein (GmGy1, GmGy2, GmGy4, GmGy5 and Gmβ-conglycinin) and upregulated genes for cysteine and aspartate proteinases. Therefore, high temperature during seed filling preferentially accumulates lipid than protein content in seed, although seed yield reduction was associated with lower seed protein content in soybean. Our study provides insights for further improvements of soybean seed oil under abiotic stress such as heat stress. Abbreviations: DAT: days after treatment; TF: transcription factor; DREBL: Dehydration-responsive Element-binding L; WRI1: Wrinkled 1; PK: Ketoacyl acyl carrier protein synthase 1; PEP: phosphoenolpyruvate; BCCP2: Biotin carboxyl carrier protein; KAS1: ketoacyl acyl carrier protein synthase 1; ACX: Acyl-coenzyme A peroxidase; MS: Malate synthase; PEPCK: Phosphoenolpyruvate carboxykinase; Gy: Glycinin; CysP: Cysteine Proteinase; SoyAP: Aspartic Proteinase; EF1b: Elongation factor 1b.

Objective To develop a new method of evaluating swallowing behaviour. Methods Sixty-nine healthy participants were divided into a younger (16 males and 16 females, mean age 39.09 ± 12.16 years) and older (18 males and 19 females, mean age 71.43 ± 5.50 years) group. The participants ingested water and yoghurt twice (directed and free swallowing) at rest and after performing simple daily life tasks (calculation and exercise). To measure swallowing frequency, we employed a smartphone-based, portable and neck-worn swallowing-sound-monitoring device. This device monitors swallowing behaviour continuously by collecting biological sounds from the neck without imposing behavioural restrictions. A neural network model of swallowing sound identification by deep learning was used for the subsequent evaluation. This device was used to obtain two types of saliva-swallowing sounds associated with different ingestants, at rest and after performing a stimulating task. Furthermore, we assessed the associated subjective psychological states. Results The younger group showed a higher directed swallowing frequency (for both water and yoghurt) than the older group did. Regarding the type of ingestant, the swallowing frequency for yoghurt was higher during free swallowing in both the young and the older groups. ‘Feeling calm’ was reported significantly more often in the older group after swallowing yoghurt following exercise. Conclusions Swallowing status in daily life was measured non-invasively using a wearable mobile device. It is important to consider the type of ingestant, daily living activities, and age when assessing swallowing.

We analysed the effects of waterlogging during different reproductive stages in soybean. Short-term waterlogged condition at the full pod and beginning seed stages was the strong for decreasing yield with less pod number. The yield loss by waterlogged conditions was mainly caused by decreasing pod number. Additionally, soybean plants under waterlogged conditions decreased photosynthesis rate and the number of nodules. The expression of GmATG8c, autophagy-related gene, increased after waterlogged conditions. Foliar nitrogen application after waterlogged conditions mitigated yield loss. Photosynthetic rate was restored by foliar nitrogen application, but the number of nodules was not recovered. The expression of GmATG8c induced by waterlogged conditions was restored to control after the application. Taken together, soybean was the most sensitive to waterlogging at R4, leading to yield loss with decreasing in pod number.

There is no proven therapy for heart failure with preserved ejection fraction (HFpEF). Research has shown beneficial responses to cardiac rehabilitation (CR) among HF patients. To date, there are no reports comparing those responses between patients with HFpEF and those with reduced ejection fraction (HFrEF). The purpose of this study was to compare responses to CR in patients with HFpEF versus those with HFrEF. We included 78 consecutive patients (mean age 69 ± 15 years; 80% male) with HF in our CR unit who underwent cardiopulmonary exercise testing and brachial artery flow-mediated dilation (FMD) testing pre- and 5 months post-CR. Patients were judged as HFpEF (n = 40) or HFrEF (n = 38) using a left ventricular ejection fraction (LVEF) cut-off of 50%, and endothelial dysfunction was defined as FMD ≤ 5.0%. Following 155 ± 11 days and 44 ± 8 sessions, peak oxygen uptake (VO2) and plasma B-type natriuretic peptide concentrations improved significantly in both groups. The percentage change in peak VO2 of HFrEF patients was significantly greater than compared with the HFpEF patients (P < 0.01). To further investigate whether a combination of LVEF and FMD values predicts the effect of CR, we divided patients into four groups according to LVEF of 50% and FMD of 50%. Post hoc analysis showed a significant difference between HFrEF patients without endothelial dysfunction and HFpEF patients with endothelial dysfunction (P = 0.01). In conclusion, although CR improves prognosis in HF patients, a larger effect can be expected in HFrEF patients than in HFpEF patients, and endothelial function may enhance the effect.

Oxidative stress (OS) contributes to nonalcoholic steatohepatitis (NASH) and hepatocarcinogenesis. We investigated whether antioxidative self-assembling nanoparticles (SMAPoTN) could reduce the development of NASH and hepatocellular carcinoma (HCC) in p62/Sqstm1 and Nrf2 double knockout (DKO) mice and studied protective mechanisms. We measured disease development in male DKO mice fed a normal chow (NASH model) or a 60% high-fat diet (HFD; HCC model) with or without SMAPoTN administration for 26 weeks. SMAPoTN inhibited liver fibrosis in both groups and prevented HCC development (0% vs. 33%, p < 0.05) in the HFD group. SMAPoTN reduced OS, inflammatory cytokine signaling, and liver fibrosis. RNA-sequencing revealed that SMAPoTN decreased endoplasmic reticulum stress signaling genes in both groups, HCC driver genes, and cancer pathway genes, especially PI3K-AKT in the HFD groups. In the SMAPoTN treatment HFD group, serum lipopolysaccharide levels and liver lipopolysaccharide-binding protein expression were significantly lower compared with those in the nontreatment group. SMAPoTN improved the α-diversity of gut microbiota, and changed the microbiota composition. Oral SMAPoTN administration attenuated NASH development and suppressed hepatocarcinogenesis in DKO mice by improving endoplasmic reticulum stress in the liver and intestinal microbiota. SMAPoTN may be a new therapeutic option for NASH subjects and those with a high HCC risk.

Pod is an important organ for seed production in soybean. Pod size varies among soybean cultivars, but the mechanism is largely unknown. Here we reveal one of the factors for pod size regulation. We investigate pod size differences between two cultivars. The longer pod of ‘Tachinagaha’ is due to more cell number than in the short pod of ‘Iyodaizu’. POD SIZE OF SOYBEAN 8 ( GmPSS8 ), a member of the heat shock protein 70 (HSP70 ) family, is identified as a candidate gene for determining pod length in a major QTL for pod length. Expression of GmPSS8 in pods is higher in ‘Tachinagaha’ than ‘Iyodaizu’ and is highest in early pod development. The difference in expression is the result of an in/del polymorphism　which includes an enhancer motif. Treatment with an HSP70 inhibitor reduces pod length and cell number in the pod. Additionally, shorter pods in Arabidopsis hsp70-1/-4 double mutant are rescued by overexpression of GmPSS8 . Our results identify GmPSS8 as a target gene for pod length, which regulates cell number during early pod development through regulation of transcription in soybean. Our findings provide the mechanisms of pod development and suggest possible strategies enhancing yield potential in soybean. The pod is a crucial organ for soybean seed production. One of the HSP70 family genes is associated with pod size regulation mediated by duration of cell proliferation.

The ferromagnetic properties of Tb2Co2Ga, crystallizing into an orthorhombic W2CoB2-type structure, were investigated by preparing 11 polycrystalline samples with different starting atomic compositions. We found that Tb2Co2Ga possesses a homogeneity range in the ternary phase diagram. The Curie temperature TC is sensitive to the atomic composition and ranges rather widely, i.e., from 75 to 145 K. For the samples with a TC above 90 K, the nearest Tb–Tb and the Tb–Co distances would be important factors deciding TC, considering the RKKY interaction through the hybridization between Tb and Co atoms. An anisotropic change of two kinds of Co–Tb–Co angles in the octahedron formed by two Tb and four Co atoms occurs in the samples with a TC lower than 90 K. Such a change of octahedral parameters seems to be related to a difference of shapes in the ac magnetization anomaly at TC between the samples in the lowest TC (~ 75 K) group and those in the other groups.

Pod size of soybean is an important factor in the determination of seed weight. However, little is known about pod growth of soybean. Brassinosteroid, a group of phytohormones, regulate the pod growth of faba bean. We therefore investigated the role of brassinosteroid in pod growth of soybean. We measured pod length and cell number and cell area in pods treated with a brassinosteroid biosynthesis inhibitor. The inhibitor suppressed pod growth through the reduction of cell area. We then examined pod morphology and the expression of brassinosteroid biosynthesis ( GmCYP450 85A1 , 2 and 3 ) and response ( GmBZR1 , GmBES1 and GmBRU1 ) genes in the pods of two cultivars that differ in pod size. The difference in pod size was attributable to cell area, and the expression of brassinosteroid biosynthesis and response genes in pods was higher in the cultivar that has large pods. These results suggest that pod size of soybean is regulated through cell hypertrophy caused by brassinosteroid.