Shape–motion relationships of centering microtubule asters

Although mechanisms that contribute to microtubule (MT) aster positioning have been extensively studied, still little is known on how asters move inside cells to faithfully target a cellular location. Here, we study sperm aster centration in sea urchin eggs, as a stereotypical large-scale aster movement with extreme constraints on centering speed and precision. By tracking three-dimensional aster centration dynamics in eggs with manipulated shapes, we show that aster geometry resulting from MT growth and interaction with cell boundaries dictates aster instantaneous directionality, yielding cell shape–dependent centering trajectories. Aster laser surgery and modeling suggest that dynein-dependent MT cytoplasmic pulling forces that scale to MT length function to convert aster geometry into directionality. In contrast, aster speed remains largely independent of aster size, shape, or absolute dynein activity, which suggests it may be predominantly determined by aster growth rate rather than MT force amplitude. These studies begin to define the geometrical principles that control aster movements.     

Green and Red Brazilian Propolis: Antimicrobial Potential and Anti-Virulence against ATCC and Clinically Isolated Multidrug-Resistant Bacteria

Brazilian green and red propolis stand out as commercial products for different medical applications. In this article, we report the antimicrobial activities of the hydroalcoholic extracts of green (EGP) and red (ERP) propolis, as well as guttiferone E plus xanthochymol (8) and oblongifolin B (9) from red propolis, against multidrug-resistant bacteria (MDRB). We undertook the minimal inhibitory (MIC) and bactericidal (MBC) concentrations, inhibition of biofilm formation (MICB₅₀), catalase, coagulase, DNase, lipase, and hemolysin assays, along with molecular docking simulations. ERP was more effective by displaying MIC and MBC values <100 μg mL⁻¹. Compounds 8 and 9 displayed the lowest MIC values (0.98 to 31.25 μg mL⁻¹) against all tested Gram-positive MDRB. They also inhibited the biofilm formation of S. aureus (ATCC 43300 and clinical isolate) and S. epidermidis (ATCC 14990 and clinical isolate), with MICB₅₀ values between 1.56 and 6.25 μg mL⁻¹. The molecular docking results indicated that 8 and 9 might interact with the catalase's amino acids. Compounds 8 and 9 have great antimicrobial potential.     

Characterization of a bicistronic knock-in reporter mouse model for investigating the role of CABLES2 in vivo

Two members of the CDK5 and ABL enzyme substrate (CABLES) family, CABLES1 and CABLES2, share a highly homologous C-terminus. They interact and associate with cyclin-dependent kinase 3 (CDK3), CDK5, and c-ABL. CABLES1 mediates tumor suppression, regulates cell proliferation, and prevents protein degradation. Although Cables2 is ubiquitously expressed in adult mouse tissues at RNA level, the role of CABLES2 in vivo remains unknown. Here, we generated bicistronic Cables2 knock-in reporter mice that expressed CABLES2 tagged with 3×FLAG and 2A-mediated fluorescent reporter tdTomato. Cables2-3×FLAG-2A-tdTomato (Cables2^Tom) mice confirmed the expression of Cables2 in various mouse tissues. Interestingly, high intensity of tdTomato fluorescence was observed in the brain, testis and ovary, especially in the corpus luteum. Furthermore, immunoprecipitation analysis using the brain and testis in Cables2^Tom/Tom revealed interaction of CABLES2 with CDK5. Collectively, our new Cables2 knock-in reporter model will enable the comprehensive analysis of in vivo CABLES2 function.     

Asymmetric reduction of alkyl aryl ketones in the binding domain of bovine serum albumin

The asymmetric reduction of alkyl aryl ketones with sodium borohydride (NaBH₄) or sodium cyanoborohydride (NaBH₃CN) in the presence of bovine serum albumin (BSA) was studied. The asymmetric induction in the product alcohols was largely dependent on the BSA concentration and the pH value of the buffer solution. The maximum optical yields obtained ranged over 14–78%, varying with the alkyl and aryl substituents, using ca. $\text{1}\text{3}$ molar eq of BSA to the ketone and at pH > 9. With two exceptions, the predominant enantiomer had the R configuration in 13 ketones investigated.     

Possible Involvement of Greening in Cell Growth of Suaeda japonica under Salt Stress

Suaeda japonica, a member of the family Chenopodiaceae, is ahalophyte that grows on the shores of the Ariake Sea in Japan.Using yellowish and selected green callus tissues of S. japonica,we examined the correlation between cell growth and glycinebetainecontent, as well as the activity of betaine aldehyde dehydrogenase(BADH), under salt stress. Although the growth of yellowishcallus tissues was markedly inhibited by 0.1 M NaCl, that ofgreen callus tissues was not. However, in 0.3 M NaCl, the freshweight of green callus tissues was decreased by 15%. Both theendogenous level of glycinebetaine and the activity of BADHin yellowish callus tissues were very low, but green callustissues contained very high levels of glycinebetaine and highBADH activity. The activity in green callus increased significantlywith increases in the concentration of NaCl. The increase inlevels of Chl was also observed, but the increase occurred earlierthan that in the level of glycinebetaine. Functional developmentof chloroplasts (an increase in the level of Chl) seems to beinvolved in the increase in the activity of BADH, and the resultantincrease in levels of glycinebetaine seems to facilitate callusgrowth under salt stress. (Received October 2, 1996; Accepted November 18, 1996)     

Glycyrrhizin and its derivatives promote hepatic differentiation via sweet receptor,Wnt, and Notch signaling

The acute liver disease is involved in aberrant release of high-mobility group box 1 (HMGB1). Glycyrrhizin (GL), a traditional Chinese medicine for liver disease, binds to HMGB1, thereby inhibits tissue injury. However the mode of action of GL for chronic liver disease remains unclear.We investigated the effects of glycyrrhizin (GL) and its derivatives on liver differentiation using human iPS cells by using a flow cytometric analysis.GL promoted hepatic differentiation at the hepatoblast formation stage. The GL derivatives, 3-O-mono-glucuronyl 18β-glycyrrhetinic acid (Mono) and 3-O-[glucosyl (1 → 2)-glucuronyl] 18β-glycyrrhetinic acid increased AFP⁺ cell counts and albumin⁺ cell counts. Glucuronate conjugation seemed to be a requirement for hepatic differentiation. Mono exhibited the most significant hepatic differentiation effect.We evaluated the effects of (±)-2-(2,4-dichlorophenoxy) propionic acid (DP), a T1R3 antagonist, and sucralose, a T1R3 agonist, on hepatic differentiation, and found that DP suppressed Mono-induced hepatic differentiation, while sucralose promoted hepatic differentiation. Thus, GL promoted hepatic differentiation via T1R3 signaling. In addition, Mono increased β-catenin⁺ cell count and decreased Hes5⁺ cell count suggesting the involvement of Wnt and Notch signaling in GL-induced hepatic differentiation.In conclusion, GL exerted a hepatic differentiation effect via sweet receptor (T1R3), canonical Wnt, and Notch signaling.