© 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.Conjugated materials can, in many cases, absorb visible light because of their delocalized π electron system. Such materials have been widely used as a photoactive layers in organic photovoltaic devices and as photosensitizers in dye-sensitized solar cells. Additionally, these materials have been reported for applications in solar fuel production, working as photocatalysts for the hydrogen evolution reaction (HER). The synthesis of three flexible vinyl groups-containing chromophores is reported. The catalytic activity towards hydrogen evolution of these chromophores has been investigated and compared to their non-vinyl-containing analogues. The catalytic effect was confirmed using two different approaches electrochemical, using the chromophores to modify a working electrode, and photocatalytic, using the chromophores combined with platinum nanoparticles. A relationship between the degree of conjugation and the catalytic activity of the chromophores has been observed with the electrochemical method, while a relationship between the UV absorption in the solid state and the photocatalytic effect with platinum nanoparticles was observed. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.The chemical recycling of end-of-life polymers can add some value to a future circular economy. In this regard, the hydrogenative degradation of end-of-life PLA was investigated to produce 1,2-propanediol as product, which is a useful building block in polymer chemistry. In more detail, the commercially available Ru-MACHO-BH complex was applied as catalyst to degrade end-of-life PLA efficiently to 1,2-propanediol under mild conditions. After investigations of the reaction conditions a set of end-of-life PLA goods were subjected to degradation. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.Rotaxane building blocks bearing 3,5-bis(trifluoromethyl) benzenesulfonate (BTBS) stoppers have been efficiently prepared from a pillar[5]arene derivative, 3,5-bis(trifluoromethyl) benzenesulfonyl chloride (BTBSCl) and different diols, namely 1,10-decanediol and 1,12-dodecanediol. The BTBS moieties of these compounds are good leaving groups and stopper exchange reactions could be achieved by treatment with different nucleophiles thus affording rotaxanes with ester, thioether or ether stoppers. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.DNA was used as supramolecular scaffold to order chromophores and control their optical properties. Ethynylpyrene as energy donor was attached to 2'-desoxy-2-aminoadenosine that binds selectively to thymidines (T) in the template. Ethynylperylene as acceptor was attached to 2'-desoxyuridine that is complementary to 2'-desoxyadenosine (A). https://www.selleckchem.com/products/ykl5-124.html This donor-acceptor pair was assembled along single-stranded DNA templates of different A-T sequences to investigate the sequence control of the energy transfer between the chromophores. The fluorescence intensities increase in the mixed assemblies along the DNA templates from A10T10 over (AATT)5 to (AT)10, although these templates provide equal numbers of potential binding sites for the two different nucleoside chromophore conjugates and exhibit similar absorbances. This shows that the sequence selective assembly of the two building blocks along DNA templates is programmable and alters the fluorescence readout. Such sequence-controlled supramolecular chemistry represents the key element for future functional π-systems in materials for light harvesting of solar energy. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.Invited for this month's cover are Iwona and Jean-François Nierengarten from the University of Strasbourg. The cover picture shows the structure of a [2]rotaxane building block bearing 3,5-bis(trifluoromethyl) benzenesulfonate (BTBS) stoppers. The BTBS moieties of this compound are good leaving groups allowing to perform stopper exchange by treatment with different nucleophiles to afford the corresponding rotaxanes with ester, ether or thioether stoppers. Read the full text of their Full Paper at https//doi.org/10.1002/open.202000035. © 2020 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim.The study aims to determine the timing of application for high efficacy of Metarhizium anisopliae as a biocontrol agent. A field experiment was undertaken with M. anisopliae applied to the soil at five intervals during the peanut crop lifecycle, at seed germination (day 0) through to pod filling period [75 days after sowing (DAS)], and assessed the change of M. anisopliae density by sampling rhizospheric soil, subsequently at regular intervals and testing counts (CFU/g dry soil) through to harvest. The crop was sown into soil with an established white grub population, with larval density determined at harvest when the trial was concluded. Applications at 0, 15 and 30 days in the crop growth cycle, saw M. anisopliae mean propagule counts drop significantly after 15 days before increasing over the following 15-45 days. We observed an elevated mean increase in counts 30-45 days after application at the early flowering stage (30 DAS). Irrespective of application timing, in general, M. anisopliae densities declined to less than the initial 10% in the late stages of peanut development. At harvest, larval densities in all M. anisopliae treatments were significantly less compared to the control, with the highest mortality (72%) in M. anisopliae treatment applied at early flowering (30 DAS). Relationship analysis showed that white grub density was significantly related to peanut yield. A regression of yield on number of damaged pods also supported that treatment at the early flowering caused the highest impact in terms of reducing damage to pods and improving yield. These results suggest that applying M. anisopliae at the early flowering stage optimizes survival of M. anisopliae in the soil profile, meaning greater probability of larvae contacting the pathogen, leading to greater mortality. © King Abdulaziz City for Science and Technology 2020.This study explored the effect of methyl-indole on pancreatic cancer cell viability and investigated the mechanism involved. The viability of pancreatic cells showed a significant suppression on treatment with methyl-indole in dose-based manner. Treatment with 5 µM methyl-indole suppressed Capan-1 cell viability to 23%. The viability of Aspc-1 cells was reduced to 20% and those of MIApaCa-2 cells to 18% by 5 µM methyl-indole. The apoptotic proportion of Capan-1 cells was 67%, while as those of Aspc-1 and MIApaCa-2 cells increased to 72 and 77%, respectively, on treatment with 5 µM methyl-indole. The level of P13K, p-Tyr, p-Crkl and p-Akt was inhibited in the cells by methyl-indole. Moreover, methyl-indole also suppressed zinc-finger protein, X-linked mRNA and protein expression in tested cells. In summary, methyl-indole exhibits anti-proliferative effect on pancreatic cancer cells and induces apoptosis. It targeted ZFX expression and down-regulated P13K/AKT pathway in pancreatic cancer cells. Therefore, methyl-indole acts as therapeutic agent for pancreatic cancer and may be studied further.
© 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.Conjugated materials can, in many cases, absorb visible light because of their delocalized π electron system. Such materials have been widely used as a photoactive layers in organic photovoltaic devices and as photosensitizers in dye-sensitized solar cells. Additionally, these materials have been reported for applications in solar fuel production, working as photocatalysts for the hydrogen evolution reaction (HER). The synthesis of three flexible vinyl groups-containing chromophores is reported. The catalytic activity towards hydrogen evolution of these chromophores has been investigated and compared to their non-vinyl-containing analogues. The catalytic effect was confirmed using two different approaches electrochemical, using the chromophores to modify a working electrode, and photocatalytic, using the chromophores combined with platinum nanoparticles. A relationship between the degree of conjugation and the catalytic activity of the chromophores has been observed with the electrochemical method, while a relationship between the UV absorption in the solid state and the photocatalytic effect with platinum nanoparticles was observed. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.The chemical recycling of end-of-life polymers can add some value to a future circular economy. In this regard, the hydrogenative degradation of end-of-life PLA was investigated to produce 1,2-propanediol as product, which is a useful building block in polymer chemistry. In more detail, the commercially available Ru-MACHO-BH complex was applied as catalyst to degrade end-of-life PLA efficiently to 1,2-propanediol under mild conditions. After investigations of the reaction conditions a set of end-of-life PLA goods were subjected to degradation. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.Rotaxane building blocks bearing 3,5-bis(trifluoromethyl) benzenesulfonate (BTBS) stoppers have been efficiently prepared from a pillar[5]arene derivative, 3,5-bis(trifluoromethyl) benzenesulfonyl chloride (BTBSCl) and different diols, namely 1,10-decanediol and 1,12-dodecanediol. The BTBS moieties of these compounds are good leaving groups and stopper exchange reactions could be achieved by treatment with different nucleophiles thus affording rotaxanes with ester, thioether or ether stoppers. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.DNA was used as supramolecular scaffold to order chromophores and control their optical properties. Ethynylpyrene as energy donor was attached to 2'-desoxy-2-aminoadenosine that binds selectively to thymidines (T) in the template. Ethynylperylene as acceptor was attached to 2'-desoxyuridine that is complementary to 2'-desoxyadenosine (A). https://www.selleckchem.com/products/ykl5-124.html This donor-acceptor pair was assembled along single-stranded DNA templates of different A-T sequences to investigate the sequence control of the energy transfer between the chromophores. The fluorescence intensities increase in the mixed assemblies along the DNA templates from A10T10 over (AATT)5 to (AT)10, although these templates provide equal numbers of potential binding sites for the two different nucleoside chromophore conjugates and exhibit similar absorbances. This shows that the sequence selective assembly of the two building blocks along DNA templates is programmable and alters the fluorescence readout. Such sequence-controlled supramolecular chemistry represents the key element for future functional π-systems in materials for light harvesting of solar energy. © 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.Invited for this month's cover are Iwona and Jean-François Nierengarten from the University of Strasbourg. The cover picture shows the structure of a [2]rotaxane building block bearing 3,5-bis(trifluoromethyl) benzenesulfonate (BTBS) stoppers. The BTBS moieties of this compound are good leaving groups allowing to perform stopper exchange by treatment with different nucleophiles to afford the corresponding rotaxanes with ester, ether or thioether stoppers. Read the full text of their Full Paper at https//doi.org/10.1002/open.202000035. © 2020 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim.The study aims to determine the timing of application for high efficacy of Metarhizium anisopliae as a biocontrol agent. A field experiment was undertaken with M. anisopliae applied to the soil at five intervals during the peanut crop lifecycle, at seed germination (day 0) through to pod filling period [75 days after sowing (DAS)], and assessed the change of M. anisopliae density by sampling rhizospheric soil, subsequently at regular intervals and testing counts (CFU/g dry soil) through to harvest. The crop was sown into soil with an established white grub population, with larval density determined at harvest when the trial was concluded. Applications at 0, 15 and 30 days in the crop growth cycle, saw M. anisopliae mean propagule counts drop significantly after 15 days before increasing over the following 15-45 days. We observed an elevated mean increase in counts 30-45 days after application at the early flowering stage (30 DAS). Irrespective of application timing, in general, M. anisopliae densities declined to less than the initial 10% in the late stages of peanut development. At harvest, larval densities in all M. anisopliae treatments were significantly less compared to the control, with the highest mortality (72%) in M. anisopliae treatment applied at early flowering (30 DAS). Relationship analysis showed that white grub density was significantly related to peanut yield. A regression of yield on number of damaged pods also supported that treatment at the early flowering caused the highest impact in terms of reducing damage to pods and improving yield. These results suggest that applying M. anisopliae at the early flowering stage optimizes survival of M. anisopliae in the soil profile, meaning greater probability of larvae contacting the pathogen, leading to greater mortality. © King Abdulaziz City for Science and Technology 2020.This study explored the effect of methyl-indole on pancreatic cancer cell viability and investigated the mechanism involved. The viability of pancreatic cells showed a significant suppression on treatment with methyl-indole in dose-based manner. Treatment with 5 µM methyl-indole suppressed Capan-1 cell viability to 23%. The viability of Aspc-1 cells was reduced to 20% and those of MIApaCa-2 cells to 18% by 5 µM methyl-indole. The apoptotic proportion of Capan-1 cells was 67%, while as those of Aspc-1 and MIApaCa-2 cells increased to 72 and 77%, respectively, on treatment with 5 µM methyl-indole. The level of P13K, p-Tyr, p-Crkl and p-Akt was inhibited in the cells by methyl-indole. Moreover, methyl-indole also suppressed zinc-finger protein, X-linked mRNA and protein expression in tested cells. In summary, methyl-indole exhibits anti-proliferative effect on pancreatic cancer cells and induces apoptosis. It targeted ZFX expression and down-regulated P13K/AKT pathway in pancreatic cancer cells. Therefore, methyl-indole acts as therapeutic agent for pancreatic cancer and may be studied further.
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