Category: 50-84-0

Authors Anastassiadou, M; Bernasconi, G; Brancato, A; Cabrera, LC; Ferreira, L; Greco, L; Jarrah, S; Kazocina, A; Leuschner, R; Magrans, JO; Miron, I; Nave, S; Pedersen, R; Reich, H; Rojas, A; Sacchi, A; Santos, M; Scarlato, AP; Theobald, A; Vagenende, B; Verani, A in EUROPEAN FOOD SAFETY AUTHORITY-EFSA published article about in [Anastassiadou, Maria; Bernasconi, Giovanni; Brancato, Alba; Cabrera, Luis Carrasco; Ferreira, Lucien; Greco, Luna; Jarrah, Samira; Kazocina, Aija; Leuschner, Renata; Magrans, Jose Oriol; Miron, Ileana; Nave, Stefanie; Pedersen, Ragnor; Reich, Hermine; Rojas, Alejandro; Sacchi, Angela; Santos, Miguel; Scarlato, Alessia Pia; Theobald, Anne; Vagenende, Benedicte; Verani, Alessia] European Food Safety Author EFSA, Parma, Italy in 2021, Cited 4. Safety of 2,4-Dichlorobenzoic acid. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0

The applicant Syngenta Crop Protection AG submitted a request to the competent national authority in Finland to evaluate the confirmatory data that were identified for propiconazole in the framework of the MRL review under Article 12 of Regulation (EC) No 396/2005 as not available. Following the decision on the non-renewal of the approval of propiconazole and the decision to lower the maximum residue levels (MRLs) for propiconazole to the limit of quantification (LOQ) for all commodities, the data gaps identified in the MRL review are no longer relevant. EFSA summarised some new studies on the toxicological profile of propiconazole metabolites CGA91305, SYN547889 and NOA436613, which were assessed by the rapporteur Member State. Overall, the available information is not sufficient to characterise the toxicological profile of metabolites convertible to 2,4-dichlorobenzoic acid as data gaps still exist for SYN547889, NOA436613, CGA118244, CGA118245, CGA91304 and CGA91305. (C) 2021 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.

Safety of 2,4-Dichlorobenzoic acid. Bye, fridends, I hope you can learn more about C7H4Cl2O2, If you have any questions, you can browse other blog as well. See you lster.

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Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

An article Novel panaxadiol triazole derivatives induce apoptosis in HepG-2 cells through the mitochondrial pathway WOS:000565189600007 published article about NATURAL-PRODUCT in [Xiao, Shengnan; Wang, Xude; Xu, Lei; Li, Tao; Cao, Jiaqing; Zhao, Yuqing] Shenyang Pharmaceut Univ, Sch Funct Food & Wine, Shenyang 110016, Peoples R China; [Zhao, Yuqing] Shenyang Pharmaceut Univ, Minist Educ, Key Lab Struct Based Drug Design & Discovery, Shenyang 110016, Peoples R China in 2020, Cited 33. HPLC of Formula: C7H4Cl2O2. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0

In this study, we introduced 1, 2, 4-triazole groups into panaxadiol (PD) to obtain 18 panaxadiol triazole derivatives. Five cancer cells and one normal cell were evaluated for cytotoxicity by MTT assay. The results showed that most of the derivatives could inhibit cancer cell proliferation, and the anti-proliferative activity of compound A1 was the most significant. For HepG-2 cells, the IC50 value was 4.21 +/- 0.54 mu M, which was nearly 15 times higher than the activity of PD. Further studies showed that compound A1 could induce apoptosis in HepG-2 cells, and could enhance the expression of Cl-caspase-3, Cl-caspase-9 and Cl-PARP. Moreover, Western blot analysis showed that after treating HepG-2 cells with compound A1, the expression of p53 protein was increased and the ratio of Bax/Bcl-2 was gradually increased. The cytoplasmic Bax is then translocated to the mitochondria, causing the release of Cyt c protein. Therefore, the results indicate that compound A1 induces apoptosis through the mitochondrial pathway and can be used the potential to develop new anti-proliferative agents.

HPLC of Formula: C7H4Cl2O2. Bye, fridends, I hope you can learn more about C7H4Cl2O2, If you have any questions, you can browse other blog as well. See you lster.

Reference:
Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

Harinath, A; Bhattacharjee, J; Panda, TK in [Harinath, Adimulam; Bhattacharjee, Jayeeta; Panda, Tarun K.] Indian Inst Technol Hyderabad, Dept Chem, Sangareddy 502285, Telangana, India published Facile reduction of carboxylic acids to primary alcohols under catalyst-free and solvent-free conditions in 2019, Cited 35. Category: chlorides-buliding-blocks. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0.

We report the development of a facile protocol for the deoxygenative hydroboration of aliphatic and aryl carboxylic acids to afford corresponding primary alcohols under solvent-free and catalyst-free conditions. The reaction proceeds under ambient temperature exhibits good tolerance towards various functional groups and generates quantitative yields. The plausible mechanism involves the formation of Lewis acid-base adducts as well as the liberation of hydrogen gas.

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In 2019 J MED CHEM published article about PLASMODIUM-BERGHEI; CATALYZED AMINATION; CYTOCHROME-B; LIVER-STAGE; MALARIA; VIVAX; CHALLENGES; RESISTANT; PROPHYLAXIS; MUTATIONS in [Dodean, Rozalia A.; Kancharla, Papireddy; Li, Yuexin; Winter, Rolf W.; Riscoe, Michael K.; Kelly, Jane X.] Portland State Univ, Dept Chem, Portland, OR 97201 USA; [Dodean, Rozalia A.; Li, Yuexin; Smilkstein, Martin J.; Pou, Sovitj; Winter, Rolf W.; Riscoe, Michael K.; Kelly, Jane X.] Dept Vet Affairs Med Ctr, Portland, OR 97239 USA; [Melendez, Victor; Read, Lisa; Bane, Charles E.; Vesely, Brian; Kreishman-Deitrick, Mara; Black, Chad; Li, Qigui; Sciotti, Richard J.; Olmeda, Raul; Thu-Lan Luong; Gaona, Heather; Potter, Brittney; Sousa, Jason; Marcsisin, Sean; Caridha, Diana; Xie, Lisa; Vuong, Chau; Zeng, Qiang; Zhang, Jing; Zhang, Ping; Lin, Hsiuling; Butler, Kirk; Roncal, Norma; Gaynor-Ohnstad, Lacy; Leed, Susan E.; Nolan, Christina] Walter Reed Army Inst Res, Div Expt Therapeut, Silver Spring, MD 20910 USA; [Huezo, Stephanie J.; Rasmussen, Stephanie A.; Cooper, Roland A.] Dominican Univ Calif, Dept Nat Sci & Math, San Rafael, CA 94901 USA; [Stephens, Melissa T.; Tan, John C.] Univ Notre Dame, Genom Core Facil, Notre Dame, IN 46556 USA; [Tan, John C.] Univ Notre Dame, Eck Inst Global Hlth, Notre Dame, IN 46556 USA in 2019, Cited 53. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0. COA of Formula: C7H4Cl2O2

Malaria remains one of the deadliest diseases in the world today. Novel chemoprophylactic and chemotherapeutic antimalarials are needed to support the renewed eradication agenda. We have discovered a novel antimalarial acridone chemotype with dual-stage activity against both liver stage and blood-stage malaria. Several lead compounds generated from structural optimization of a large library of novel acridones exhibit efficacy in the following systems: (1) picomolar inhibition of in vitro Plasmodium falciparum blood-stage growth against multidrug-resistant parasites; (2) curative efficacy after oral administration in an erythrocytic Plasmodium yoelii murine malaria model; (3) prevention of in vitro Plasmodium berghei sporozoite-induced development in human hepatocytes; and (4) protection of in vivo P. berghei sporozoite-induced infection in mice. This study offers the first account of liver-stage antimalarial activity in an acridone chemotype. Details of the design, chemistry, structure-activity relationships, safety, metabolic/pharmacokinetic studies, and mechanistic investigation are presented herein.

Welcome to talk about 50-84-0, If you have any questions, you can contact Dodean, RA; Kancharla, P; Li, YX; Melendez, V; Read, L; Bane, CE; Vesely, B; Kreishman-Deitrick, M; Black, C; Li, QG; Sciotti, RJ; Olmeda, R; Luong, TL; Gaona, H; Potter, B; Sousa, J; Marcsisin, S; Caridha, D; Xie, LS; Vuong, C; Zeng, Q; Zhang, J; Zhang, P; Lin, HL; Butler, K; Roncal, N; Gaynor-Ohnstad, L; Leed, SE; Nolan, C; Huezo, SJ; Rasmussen, SA; Stephens, MT; Tan, JC; Cooper, RA; Smilkstein, MJ; Pou, S; Winter, RW; Riscoe, MK; Kelly, JX or send Email.. COA of Formula: C7H4Cl2O2

Reference:
Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

SDS of cas: 50-84-0. Zhang, B; Dou, ZD; Xiong, Z; Wang, N; He, S; Yan, XJ; Jin, HX in [Zhang, Bin; Dou, Zhende; Xiong, Zheng; He, Shan; Yan, Xiaojun; Jin, Haixiao] Ningbo Univ, Coll Food & Pharmaceut Sci, Li Dak Sum Yip Yio Chin Kenneth Li Marine Biophar, Dept Marine Pharm, Ningbo 315800, Zhejiang, Peoples R China; [Wang, Ning] Ningbo Univ, Inst Drug Discovery Technol, Ningbo 315211, Zhejiang, Peoples R China; [Zhang, Bin; Wang, Ning] Tsinghua Shenzhen Int Grad Sch, State Key Lab Chem Oncogen, Key Lab Chem Biol, Shenzhen 518055, Peoples R China published Design, synthesis and biological research of novel N-phenylbenzamide-4-methylamine acridine derivatives as potential topoisomerase I/II and apoptosis-inducing agents in 2019, Cited 22. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0.

A series of novel N-phenylbenzamide-4-methylamine acridine derivatives were designed and synthesized based initially on the structure of amsacrine (m-AMSA). Molecular docking suggested that the representative compound 9a had affinity for binding DNA topoisomerase (Topo) II, which was comparable with that of m-AMSA, and furthermore that 9a could have preferential interactions with Topo I. After synthesis of 9a and analogues 9b-9f, these were all tested in vitro and the synthesized compounds displayed potent antiproliferative activity against three different cancer cell lines (K562, CCRF-CEM and U937). Among them, compounds 9b, 9c and 9d exhibiting the highest activity with IC50 value ranging from 0.82 to 0.91 mu M against CCRF-CEM cells. In addition, 9b and 9d also showed high antiproliferative activity against U937 cells, with IC50 values of 0.33 and 0.23 mu M, respectively. The pharmacological mechanistic studies of these compounds were evaluated by Topo I/II inhibition, western blot assay and cell apoptosis detection. In summary, 9b effectively inhibited the activity of Topo I/II and induced DNA damage in CCRF-CEM cells and, moreover, significantly induced cell apoptosis in a concentration-dependent manner. These observations provide new information and guidance for the structural optimization of more novel acridine derivatives.

SDS of cas: 50-84-0. Welcome to talk about 50-84-0, If you have any questions, you can contact Zhang, B; Dou, ZD; Xiong, Z; Wang, N; He, S; Yan, XJ; Jin, HX or send Email.

Reference:
Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

Wang, MF; Mi, Y; Hu, FL; Niu, Z; Yin, XH; Huang, Q; Wang, HF; Lang, JP in [Wang, Meng-Fan; Hu, Fei-Long; Niu, Zheng; Wang, Hui-Fang; Lang, Jian-Ping] Soochow Univ, Coll Chem Chem Engn & Mat Sci, Suzhou 215123, Peoples R China; [Wang, Meng-Fan; Mi, Yan; Hu, Fei-Long; Yin, Xian-Hong; Huang, Qin] Guangxi Univ Nationalities, Guangxi Key Lab Chem & Engn Forest Prod, Nanning 530006, Peoples R China published Coordination-Driven Stereospecific Control Strategy for Pure Cycloisomers in Solid-State Diene Photocycloaddition in 2020, Cited 49. HPLC of Formula: C7H4Cl2O2. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0.

To obtain a pure product without the isomer byproducts is a goal that many chemists are pursuing. As one kind of very important synthesis method, the photochemical reaction is simple and straightforward yet low-selective. In this work, a coordination interaction based oriented synthesis strategy has been proposed to realize the precise stereochemical control of the isomeric cyclic compounds in the photocycloaddition reaction. Through fixing the reactants via coordination interactions, the arrangements and configurations of the reactants can be adjusted, thereby successfully producing all of the related photocycloaddition products without isomer byproducts for the first time. This work not only provides a new route to synthesize the pure cyclic compounds but also expands the application of the photocycloaddition reaction.

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Reference:
Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

Authors Carballo-Arce, AF; Raina, V; Liu, SQ; Liu, R; Jackiewicz, V; Carranza, D; Arnason, JT; Durst, T in AMER CHEMICAL SOC published article about SYNERGIST in [Francis Carballo-Arce, Ana; Carranza, David] Univ Nacl, Escuela Quim, Heredia 863000, Costa Rica; [Francis Carballo-Arce, Ana; Raina, Vikrant; Jackiewicz, Victoria; Carranza, David; Durst, Tony] Univ Ottawa, Dept Chem & Biomol Sci, Ottawa, ON K1N 6N5, Canada; [Liu, Suqi; Liu, Rui; Arnason, John Thor] Univ Ottawa, Dept Biol, Ottawa, ON K1N 6N5, Canada in 2019, Cited 19. Safety of 2,4-Dichlorobenzoic acid. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0

Synthesis of 50 analogues of the natural insecticide synergists, dillapiol and sesamol, is reported. These were evaluated as potential insecticide synergists based on their inhibition of human CYP3A4. The most potent inhibitors have a relatively large hydrophobic substituent at either position 5 or 6 of these molecules. For example, 5-(benzyloxy)-6-(3-phenylsulfonyl)propyl)benzo[d] [1,3]dioxole (18) and the diphenyl acetate of (6,7-dimethoxybenzo[d] [1,3]dioxol-5-yl)propan-1-ol (5n) show inhibitory concentrations for 50% activity IC50 values of 0.086 and 0.2 mu M, respectively. These compounds are 106 and 46 times more potent than dillapiol whose IC50 for the inhibition of CYP3A4 is 9.2 mu M. The ortho-chloro analogue (8f), whose activity is 86 times the activity of dillapiol, is the most potent of the fourteen 5-(benzyloxy-6-(2-propenyl)benzo[d][1,3]dioxoles prepared for this study.

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Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

SDS of cas: 50-84-0. In 2020 WATER RES published article about POLYCYCLIC AROMATIC-HYDROCARBONS; WHITE-ROT FUNGUS; PLEUROTUS-OSTREATUS; POLYCHLORINATED-BIPHENYLS; CHLOROBENZOIC ACIDS; AGARICUS-BISPORUS; IN-VIVO; DEGRADATION; LACCASE; DECONTAMINATION in [Sredlova, Kamila; Skrob, Zdena; Filipova, Alena; Holecova, Jana; Cajthaml, Tomas] Charles Univ Prague, Fac Sci, Inst Environm Studies, Benatska 2, Prague 12801 2, Czech Republic; [Sredlova, Kamila; Skrob, Zdena; Filipova, Alena; Holecova, Jana; Cajthaml, Tomas] Czech Acad Sci, Inst Microbiol, Videnska 1083, Prague 14220 4, Czech Republic; [Masin, Pavel] DEKONTA As, Volutovo 2523, Prague 15800 5, Czech Republic in 2020, Cited 44. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0.

Due to their persistence, polychlorinated biphenyls (PCBs) represent a group of important environmental pollutants, but conventional physicochemical decontamination techniques for their removal are usually expensive. The main aim of this work was to develop a cost-effective method for PCB bioremediation, focusing on contaminated water and utilizing the well-known degradation capability of Pleurotus ostreatus (the oyster mushroom). For this purpose, the conditions of several laboratory-scale reactors (working volume 1 L) were optimized. Spent oyster mushroom substrate obtained from a commercial farm was used as a fungal inoculum and growth substrate. The highest degradation efficiency (87%) was recorded with a continuous low-flow setup, which was subsequently scaled up (working volume 500 L) and used for the treatment of 4000 L of real contaminated groundwater containing 0.1-1 mu g/L of PCBs. This trickle-bed pilot-scale bioreactor was able to remove 82, 80, 65, and 30-50% of di-, tri-, tetra- and pentachlorinated PCB congeners, respectively. No degradation was observed for hexa- or heptachlorinated congeners. Multiple mono- and dichlorobenzoic acids (CBAs) were identified as transformation products by mass spectrometry, confirming the role of biodegradation in PCB removal. A Vibrio fischeri bioluminescence inhibition test revealed slight ecotoxicity of the primary reactor effluent (sampling after 24 h), which was quickly suppressed once the effluent passed through the reactor for the second time. Moreover, no other effluent exhibited toxicity for the rest of the experiment (71 days in total). Microbial analyses (phospholipid fatty acid analysis and next-generation sequencing) showed that P. ostreatus was able to degrade PCBs in the presence of an abundance of other fungal species as well as aerobic and anaerobic bacteria. Overall, this study proved the suitability of the use of spent oyster mushroom substrate in a bioremediation practice, even for pollutants as recalcitrant as PCBs. (C) 2019 Elsevier Ltd. All rights reserved.

Welcome to talk about 50-84-0, If you have any questions, you can contact Sredlova, K; Skrob, Z; Filipova, A; Masin, P; Holecova, J; Cajthaml, T or send Email.. SDS of cas: 50-84-0

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Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

I found the field of Chemistry; Science & Technology – Other Topics very interesting. Saw the article Exploiting a silver-bismuth hybrid material as heterogeneous noble metal catalyst for decarboxylations and decarboxylative deuterations of carboxylic acids under batch and continuous flow conditions published in 2021. Category: chlorides-buliding-blocks, Reprint Addresses Fulop, F (corresponding author), Univ Szeged, Inst Pharmaceut Chem, Eotvos U 6, H-6720 Szeged, Hungary.; Varga, G (corresponding author), Univ Szeged, Mat & Solut Struct Res Grp, Aradi Vertanuk Tere 1, H-6720 Szeged, Hungary.; Varga, G (corresponding author), Univ Szeged, Interdisciplinary Excellence Ctr, Inst Chem, Aradi Vertanuk Tere 1, H-6720 Szeged, Hungary.; Varga, G (corresponding author), Univ Szeged, Dept Phys Chem & Mat Sci, Rerrich Bela Ter 1, H-6720 Szeged, Hungary.; Fulop, F; Otvos, SB (corresponding author), Hungarian Acad Sci, MTA SZTE Stereochem Res Grp, Eotvos U 6, H-6720 Szeged, Hungary.; Otvos, SB (corresponding author), Karl Franzens Univ Graz, NAWI Graz, Inst Chem, Heinrichstr 28, A-8010 Graz, Austria.. The CAS is 50-84-0. Through research, I have a further understanding and discovery of 2,4-Dichlorobenzoic acid

Herein, we report novel catalytic methodologies for protodecarboxylations and decarboxylative deuterations of carboxylic acids utilizing a silver-containing hybrid material as a heterogeneous noble metal catalyst. After an initial batch method development, a chemically intensified continuous flow process was established in a simple packed-bed system which enabled gram-scale protodecarboxlyations without detectable structural degradation of the catalyst. The scope and applicability of the batch and flow processes were demonstrated through decarboxylations of a diverse set of aromatic carboxylic acids. Catalytic decarboxylative deuterations were achieved on the basis of the reaction conditions developed for the protodecarboxylations using D2O as a readily available deuterium source.

Welcome to talk about 50-84-0, If you have any questions, you can contact Meszaros, R; Marton, A; Szabados, M; Varga, G; Konya, Z; Kukovecz, A; Fulop, F; Palinko, I; Otvos, SB or send Email.. Category: chlorides-buliding-blocks

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Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics

Category: chlorides-buliding-blocks. Zhang, JW; Wang, CR; Liu, WH; Xu, S; Liu, BQ in [Zhang, Ju-Wen; Wang, Cen-Ru; Liu, Wen-Hua; Xu, Shuang; Liu, Bin-Qiu] Bohai Univ, Dept Chem, Jinzhou 121013, Peoples R China; [Zhang, Ju-Wen] Bohai Univ, Coll Chem & Chem Engn, Profess Technol Innovat Ctr Liaoning Prov Convers, Jinzhou 121013, Peoples R China published Two kinds of 2,4-dichlorobenzoate-based lanthanide coordination polymers tuned by 4,4 ‘-bipyridine: Syntheses, structures, photoluminescence, and magnetism in 2020, Cited 57. The Name is 2,4-Dichlorobenzoic acid. Through research, I have a further understanding and discovery of 50-84-0.

Ln(NO3)(3)center dot nH(2)O reacted with 2,4-dichlorobenzoic acid (2,4-HDCB) and NaOH under solvothermal conditions of water and ethanol to yield four lanthanide-organic coordination polymers (CPs) [Eu(2,4-DCB)(3)(CH3CH2OH)(2)] (1) and [Ln(2,4-DCB)(3)(H2O)] [Ln = Gd (2), Tb (3), Dy (4)]. The second ligand 4,4′-bipyridine (4,4′-bpy) was introduced into the above reaction systems to provide four new lanthanide-organic CPs [Ln(2)(2,4-DCB)(6)(4,4′-bpy)(H2O)(2)] [Ln = Eu (5), Gd (6), Tb (7), Dy (8)]. Single-crystal and powder X-ray diffraction analyses reveal that CPs 1 and 2 possess similar one-dimensional (1D) structures, and CPs 2-4 and 5-8 are isostructural, respectively. In 1-4, the 2,4-DCB anions bridge the Ln(III) ions to form a 1D chain. In 5-8, six 2,4-DCB anions link two Ln(III) ions into a binuclear Ln(2)(2,4-DCB)(6) unit, and the Ln(2)(2,4-DCB)(6) units are further connected by the 4,4’-bpy co-ligands to generate a 1D chain. The photoluminescent and magnetic properties of 1-8 were investigated.

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Reference:
Chloride – Wikipedia,
,Chlorides – an overview | ScienceDirect Topics