Tag: M.W=100-150

Piperidine was first reported in 1850 by the Scottish chemist Thomas Anderson and again, independently, in 1852 by the French chemist 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Auguste Cahours, who named it. Both of them obtained piperidine by reacting piperine with nitric acid. Synthetic Route of 5382-16-1.

Shalini;Lata, Shubham;Saha, Sourav Taru;Kaur, Mandeep;Awolade, Paul;Ebenezer, Oluwakemi;Singh, Parvesh;Kumar, Vipan research published 《 Tetrahydro-β-carboline-naphthalimide hybrids: synthesis and anti-proliferative evaluation on estrogen-dependent and triple-negative breast cancer cells》, the research content is summarized as follows. A series of tetrahydro-β-carboline-naphthalimide hybrids I [X = (CH₂)_n; n = 1, 2, 3; R = H, Br, 1-piperidinyl, 4-morpholinyl, 4-hydroxy-1-piperidinyl, 4-(2-hydroxyethyl)-1-piperazinyl] were designed and synthesized via an amide coupling reaction. The obtained hybrids were evaluated for their growth inhibitory potential against MCF7 and MDA-MB-231 breast cancer cell lines using MTT assay. Three of the promising hybrids with IC₅₀s < 43μM were further scrutinized for their interactions with selected target, i.e. estrogen receptor ERα. The designed template showed a decent growth inhibitory potential on breast cancer cells with high safety profile and hence, the present manuscript reveals the success rate of hybridization technique in clubbing two individual anti-cancer cores, i.e. tetrahydro-β-carboline and naphthalimide.

Synthetic Route of 5382-16-1, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Piperidine the name comes from the genus name Piper, which is the Latin word for pepper. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Although piperidine is a common organic compound, it is best known as a representative structure element within many pharmaceuticals and alkaloids, such as natural-occurring solenopsins. Reference of 5382-16-1.

Sharninghausen, Liam S.;Preshlock, Sean;Joy, Stephen T.;Horikawa, Mami;Shao, Xia;Winton, Wade P.;Stauff, Jenelle;Kaur, Tanpreet;Koeppe, Robert A.;Mapp, Anna K.;Scott, Peter J. H.;Sanford, Melanie S. research published 《 Copper-mediated radiocyanation of unprotected amino acids and peptides》, the research content is summarized as follows. This report describes a copper-mediated radiocyanation of aryl halides that is applicable to complex mols. This transformation tolerates an exceptionally wide range of functional groups, including unprotected amino acids. As such, it enables the site-specific introduction of [¹¹C]CN into peptides at an iodophenylalanine residue. The use of a diamine-ligated copper(I) mediator is crucial for achieving high radiochem. yield under relatively mild conditions, thus limiting racemization and competing side reactions of other amino acid side chains. The reaction has been scaled and automated to deliver radiolabeled peptides, including analogs of adrenocorticotropic hormone 1-27 (ACTH) and nociceptin (NOP). For instance, this Cu-mediated radiocyanation was leveraged to prepare >40 mCi of [¹¹C]cyano-NOP to evaluate biodistribution in a primate using positron emission tomog. This investigation provides preliminary evidence that nociceptin crosses the blood-brain barrier and shows uptake across all brain regions (SUV > 1 at 60 min post injection), consistent with the known distribution of NOP receptors in the rhesus brain.

Reference of 5382-16-1, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Piperidine is an organic compound with the molecular formula (CH2)5NH. This heterocyclic amine consists of a six-membered ring containing five methylene bridges (–CH2–) and one amine bridge (–NH–). 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. It is a colorless liquid with an odor described as objectionable, and typical of amines. Application of C5H11NO.

Shi, Shuai;Qiu, Wenting;Miao, Pannan;Li, Ruining;Lin, Xianfeng;Sun, Zhankui research published 《 Three-component radical homo Mannich reaction》, the research content is summarized as follows. By employing a radical process, enolizable aldehydes were utilized as substrates in the three-component radical homo-Mannich reaction for the streamlined synthesis of γ-amino-carbonyl compounds. The electrophilic radicals were generated from thiols HSCHR¹C(O)R² (R¹ = H, Me; R² = Me, EtO, PhCH₂O, 1-adamantyl, Et₂N, etc.) via the desulfurization process facilitated by visible-light, and then added to the electron-rich double bonds of enamines, formed in-situ from aldehydes or ketones R³CH₂C(O)R⁴ [R³ = H, Et, MeSCH₂, Ph, PhCH₂, etc., R⁴ = H; R³ = H, R⁴ = Ph, 3-FC₆H₄, etc.; R³R⁴ = (CH₂)₅, CH₂CHPhCH₂CH₂, CH₂N(CH₂Ph)CH₂CH₂, etc.] and amines R⁵NHR⁶ [R⁵ = Me, R⁶ = H₂C:CHCH₂, PhCH₂, cyclohexyl, etc.; R⁵ = PhCH₂, R⁶ = PhCH₂, EtO₂CCH₂, etc.; R⁵R⁶ = (CH₂)₄, CHPh(CH₂)₃, etc.] to provide the products I in a single step. The broad scope, mild conditions, high functional group tolerance, and modularity of this metal-free approach for the synthesis of complex tertiary amine scaffolds will likely be of great utility to chemists in both academia and industry.

Application of C5H11NO, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Industrially, piperidine is produced by the hydrogenation of pyridine, usually over a molybdenum disulfide catalyst: C5H5N + 3 H2 → C5H10NH. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Pyridine can also be reduced to piperidine via a modified Birch reduction using sodium in ethanol. Safety of 4-Piperidinol.

Shimazumi, Ryoma;Tanimoto, Riku;Kodama, Takuya;Tobisu, Mamoru research published 《 Palladium-Catalyzed Unimolecular Fragment Coupling of N-Allylamides via Elimination of Isocyanate》, the research content is summarized as follows. A new unimol. fragment coupling (UFC) reaction that involves the palladium-catalyzed elimination of an isocyanate fragment from an amide, with the formation of carbon-carbon and carbon-heteroatom bonds was reported. An organometallic intermediate that is relevant to the catalytic reaction was characterized by X-ray crystallog. This UFC reaction enables the late-stage transformation of an amide functionality, allowing amides to be used as a convertible directing or protecting group.

5382-16-1, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., Safety of 4-Piperidinol

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Piperidine the name comes from the genus name Piper, which is the Latin word for pepper. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Although piperidine is a common organic compound, it is best known as a representative structure element within many pharmaceuticals and alkaloids, such as natural-occurring solenopsins. Application of C5H11NO.

Pola, Suresh;Shah, Shailesh R.;Pingali, Harikishore;Zaware, Pandurang;Thube, Baban;Makadia, Pankaj;Patel, Hoshang;Bandyopadhyay, Debdutta;Rath, Akshyaya;Giri, Suresh;Patel, Jitendra H.;Ranvir, R. K.;Sundar, S. R.;Patel, Harilal;Kumar, Jeevan;Jain, Mukul R. research published 《 Discovery of a potent G-protein-coupled receptor 119 agonist for the treatment of type 2 diabetes》, the research content is summarized as follows. Benzylidenethiazolidinedione as a novel polar head for discovering a new series of GPR119 agonists I [R = H, Me; R¹ = methoxycarbonyl, ethoxycarbonyl, tert-butoxycarbonyl, isobutoxycarbonyl, benzyloxycarbonyl] was discussed. The identification of a potent and oral GPR 119 agonist II [R = Me; R¹ = tert-butoxycarbonyl], which showed in-vitro potency in the cell-based assay and in-vivo efficacy without exerting any significant signs of toxicity in relevant animal models.

Application of C5H11NO, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Piperidine the name comes from the genus name Piper, which is the Latin word for pepper. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Although piperidine is a common organic compound, it is best known as a representative structure element within many pharmaceuticals and alkaloids, such as natural-occurring solenopsins. Related Products of 5382-16-1.

Prishchenko, Andrey A.;Alekseyev, Roman S.;Novikova, Olga P.;Livantsov, Mikhail V.;Livantsova, Ludmila I.;Petrosyan, Valery S. research published 《 Catalytic N-diphosphonomethylation of amino alkanols and bisamino alkanes using tris(trimethylsilyl) phosphite as a convenient synthon》, the research content is summarized as follows. The new mono- and bis(aminomethylenediphosphonic) acids are synthesized for the first time via unique reaction of tris(trimethylsilyl) phosphite and various N-formyl amino alkanols or bis(N-formyl amino) alkanes at the presence of effective catalyst – trimethylsilyl triflate under mild conditions. The further treatment of initially formed trimethylsilyl intermediates with the methanol excess resulted in the crystalline mono- and bis(aminomethylenediphosphonic) acids in high yields. The catalytic scheme of target substances formation is proposed and discussed in detail. The structures of target acids were confirmed by the ¹H, ¹³C, ³¹P NMR spectra and high resolution mass spectra (HRMS). The resulting compounds are of great interest as perspective bioactive substances with versatile properties and effective polydentate ligands.

Related Products of 5382-16-1, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Industrially, piperidine is produced by the hydrogenation of pyridine, usually over a molybdenum disulfide catalyst: C5H5N + 3 H2 → C5H10NH. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Pyridine can also be reduced to piperidine via a modified Birch reduction using sodium in ethanol. Category: piperidines.

Punetha, Ankita;Green, Keith D.;Garzan, Atefeh;Thamban Chandrika, Nishad;Willby, Melisa J.;Pang, Allan H.;Hou, Caixia;Holbrook, Selina Y. L.;Krieger, Kyle;Posey, James E.;Parish, Tanya;Tsodikov, Oleg V.;Garneau-Tsodikova, Sylvie research published 《 Structure-based design of haloperidol analogues as inhibitors of acetyltransferase Eis from Mycobacterium tuberculosis to overcome kanamycin resistance》, the research content is summarized as follows. Tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb), is a deadly bacterial disease. Drug-resistant strains of Mtb make eradication of TB a daunting task. Overexpression of the enhanced intracellular survival (Eis) protein by Mtb confers resistance to the second-line antibiotic kanamycin (KAN). Eis is an acetyltransferase that acetylates KAN, inactivating its antimicrobial function. Development of Eis inhibitors as KAN adjuvant therapeutics is an attractive path to forestall and overcome KAN resistance. We discovered that an antipsychotic drug, haloperidol (HPD, 1), was a potent Eis inhibitor with IC₅₀ = 0.39 ± 0.08 μM. We determined the crystal structure of the Eis-haloperidol (1) complex, which guided synthesis of 34 analogs. The structure-activity relationship study showed that in addition to haloperidol (1), eight analogs, some of which were smaller than 1, potently inhibited Eis (IC₅₀ ≤ 1 μM). Crystal structures of Eis in complexes with three potent analogs and droperidol (DPD), an antiemetic and antipsychotic, were determined Three compounds partially restored KAN sensitivity of a KAN-resistant Mtb strain K204 overexpressing Eis. The Eis inhibitors generally did not exhibit cytotoxicity against mammalian cells. All tested compounds were modestly metabolically stable in human liver microsomes, exhibiting 30-60% metabolism over the course of the assay. While direct repurposing of haloperidol as an anti-TB agent is unlikely due to its neurotoxicity, this study reveals potential approaches to modifying this chem. scaffold to minimize toxicity and improve metabolic stability, while preserving potent Eis inhibition.

Category: piperidines, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Piperidine structural motif is present in numerous natural alkaloids. These include piperine, which gives black pepper its spicy taste. This gave the compound its name. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Other examples are the fire ant toxin solenopsin, the nicotine analog anabasine of tree tobacco (Nicotiana glauca), lobeline of Indian tobacco. Electric Literature of 5382-16-1.

Qiu, Jingying;Zou, Yueting;Liu, Qingchuan;Jiang, Chunyu;Zhou, Qingqing;Li, Shuqiong;Chen, Wang;Li, Zheng;Gu, Xiaoke research published 《 Synthesis and Evaluation of Novel Quinazolinone Derivatives as Potential Anti-HCC Agents》, the research content is summarized as follows. Hepatocellular carcinoma (HCC), a common malignancy worldwide, has a high mortality rate and limited effective therapeutic options. In this work, a series of quinazolinone compounds (6a-t and 7a-i) were synthesized as potential anti-HCC agents. Among them, compound 7b more potently inhibited HepG2, HUH7 and SK-Hep-1 cells proliferation than classical anti-HCC drug sorafenib, indicating its potential anti-HCC effect. Interestingly, 7b could dose-dependently decrease Cyclin D1 and CDK2 levels, and increase p21 protein expression, thus inducing HepG2 cells cycle arrest at G0/G1 phase. In addition, 7b also displayed potent apoptosis-induced effect on HepG2 cells by interfering Hepatocellular carcinoma, Bcl-2 and Bcl-xl proteins expression. Notably, 7b could efficiently block the activity of PI3K pathway by dose-dependently reducing the phosphorylation of PI3K (Y607) and AKT (S473). Moreover, predicted ADME properties indicated that 7b possessed a good pharmacokinetic profile. Collectively, compound 7b might be a promising lead to the development of novel therapeutic agents towards HCC.

Electric Literature of 5382-16-1, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Industrially, piperidine is produced by the hydrogenation of pyridine, usually over a molybdenum disulfide catalyst: C5H5N + 3 H2 → C5H10NH. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Pyridine can also be reduced to piperidine via a modified Birch reduction using sodium in ethanol. Synthetic Route of 5382-16-1.

Qiu, Jingying;Zhou, Qingqing;Zou, Yueting;Li, Shuqiong;Yang, Lihua;Chen, Wang;Gao, Jian;Gu, Xiaoke research published 《 Design and synthesis of novel quinazolinone derivatives as anti-HBV agents with TLR8 agonist effect》, the research content is summarized as follows. In this work, a series of novel quinazolinone derivatives I [R¹ = benzyl, 2-furylmethyl, 2-thienylmethyl, etc.; R² = H, 2-MeO, 3-F, etc.; R³ = (4-methylpiperazin-1-yl), (4-hydroxy-1-piperidyl), (2-aminopyrimidin-4-yl)oxy, etc.] were synthesized and evaluated as novel anti-HBV agents. Among them, compound I [R¹ = 2-furylmethyl; R² = 2-MeO; R³ = (2-aminopyrimidin-4-yl)oxy] exhibited potent inhibitory effect on HBV DNA replication in both wild type and drug resistant (lamivudine and entecavir) HBV strains with IC₅₀ values of 0.15 and 0.10μM, resp. Notably, the selective index value of I [R¹ = 2-furylmethyl; R² = 2-MeO; R³ = (2-aminopyrimidin-4-yl)oxy] was high above 66.67, indicating the favorable safety profile. Mol. docking study indicated that compound I [R¹ = 2-furylmethyl; R² = 2-MeO; R³ = (2-aminopyrimidin-4-yl)oxy] well fitted into the binding pocket of TLR8 protein-protein interface. Dual-luciferase reporter gene assay further confirmed that compound I [R¹ = 2-furylmethyl; R² = 2-MeO; R³ = (2-aminopyrimidin-4-yl)oxy] could dose-dependently activate TLR8, thus effectively inducing the activity of TLR8-dependent NF-κB. Collectively, compound I [R¹ = 2-furylmethyl; R² = 2-MeO; R³ = (2-aminopyrimidin-4-yl)oxy] displayed potent anti-HBV activities and TLR8 agonist effect in vitro, and might be a potential immunomodulatory anti-HBV agent to warrant further investigation.

Synthetic Route of 5382-16-1, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., 5382-16-1.

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Piperidine the name comes from the genus name Piper, which is the Latin word for pepper. 5382-16-1, formula is C5H11NO, Name is 4-Piperidinol. Although piperidine is a common organic compound, it is best known as a representative structure element within many pharmaceuticals and alkaloids, such as natural-occurring solenopsins. Product Details of C5H11NO.

Ray, Rajdeep;Birangal, Sumit Raosaheb;Fathima, Fajeelath;Boshoff, Helena I.;Forbes, He Eun;Hariharapura, Raghu Chandrashekhar;Shenoy, G. Gautham research published 《 Molecular insights into Mmpl3 lead to the development of novel indole-2-carboxamides as antitubercular agents》, the research content is summarized as follows. Tuberculosis (TB) is an air-borne infectious disease and is the leading cause of death among all infectious diseases globally. The current treatment regimen for TB is overtly long and patient non-compliance often leads to drug resistant TB resulting in a need to develop new drugs that will act via novel mechanisms. In this research work, we selected mycobacterial membrane protein Large 3 (MmpL3) as the drug target and indole-2-carboximide as our mol. of interest for further designing new mols. A homol. model was prepared for Mycobacterium tuberculosis MmpL3 from the crystal structure of Mycobacterium smegmatis MmpL3. A series of indoles which are known to be MmpL3 inhibitors were docked in the prepared protein and the binding site properties were identified. Based on that, 10 mols. were designed and synthesized and their antitubercular activities were evaluated. We identified four hits among which the highest potency candidate possessed a min. inhibitory concentration (MIC) of 1.56 μM at 2 wk. Finally, mol. dynamics simulation studies were done with 3b and a previously reported MmpL3 inhibitor to understand the intricacies of their binding in real time and to correlate the exptl. findings with the simulation data.

5382-16-1, 4-Hydroxypiperidine is a molecule with a carbonyl group. It is the most active and selective CCR5 receptor antagonist that has been studied to date. 4-Hydroxypiperidine inhibits HIV infection by preventing the binding of HIV to its receptor on the surface of white blood cells, thereby preventing it from entering these cells. 4-Hydroxypiperidine also acts as an anti-inflammatory agent in chronic bronchitis patients, due to its ability to inhibit prostaglandin synthesis. The chemical ionization mass spectra of this molecule show peaks for methyl ethyl, malic acid, and hydroxyl groups. These properties make 4-hydroxypiperidine a useful candidate for drug development against inflammatory diseases and several cancers.
The molecular structure, vibrational spectra, NBO and UV-spectral analysis of 4-Hydroxypiperidine have been studied. The compounds with a substituted 4-piperidinol core have been found to be potent antagonists of the human H receptor., Product Details of C5H11NO

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem