• Title/Summary/Keyword: Primary amide

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Hofmann Rearrangement by Using N-bromophthalimide-Silveracetate in DMF

  • Park, Min-Soo;Choi, Chang-Uk
    • Archives of Pharmacal Research
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    • v.16 no.2
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    • pp.152-154
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    • 1993
  • By using N-bromophthalimide (NBP) as halonium ion source for the Hofmann rearrangement, a series of primary amide could be ocnverted to the corresponding cabamate in excellent yields. So NBP was throught to be very effective and practical halonium ion source for the Hofmann rearrangement.

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A Facile Synthesis of N,N'-Disubstituted Ureas from Amide and Amine by Using N-Bromophthalimide (NBP) and Silvercetate in One Pot

  • Park, Min-Soo;Choi, Chang-Uk
    • Archives of Pharmacal Research
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    • v.17 no.1
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    • pp.39-41
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    • 1994
  • Various N,N'-disubstituted ureas 5 were easily prepared from the corresponding primary amide 1 by tratment with N-Bromophthalimide $(NBP)-AgOAc-RNH$_{2}$ 4 in dry N,N-dimrthylformamide (DMF). This reaction envolved the intemediate formation of isocyanate 3 from amide 1 via Hofmann rearrangement by treatment with AgOAc and NBP and nucleophilic addition of amine 4 to this isocyante 3. This method is simple enough to be applied to the synthesis of various N,N'-disubstututed ureas scale conviently.

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Protective Effect of NACA on Periodontal Stem Cell (NACA 처리에 따른 치주줄기세포 사멸 억제 효과)

  • Lee, Kyunghee
    • Journal of The Korean Society of Integrative Medicine
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    • v.8 no.3
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    • pp.53-62
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    • 2020
  • Purpose :Periodontal ligament stem cells maintain tissue homeostasis in periodontal ligament. The purpose of this study was to determine the characteristics of periodontal ligament stem cells isolated from premolar teeth and observe protective effects against oxidative damage caused by Triethylene glycol dimethacrylate (TEGDMA) following treatment with N-acetylsysteine amide (NACA) drug known as enzymatic antioxidants. Methods : Primary periodontal ligament stem cell (PDSC) culture was performed from simply extracted human premolar of orthodontic patients. The characteristics of the primary cultured PDSCs was analyzed using the FACS system. PDSCs was incubated with TEGDMA and NACA. The cell proliferation and survival was determined using WST-1 assay. Collected data were analyzed using SPSS Window 20. Results : Primary cultured PDSCs grow on the floor and develop rapidly in a cluster form from up to 14 days. The morphology of PDSCs showed the spindle-shaped cells and grew directionally. FACS analysis, In addition, positive expression of visible cells were observed in mesenchymal stem cell biomarkers. PDLSCs cell viability was significantly decreased at high concentration in both 3 and 6 hours after TEGDMA treatment. We observed a decrease in the number of cells as well as a morphological change of PDLSCs. Antioxidative effect was notable since the death of PDLSC death was significantly inhibited compared to the control group at 24 and 48 hours after NACA treatment. Conclusion : Therefore, based on the results of this study, further research should be encouraged considering the development of clinical treatment methods using various antioxidants as well as regenerative engineering techniques utilizing periodontal ligament stem cells.

Atom Transfer Radical Polymerization of [Poly(ethylene glycol)methyl ether] Methacrylate Using an Amide-Based Initiator (아미드기를 가지는 개시제를 이용한 [Poly(ethylene glycol)Methyl Ether] Methacrylate의 원자 이동 라디칼 중합)

  • Lee, Hyo-Kyung;Lee, Sun-Gu;Paik, Hyun-Jong
    • Polymer(Korea)
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    • v.31 no.6
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    • pp.550-554
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    • 2007
  • Atom transfer radical polymerization (ATRP) has been widely used in bioconjugation as it is an efficient and facile method to prepare polymers with pre-designed structures. Quite often, bioconjugation with proteins employs primary amines in proteins as a functional group to attach an initiator. When 2-bromoisobutryl bromide, the most widely used precursor for ATRP initiator, is used, ${\alpha}-halo$ amide initiating groups are formed in the proteins, which are known to exhibit slow initiation behavior in the ATRP process. Here we studied the ATRP of [poly(ethylene glycol)methyl ether] methacrylate (PEGMA) using amide-based initiator. PEGMA differs for both the nature and size of the polymer side branches and shows good solubility in water and a property that made it an ideal candidate for biomaterials. While normal ATRP produced ill-defined p(PEGMA) with amide based initiators, the halogen exchange method and the external additional of deactivator effectively improved the control of ATRP of PEGMA.

Production of Oleamide, a Functional Lipid, by Streptomyces sp. KK90378

  • Kwon, Jeong-Ho;Hwang, Sung-Eun;Han, Jae-Taek;Kim, Chang-Jin;Rho, Jung-Rae;Shin, Jong-Eon
    • Journal of Microbiology and Biotechnology
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    • v.11 no.6
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    • pp.1018-1023
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    • 2001
  • Oleamide (cis-9-octadecenamide) is endogenous primary amide of fatty acid that is produced in small amounts in animal brains. It is known to induce sleep and to lower temperature by destroying the lipid plasma membrane structure of cells, thereby disclosing gap junction channels. To develop a new biological production method for oleamide, a screening program was conducted to isolate a microorganism producing oleamide. Among 1,500 soil microorganisms tested, KK90378 exhibited a potent positive reaction with Dragendoff`s reagent, used to detect the primary amide of oleamide. KK90378 was identified as a Streptomyces species based on cultural and morpohological characteristics, the presence of diaminopimelic acid in the cell wall, and the sugar patterns for the whole-cell extrat. Streptomyces sp. KK90378 produced oleamide 3 days after culture at $28^{\circ}C$, pH 7.2 A series of purification steps, including hexane extraction, silica gel column, and preparative thin layer chromatographies, were performed for the purification of oleamide. A spectrophotometric analysis using $^1H$, $^13C$-NMR, and GC-MS confirmed that the chemical structure of the purified oleamide was identical to that of authentic oleamide.

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Reaction of Representative Organic Compounds with Sodium Borohydride in the Presence of Aluminum Chloride (염화알루미늄 존재하에서의 수소화붕소나트륨과 대표적 유기화합물과의 반응)

  • Yoon Nung Min;Ho Jun Leeq;Jin Soon Chung
    • Journal of the Korean Chemical Society
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    • v.17 no.4
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    • pp.275-285
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    • 1973
  • The addition of one mole of aluminum chloride to three moles of sodium borohydride in tetrahydrofuran gives a turbid solution with enormously more powerful reducing properties than those of sodium borohydride itself. The reducing properties of this reagent were tested with 49 organic compounds which have representative functional groups. Alcohols liberated hydrogen immediately but showed no sign of hydrogenolysis of alkoxy group. Aldehydes and ketones were reduced rapidly within one hr. Acyl derivatives were reduced moderately, however, carboxylic acids were reduced much more slowly. Esters, lactones and epoxides were reduced readily than sodium borohydride or borane. Tertiary amide was reduced slowly, however, primary amide consumed one hydride for hydrogen evolution but reduction was sluggish. Aromatic nitrile was reduced much more readily than aliphatic nitrile. Nitro compounds were inert to this reagent but azo and azoxy groups were slowly attacked. Oxime was reduced slowly but isocyanate was only partially reduced. Disulfide and sulfoxide were attacked slowly but sulfide and sulfone were inert. Olefin was hydroborated rapidly.

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The Carbazole Synthesis From 1,4-Dichloro-1,4-dimethoxybutane (1,4-디클로로-1,4-디메톡시부탄올 이용한 카르바졸의 합성)

  • Chung Bong Young;Duck Jong Bae;xJung-Il 배덕종;Seung Dal Lee
    • Journal of the Korean Chemical Society
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    • v.36 no.4
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    • pp.603-605
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    • 1992
  • N-Substituted pyrroles were synthesized from 1,4-dichloro-1,4-dimethoxybutane and primary amines or amide in the presence of Amberlyst A-21 resin. Further reation of these N-substituted pyrroles with 1,4-dichloro-1,4-dimethoxybutane gave N-substituted carbazoles in moderate yields.

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A Study on the Synthesis of Eugenolchitosan and Safrolechitosan (Eugenol과 safrole을 부가한 chitosan 유도체 합성)

  • Kim, Je-Jung;Jung, Byung-Ok;Chang, Pahn-Shick;Park, Dong-Ki
    • Korean Journal of Food Science and Technology
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    • v.36 no.3
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    • pp.398-402
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    • 2004
  • Safrolechitosan (SaCs) and eugenolchitosan (EuCs) were synthesized and characterized to increase water solubility and functionality of chitosan. Product impurities were removed by Soxhlet apparatus using methanol to obtain final product with high purity. Using Ubbelohde viscometer, molecular weights of chitosan, EuCs, and SaCs were determined as $1.2{\times}10^{5}\;Da,\;7.8{\times}10^{5},\;and\;7.5{\times}10^{5}\;Da,\;respectively$. IR spectrum of SaCs revealed chemical shift of amide II band ($1,553cm^{-1}$) of chitosan grafted by safrole caused by generation of covalent bond between primary amino of chitosan and double bond of safrole. Due to graft reaction of safrole onto chitosan, vinyl bands ($1,611\;and\;1,442cm^{-1}$) of safrole disappeared. In graft reaction of eugenol onto chitosan, shift of amide II band ($1,553cm^{-1}$) and disappearance of vinyl band were observed. On $^{1}H-NMR$ spectrum of EuCs, $H_{2}C=CH-$ peak in eugenol (monomer) disappeared, whereas $-H_{2}C-CH_{2}-$ peak appeared. Above results indicate safrole and eugenol were successfully grafted onto chitosan.

Reaction of Lithium n-Butylborohydride with Selected Organic Compounds Containing Representative Functional Groups

  • Chong-Suh Pyun;Jong-Chan Son;Nung-Min Yoon
    • Bulletin of the Korean Chemical Society
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    • v.4 no.1
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    • pp.3-9
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    • 1983
  • Lithium n-butylborohydride was prepared from borane-dimethylsulfide (BMS) and n-butyllithium, and the approximate rates and stoichiometrics of its reactions with selected organic compounds containing representative functional groups were studied in THF at room temperature. Phenol and benzenetiol liberated hydrogen quickly and quantitatively, and the reactions of primary alcohols, 2,6-di-ter-butylphenol and 1-hexanethiol liberated hydrogen quantitatively within 3 hrs, whereas the reactions of secondary and tertiary alcohols were very slow. Aldehydes and ketones were reduced rapidly and quantitatively to the corresponding alcohols. Cinnamaldehyde utilized 1 equiv. of hydride rapidly, suggesting the reduction to cinnamyl alcohol. Carboxylic acids evolved 1 equiv. of hydrogen rapidly and further reduction was not observed. Anhydrides utilized 2 equiv. of hydride rapidly but further hydride uptake was very slow, showing a half reduction. Acid chlorides were reduced to the alcohol stage very rapidly. All the esters examined were reduced to the corresponding alcohol rapidly. Lactones were also reduced rapidly. Expoxides took up 1 equiv. of hydride at a moderate rate to be reduced to the corresponding alcohols. Nitriles and primary amides were inert to this hydride system, whereas tertiary amide underwent slow reduction. Nitroethane and nitrobenzene were reduced slowly, however azobenzene and azoxybenzene were quite inert. Cyclohexanone oxime evolved 1 equiv. of hydrogen rapidly, but no further reduction was observed. Phenyl isocyanate and pyridine N-oxide were proceeded slowly, showing 1.74 and 1.53 hydride uptake, respectively in 24 hours. Diphenyl disulfide was reduced rapidly, whereas di-n-butyl disulfide, sulfone and sulfonic acids were inert or sluggish. n-Hexyl iodide and benzyl bromide reacted rapidly, but n-octyl bromide, n-octyl chloride, and benzyl chloride reacted very slowly.

The Effect of Gamma-Irradiation on Aqueous Solutions of Triglycine 3. Mechanism for Gamma-ray Induced Degradation Products (Triglycine 수용액에 미치는 감마선의 영향 3. 감마선에 의한 분해산물에 관하여)

  • ;LEONE, Charles A
    • The Korean Journal of Zoology
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    • v.7 no.2
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    • pp.1-5
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    • 1964
  • Carbonyl compounds, glycine, ammonia, carbon dioxide and hydrogen have been identified in gamma-irradiated oxygenated aqueous solutions of triglycine. The reactions occurring in this system are postulated only by representing the initial process and the final products. The triglycine molecule undergoes a reaction to form an intermediate giving rise to carbonyl compounds and acid amides. These compounds are decomposed to acetamide, glycine, glyoxylic acid, formic acid, oxalic acid, ammonia, and carbon dioxide by free radical attack in the primary and/or secondary reactions. It is also possible that the unrecognized reactions may give rise to products formed by radical-radical combinations. Satisfactory material balance for all the products have to wait until the completion of a study now in progress.ogress.

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