Relevant bibliographies by topics / Celogentin C

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters

Academic literature on the topic 'Celogentin C'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Celogentin C"

1

Ma, Bing, Dmitry N Litvinov, Liwen He, Biplab Banerjee, and Steven L Castle. "Total Synthesis of Celogentin C." Angewandte Chemie International Edition 48, no. 33 (2009): 6104–7. http://dx.doi.org/10.1002/anie.200902425.

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Ma, Bing, Dmitry N Litvinov, Liwen He, Biplab Banerjee, and Steven L Castle. "Total Synthesis of Celogentin C." Angewandte Chemie 121, no. 33 (2009): 6220–23. http://dx.doi.org/10.1002/ange.200902425.

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3

Feng, Yiqing, and Gong Chen. "Total Synthesis of Celogentin C by Stereoselective CH Activation." Angewandte Chemie International Edition 49, no. 5 (2009): 958–61. http://dx.doi.org/10.1002/anie.200905134.

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4

Feng, Yiqing, and Gong Chen. "Total Synthesis of Celogentin C by Stereoselective CH Activation." Angewandte Chemie 122, no. 5 (2010): 970–73. http://dx.doi.org/10.1002/ange.200905134.

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5

Thombare, Varsha J., James A. Holden, Sreetama Pal, et al. "Antimicrobial activity of simplified mimics of celogentin C." Tetrahedron 74, no. 12 (2018): 1288–93. http://dx.doi.org/10.1016/j.tet.2017.12.032.

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He, Liwen, Liping Yang, and Steven L. Castle. "Synthesis of the Celogentin C Right-Hand Ring." Organic Letters 8, no. 6 (2006): 1165–68. http://dx.doi.org/10.1021/ol060016f.

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7

Ma, Bing, Biplab Banerjee, Dmitry N. Litvinov, Liwen He, and Steven L. Castle. "Total Synthesis of the Antimitotic Bicyclic Peptide Celogentin C." Journal of the American Chemical Society 132, no. 3 (2010): 1159–71. http://dx.doi.org/10.1021/ja909870g.

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8

Michaux, Julien, Jean-Marc Campagne, and Pascal Retailleau. "Synthesis of the Central Tryptophan-Leucine Residue of Celogentin C." Synlett 2008, no. 10 (2008): 1532–36. http://dx.doi.org/10.1055/s-2008-1078411.

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9

Castle, Steven L., and G. S. C. Srikanth. "Catalytic Asymmetric Synthesis of the Central Tryptophan Residue of Celogentin C." Organic Letters 5, no. 20 (2003): 3611–14. http://dx.doi.org/10.1021/ol035236x.

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10

Li, Barbara T. Y., Jonathan M. White, and Craig A. Hutton. "Synthesis of the Leu - Trp Component of the Celogentin Family of Cyclic Peptides Through a C - H Activation - Cross-Coupling Strategy." Australian Journal of Chemistry 63, no. 3 (2010): 438. http://dx.doi.org/10.1071/ch10033.

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A bioinspired approach to the central leucine(C3)–tryptophan(C6) cross-linked moiety present in the celogentin family of cyclic peptide natural products was achieved. The key transformation was enabled through a palladium-catalyzed C–H activation–cross-coupling of leucine quinoline amide and 6-iodotryptophan derivatives. X-Ray crystallographic analysis of a β-(indol-6-yl)-leucine derivative confirms the stereochemistry of the cross-linked adduct matches that of the natural products. The method enables the preparation of the Leu–Trp adduct as a single stereoisomer from l-leucine and l-tryptopha
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Dissertations / Theses on the topic "Celogentin C"

1

Litvinov, Dmitry Nikolayevich. "Celogentin C and Thioviridamide: Synthetic and Structural Studies." BYU ScholarsArchive, 2010. https://scholarsarchive.byu.edu/etd/2528.

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Project I Celogentin C, isolated by Kobayashi from the seeds of Celosia argentea in 2001 exhibits strong inhibitory behavior towards polymerization of tubulin – globular protein, which plays crucial role during the cell division cycle. We have attempted synthesis of the left-hand ring of celogentin C via the intramolecular alkylation and the Knoevenagel condensation strategies. Utilizing synthetic methodologies in the field of nitroacetyl chemistry, developed by Kornblum and Rajappa we have successfully prepared the intermolecular Knoevenagel condensation product – the late-stage precursor to
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2

Capps, Steven G. "A Radical Conjugate Addition Approach to the Total Synthesis of Celogentin C." BYU ScholarsArchive, 2008. https://scholarsarchive.byu.edu/etd/1831.

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The synthesis of five chiral DBFOX (dibenzofuran-oxazoline) ligands with either aryl or benzyl substituents will be presented. The requisite amino alcohols were obtained with high enantioselectivity either commercially (DBFOX/Bn), via Sharpless asymmetric aminohydroxylation (DBFOX/Nap, DBFOX/t-BuPh, DBFOX/Pip), or via phase-transfer catalyzed asymmetric alkylation (DBFOX/MeNap). These ligands, complexed with Mg(NTf2)2, were used as Lewis acid promoters of enantioselective radical conjugate additions to α/β-unsaturated nitro-amides/esters. A summary of these results is presented and discussed.
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3

Ma, Bing. "Novel Cinchona Alkoloid Derived Ammonium Salts as Phase-Transfer Catalysts for the Asymmetric Synthesis of Beta-Hydroxy Alpha-Amino Acids Via Aldol Reactions and Total Synthesis of Celogentin C." BYU ScholarsArchive, 2009. https://scholarsarchive.byu.edu/etd/2195.

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Project I. Cinchona alkaloid-derived quaternary ammonium salts have been successfully used as phase-transfer catalysts, particularly in asymmetric alkylations. Our group applied this type of catalyst in the synthesis of β-hydroxy α-amino acids via aldol reactions and discovered that the Park-Jew catalyst afforded good yields and good enantiomeric excess of the syn diasteromers, but negligible diastereoselectivity. This project was therefore focused on the synthesis of novel cinchonidine-derived catalysts with the Park-Jew catalyst as the lead structure. The C3 position of cinchonidine nucleus
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Book chapters on the topic "Celogentin C"

1

Taber, Douglass F. "C-H Functionalization: The Chen Synthesis of Celogentin C." In Organic Synthesis. Oxford University Press, 2013. http://dx.doi.org/10.1093/oso/9780199965724.003.0019.

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Christian R. Goldsmith of Auburn University developed (Synlett 2010, 1377) a method for radical chlorination of 1 using commercial peracetic acid. Noritaka Mizuno of the University of Tokyo devised (Nat. Chem. 2010, 2, 478) a bulky polyoxometalate that mediated the selective hydroxylation of the secondary C-H bonds of 3. Christina White of the University of Illinois showed (Science 2010, 327, 566) that Fe-mediated C-H oxidation is sensitive to the expected electronic effects, so that 5 was selectively oxidized to 6. Irena S. Akhrem of the A. N. Nesmeyanov Institute of Organoelement Compounds established (Tetrahedron Lett. 2010, 51, 259) that a C-H bond of 7 could be efficiently converted to a C-C bond. Melanie S. Sanford of the University of Michigan extended (Organic Lett. 2010, 12, 532) directed palladation to 9, effecting selective acetoxylation of the methyl group. Herman O. Sintim of the University of Maryland observed (Angew. Chem. Int. Ed. 2010, 49, 3964) that the O-linked diazoamide 11 selectively cyclized to 12. The corresponding C-linked diazoamide gave only five-membered ring formation. Yasushi Obora and Yasutaka Ishii of Kansai University devised (Organic Lett. 2010, 12, 1372) conditions for the selective allylic amination of 13. Marvin J. Miller of the University of Notre Dame developed (Tetrahedron Lett. 2010, 51, 328) the nitrosoisoxazole 16 for the allylic amination of 15. David A. Powell of Merck Frosst established (J. Org. Chem. 2010, 75, 2726) a protocol for the selective amination of the aromatic methyl group of 18. Ying-Yeung Yeung of the National University of Singapore effected (Organic Lett. 2010, 12, 2128) selective allylic oxidation of 21 with a hypervalent iodine reagent. Gullapalli Kumaraswamy of the Indian Institute of Chemical Technology, Hyderabad, allylated (J. Org. Chem. 2010, 75, 3916) an amine 23 using commercial aqueous t -BuOOH. Corey R. J. Stephenson of Boston University used (J. Am. Chem. Soc. 2010, 132, 1464) visible light to activate 26 for homologation to 27. In the course of a synthesis of the bicyclic nonribosomal peptide celogentin C, isolated from the seeds of the plumed cockscomb Celosia argentea, Gong Chen of Pennsylvania State University took advantage (Angew. Chem. Int. Ed. 2010, 49, 958) of Pd activation to effect specific coupling of the iodoindole 29 with the leucine derivative 28. On a 4-gram scale, this coupling proceeded in 85% yield.
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2

Castle, Steven L., and Bing Ma. "Total Synthesis of the Unusual Peptide Celogentin C." In Strategies and Tactics in Organic Synthesis. Elsevier, 2013. http://dx.doi.org/10.1016/b978-0-08-099362-1.00002-3.

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3

Taber, Douglass F. "Functional Group Transformation: The Castle Synthesis of Celogentin C." In Organic Synthesis. Oxford University Press, 2013. http://dx.doi.org/10.1093/oso/9780199965724.003.0004.

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Mark Cushman of Purdue University found (J. Org. Chem. 2010, 75, 3507) that a benzylic methyl ether 1 could be converted to the aldehyde 2 by N -bromosuccinimide. Two equivalents of NBS gave the methyl ester. Ning Jiao of Peking University used (Organic Lett. 2010, 12, 2888) NaN3 followed by DDQ to oxidize a benzylic halide 3 to the nitrile 4. Hugues Miel of Almac Sciences oxidized (Tetrahedron Lett. 2010, 51, 3216) the ketone 5 to the nitro derivative 6. The oxidative conversion of the nitro compound 7 to the ketone 8 described (Tetrahedron Lett. 2009, 50, 6389) by Vera L. Patrocinio Pereira of the Universidade Federal do Rio de Janeiro proceeded without epimerization. Sundarababu Baskaran of the Indian Institute of Technology Madras established (Angew. Chem. Int. Ed. 2010, 49, 804) that oxidative cleavage of the benzylidene acetal 9 delivered 10 with high regioselectivity. The intramolecular alkene dihydroxylation of 11 originated (Angew. Chem. Int. Ed. 2010, 49, 4491) by Erik J. Alexanian of the University of North Carolina gave 12 with high diastereocontrol. Ruimao Hua of Tsinghua University took advantage (J. Org. Chem. 2010, 75, 2966) of the H-donor properties of DMF to develop an efficient reduction of the alkyne 13 to the alkyne 14 . Alejandro F. Barrero of the University of Granada developed (J. Am. Chem. Soc. 2010, 132, 254) Ti (III) conditions for the reduction of the allylic alcohol 15 to the terminal alkene 16. Isolated alkenes were stable to these conditions. P. Veeraraghavan Ramachandran, also of Purdue University, effected (Tetrahedron Lett. 2010, 51, 3167) reductive amination of 17 to 18 using the now readily available NH3 - BH3 . Bin Ma and Wen-Cherng Lee of BiogenIdec developed (Tetrahedron Lett. 2010, 51, 385) a simple protocol for the conversion of an acid 19 to the free amine 20. Marc Lemaire of Université Lyons 1 established (Tetrahedron Lett. 2010, 51, 2092) that the silane 22 reduced primary, secondary, and tertiary amides to the aldehydes.
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