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Phosphorus, Sulfur, and Silicon and the Related Elements Volume 113, 1996 - Issue 1-4
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Original Articles

1-AMINOPHOSPHONIC ACIDS AND ESTERS BEARING HETEROCYCLIC MOIETY. PART 2.1 PYRIDINE, PYRROLE AND IMIDAZOLE DERIVATIVES

Bogdan Boduszek Institute of Organic Chemistry, Biochemistry and Biotechnology, Technical University of Wrocłlaw, Wybrzeże Wyspianskiego 27, 50-370, Wrocłlaw, Poland
Pages 209-218 | Received 15 Jan 1996, Published online: 04 Oct 2006

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K. Boukallaba, A. Elachqar, A. El Hallaoui, A. Alami, S. El Hajji, B. Labriti, A. Atmani, B. El Bali, M. Lachkar, H. Allouchi, J. Martinez & V. Rolland. (2007) Synthesis of α-Heterocyclic α-Aminophosphonates, Part II: Morpholine, Piperidine, Pyrrolidine, Tetrahydrofurylmethylamine, N-Benzyl-N-Methylamine, and Aniline Derivatives. Phosphorus, Sulfur, and Silicon and the Related Elements 182:5, pages 1045-1052.
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S. Achamlale, H. Mabrouk, A. Elachqar, A. El Hallaoui, S. El Hajji, A. Alami, J. Bellan, M.R. Mazières, J.G. Wolf & M. Pierrot. (2007) Synthesis and Thermal Isomerization of Carboxylic and Phosphonic α-Aminoesters Substituted With a Triazole Ring. Phosphorus, Sulfur, and Silicon and the Related Elements 182:2, pages 357-367.
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HarryR. Hudson, RosalindJ. Lee & RayW. Matthews. (2004) 1-AMINO-1-ARYL- AND 1-AMINO-1-HETEROARYL-METHANEPHOSPHONIC ACIDS AND THEIR N-BENZHYDRYL–PROTECTED DIETHYL ESTERS: PREPARATION AND CHARACTERIZATION. Phosphorus, Sulfur, and Silicon and the Related Elements 179:9, pages 1691-1709.
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Bogdan Boduszek. (2003) A Simple Synthesis of Pyridine Aminophosphinic Acids and Pyridine Aminophosphine Oxides. The Unusual Cleavage of Pyridylmethyl-( -benzylamino)-phenylphosphinic Acids and Phosphine Oxides in Acidic Solutions. Synthetic Communications 33:23, pages 4087-4094.
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Bogdan Boduszek. (2001) Synthesis of Novel Phosphonopeptides Derived from Pyridylmethylphosphonate Diphenyl Esters. Phosphorus, Sulfur, and Silicon and the Related Elements 176:1, pages 119-124.
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Jian Rohovec, Pavel Vojtíšek & Ivan Lukeš. (1999) REACTION OF COMPOUNDS WITH A H-P BOND WITH SCHIFF-BASES. Phosphorus, Sulfur, and Silicon and the Related Elements 148:1, pages 79-95.
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Bogdan Boduszek. (1999) Synthesis and Biological Activity of Heterocyclic Aminophosphonates. Phosphorus, Sulfur, and Silicon and the Related Elements 144:1, pages 433-436.
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Romuald Skowroński, Grzegorz Grabowski & Jarosław Lewkowski. (1999) Synthesis of 1-Aminoalkanephosphonic and Phosphonous Acids Bearing Furan Moiety. Phosphorus, Sulfur, and Silicon and the Related Elements 147:1, pages 207-207.
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Bogdan Boduszek, Marcin Lipiński & MariaW. Kowalska. (1998) AMINOPHOSPHONIC DERIVATIVES OF CHROMONE. SYNTHESIS OF NOVEL CHROMONE-3-(α-AMINO) METHANEPHOSPHONIC ACIDS. Phosphorus, Sulfur, and Silicon and the Related Elements 143:1, pages 179-189.
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Bogdan Boduszek. (1997) AMINOPHOSPHONIC ACIDS BEARING HETEROCYCLIC MOIETY. PART 4.1 SYNTHESIS OF 2-PYRIDYL AND 4-PYRIDYLMETHYL-(AMINO)PHOSPHONIC ACIDS. Phosphorus, Sulfur, and Silicon and the Related Elements 122:1, pages 27-32.
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Articles from other publishers (21)

Monika Serafin-Lewańczuk, Małgorzata Brzezińska-Rodak, Katarzyna Lubiak-Kozłowska, Paulina Majewska, Magdalena Klimek-Ochab, Tomasz K. Olszewski & Ewa Żymańczyk-Duda. (2021) Phosphonates enantiomers receiving with fungal enzymatic systems. Microbial Cell Factories 20:1.
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Ewa Żymańczyk-Duda, Natalia Dunal, Małgorzata Brzezińska-Rodak, Angelika Osiewała, Tomasz K. Olszewski, Magdalena Klimek-Ochab & Monika Serafin-Lewańczuk. (2019) First biological conversion of chiral heterophosphonate derivative – Scaling and paths of conversion discussion. Bioorganic Chemistry 93, pages 102751.
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Jarosław Lewkowski, Marta Morawska, Rafał Karpowicz, Piotr Rychter, Diana Rogacz, Kamila Lewicka & Piotr Dobrzyński. (2017) Evaluation of ecotoxicological impact of new pyrrole-derived aminophosphonates using selected bioassay battery. Ecotoxicology 26:7, pages 914-929.
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Jarosław Lewkowski, Marta Morawska, Anna Kaczmarek, Diana Rogacz & Piotr Rychter. (2017) Novel N-Arylaminophosphonates Bearing a Pyrrole Moiety and Their Ecotoxicological Properties. Molecules 22:7, pages 1132.
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Bogumiła Żurowska, Katarzyna Ślepokura, Urszula Kalinowska-Lis & Bogdan Boduszek. (2012) Synthesis, spectroscopy and magnetic properties of transition-metal complexes with diethyl [(n-butylamino-N)(pyridin-2-yl)]methylphosphonate (2-pmape): Structure of [Co(2-pmape)2](ClO4)2 complex. Inorganica Chimica Acta 384, pages 143-148.
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B. Żurowska & B. Boduszek. (2011) Synthesis, spectroscopy and magnetic properties of transition-metal complexes with aminophosphonate derivatives of pyridine. Materials Science-Poland 29:2, pages 105-111.
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Tomasz Krzysztof Olszewski & Bogdan Boduszek. (2010) Synthesis of new thiazole-2, -4, and -5-yl-(amino)methylphosphonates and phosphinates: unprecedented cleavage of thiazole-2 derivatives under acidic conditions. Tetrahedron 66:45, pages 8661-8666.
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A. V. Golovchenko, R. N. Solomyannyi & V. S. Brovarets. (2010) Synthesis of C-heteryl-substituted aminomethylphosphonic acids derivatives. Russian Journal of General Chemistry 80:4, pages 723-727.
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Emilia D. Naydenova, Petar T. Todorov & Kolio D. Troev. (2009) Recent synthesis of aminophosphonic acids as potential biological importance. Amino Acids 38:1, pages 23-30.
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Emilia Naydenova, Margarita Topashka-Ancheva, Petar Todorov, Ts. Yordanova & Kolio Troev. (2006) Novel α-aminophosphonic acids. Design, characterization, and biological activity. Bioorganic & Medicinal Chemistry 14:7, pages 2190-2196.
Crossref
Tomasz K. Olszewski, Bogdan Boduszek, Sylwia Sobek & Henryk Kozłowski. (2006) Synthesis of thiazole aminophosphine oxides, aminophosphonic and aminophosphinic acids and Cu(II) binding abilities of thiazole aminophosphonic acids. Tetrahedron 62:10, pages 2183-2189.
Crossref
A. V. Golovchenko, S. G. Pil’o, V. S. Brovarets, A. N. Chernega & B. S. Drach. (2005) Transformations of Acylation Products of Functionally 4-Substituted 2-Alkyl(aryl)-5-hydrazino-1,3-oxazoles into 1,3,4-Oxadiazole Derivatives. Russian Journal of General Chemistry 75:3, pages 425-431.
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Małgorzata Baranska, Aleksandra Wesełucha-Birczynska, Katarzyna Chruszcz-Lipska & Leonard M Proniewicz. (2004) FT-Raman study of (hydroxypyridin-3-yl-methyl)phosphonic acid with varying pH. Vibrational Spectroscopy 35:1-2, pages 233-237.
Crossref
Michael J. Gallagher, Jacek Stawinski & Adam Kraszewski. 2001. Encyclopedia of Reagents for Organic Synthesis. Encyclopedia of Reagents for Organic Synthesis.
Małgorzata Barańska, Katarzyna Chruszcz, Kamilla Małek, Joanna Kulinowska & Leonard M. Proniewicz. (2003) Vibrational and quantum-chemical study of pH dependent molecular structures of (hydroxypyridin-4-yl-methyl)phosphonic acid. Vibrational Spectroscopy 33:1-2, pages 83-92.
Crossref
Małgorzata Barańska, Katarzyna Chruszcz, Małgorzata Podkulska, Mateusz Fościak & Leonard M. Proniewicz. (2003) Vibrational and structural analysis of (hydroxypyridin-3-yl-methyl)phosphonic acid. Journal of Molecular Structure 658:3, pages 229-239.
Crossref
Katarzyna Chruszcz, Małgorzata Barańska, Krzysztof Czarniecki & Leonard M. Proniewicz. (2003) Experimental and calculated 1H, 13C and 31P NMR spectra of (hydroxypyridin-3-yl-methyl)phosphonic acid. Journal of Molecular Structure 651-653, pages 729-737.
Crossref
Radoslaw Lipinski, Longin Chruscinski, Piotr Mlynarz, Bogdan Boduszek & Henryk Kozlowski. (2001) Coordination abilities of amino-phosphonate derivatives of pyridine. Inorganica Chimica Acta 322:1-2, pages 157-161.
Crossref
Longin Chruścinski, Piotr Młynarz, Katarzyna Malinowska, Justyn Ochocki, Bogdan Boduszek & Henryk Kozłowski. (2000) Methylphosphonate, hydroxymethylphosphonate and aminomethylphosphonate ligands containing pyridine, pyrazole or imidazole side chains: the coordination abilities towards Cu(II) ions. Inorganica Chimica Acta 303:1, pages 47-53.
Crossref
Rafael A Cherkasov & Vladimir I Galkin. (1998) The Kabachnik–Fields reaction: synthetic potential and the problem of the mechanism. Russian Chemical Reviews 67:10, pages 857-882.
Crossref
Bogdan Boduszek. (1996) The acidic cleavage of pyridylmethyl(amino)phosphonates. Formation of the corresponding amines. Tetrahedron 52:38, pages 12483-12494.
Crossref

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