Access the full text.
Sign up today, get DeepDyve free for 14 days.
M. Takeuchi, S. Sakamoto, M. Yoshida, T. Abe, Y. Isomura (1993)
Studies on novel bone resorption inhibitors. I. Synthesis and pharmacological activities of aminomethylenebisphosphonate derivatives.Chemical & pharmaceutical bulletin, 41 4
S. Krasovskaya, L. Uzhinova, Andrianova MYu, A. Prischenko, M. Livantsov, M. Lomonosov (1991)
Biochemical and physico-chemical aspects of biomaterials calcification.Biomaterials, 12 9
A. Prishchenko, M. Livantsov, O. Novikova, L. Livantsova, E. Milaeva (2008)
Synthesis of new functionalized mono- and bisphosphinates with 2,6-di-tert-butyl-4-methylphenol fragmentsHeteroatom Chemistry, 19
Michael Martin, J. Sanders, H. Kendrick, Kate Luca-Fradley, Jared Lewis, J. Grimley, E. Brussel, Jeffrey Olsen, G. Meints, A. Burzyńska, P. Kafarski, S. Croft, E. Oldfield (2002)
Activity of bisphosphonates against Trypanosoma brucei rhodesiense.Journal of medicinal chemistry, 45 14
F. Ebetino (1999)
The Discovery of the Bone-Active Agent Risedronate, and Bisphosphonate Structure-Activity Considerations Including the Aminophenylethane Phosphonate SeriesPhosphorus Sulfur and Silicon and The Related Elements, 144
P. Kafarski, B. Lejczak, G. Forlani, A. Chuiko, M. Lozinsky, I. Jasicka-Misiak, Katarzyna Czekała, J. Lipok (1999)
Recent Advances in the Research on Herbicidally Active Aminomethylenebisphosphonic AcidsPhosphorus Sulfur and Silicon and The Related Elements, 144
A. Dilman, S. Ioffe (2003)
Carbon-carbon bond forming reactions mediated by silicon Lewis acids.Chemical reviews, 103 3
H. Gross, B. Costisella, T. Gnauk, L. Brennecke (1976)
α-Substituierte Phosphonate. XIX. Derivate der Aminomethan-bis-phosphonsäureJournal Fur Praktische Chemie-chemiker-zeitung, 318
S. Fields (1999)
Synthesis of natural products containing a CP bondTetrahedron, 55
L. Wozniak, J. Chojnowski (1989)
Silyl esters of phosphorous—common intermediates in synthesisTetrahedron, 45
E. Grigor’ev, N. Yashina, A. Prischenko, M. Livantsov, V. Petrosyan, L. Pellerito, M. Schafer (1993)
Complexes of diorganotin(IV) dihalides with diphosphoryl compounds and their Mössbauer spectraApplied Organometallic Chemistry, 7
A. Prishchenko, M. Livantsov, O. Novikova, L. Livantsova, V. Petrosyan (2008)
Synthesis of functionalized 1-trimethylsiloxy-substituted O-trimethylsilyl alkylphosphonites and their derivativesHeteroatom Chemistry, 19
L. Widler, K. Jaeggi, Jonathan Green (1999)
Amino-Substituted GEM-BisphosphonatesPhosphorus Sulfur and Silicon and The Related Elements, 144
I. Lutsenko, A. Prishchenko, M. Livantsov (1988)
UNUSUAL DIRECTION OF THE ARBUZOV REACTION OF DIALKOXYMETHYLPHOSPHONITES AND THEIR ANALOGUESPhosphorus Sulfur and Silicon and The Related Elements, 35
H. Gross, B. Costisella (1968)
Synthese von Carbonsäuren durch PO‐aktivierte Olefinierung von Tetraäthyl‐dimethylamino‐methylendiphosphonatAngewandte Chemie, 80
H. Gross, B. Costisella (1969)
Über α‐substituierte Phosphonate. IX. Derivate des FormylphosphonsäurediäthylestersJournal Fur Praktische Chemie-chemiker-zeitung, 311
H. Lucas, F. Mitchell, C. Scully (1950)
Cyclic Phosphites of Some Aliphatic GlycolsJournal of the American Chemical Society, 72
A. Prishchenko, M. Livantsov, O. Novikova, L. Livantsova, E. Milaeva (2009)
Synthesis of the new adducts of imines and enamines with PH acids and their derivativesHeteroatom Chemistry, 20
H. Meerwein, Werner Florian, N. Schön, G. Stopp (1961)
Über Säureamidacetale, Harnstoffacetale und LactamacetaleEuropean Journal of Organic Chemistry, 641
A. Prishchenko, M. Livantsov, O. Novikova, L. Livantsova (2010)
Synthesis of trimethylsilyl-substituted derivatives of aminomethylenediphosphorus-containing acidsRussian Journal of General Chemistry, 80
S. Ghosh, Julian Chan, Christopher Lea, G. Meints, Jared Lewis, Zev Tovian, Ryan Flessner, T. Loftus, I. Bruchhaus, H. Kendrick, S. Croft, R. Kemp, Seiki Kobayashi, T. Nozaki, E. Oldfield (2004)
Effects of bisphosphonates on the growth of Entamoeba histolytica and Plasmodium species in vitro and in vivo.Journal of medicinal chemistry, 47 1
The interaction of esters of trivalent organophosphorus acids containing PH and POSiMe3 fragments with various derivatives of formamide is proposed as convenient methods for the synthesis of new N‐substituted aminomethylenebisorganophosphorus acids and their derivatives with three‐, four‐, and five‐coordinated phosphorus. Also the new functionalized derivatives of the new aminomethylenebisphosphinic acids with substituted hydroxymethyl moieties are synthesized, and some properties of the obtained compounds are presented. © 2009 Wiley Periodicals, Inc. Heteroatom Chem 20:319–324, 2009; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/hc.20552
Heteroatom Chemistry – Wiley
Published: Jan 1, 2009
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.