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Phosphorus, Sulfur, and Silicon and the Related Elements Volume 186, 2011 - Issue 7
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Regular Articles

Synthesis, Antimicrobial, and Antioxidant Activity of New α-Aminophosphonates

S. Subba Reddy Department of Chemistry, Sri Venkateswara University, Tirupati, India
,
V. Koteswara Rao Department of Chemistry, Sri Venkateswara University, Tirupati, India
,
B. Satheesh Krishna Department of Chemistry, Sri Venkateswara University, Tirupati, India
,
C. Suresh Reddy Department of Chemistry, Sri Venkateswara University, Tirupati, India
,
P. Visweswara Rao Department of Bio-technology, Sri Venkateswara University, Tirupati, India
&
C. Naga Raju Department of Chemistry, Sri Venkateswara University, Tirupati, India
Pages 1411-1421 | Received 14 May 2010, Accepted 08 Aug 2010, Published online: 04 Aug 2011

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Xing Wang, Yuan Cai, Jian Chen & Francis Verpoort. (2016) A simple protocol for the synthesis of α-substituted phosphonates. Phosphorus, Sulfur, and Silicon and the Related Elements 191:9, pages 1268-1273.
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Articles from other publishers (32)

Tamara Dinhof, Thomas Kalina, Toda Stanković, Kristóf Braunsteiner, Philipp Rohrbach, Ertan Turhan, Andreas Gradwohl, Artur Königshofer, Jeannie Horak & Katharina Pallitsch. (2023) Asymmetric Transfer Hydrogenation as a Key Step in the Synthesis of the Phosphonic Acid Analogs of Aminocarboxylic Acids. Chemistry – A European Journal.
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Siham Kitouni, Nadjib Chafai, Salah Chafaa, Noudjoud Houas, Samira Ghedjati & Meriem Djenane. (2023) Antioxidant activity of new synthesized imine and its corresponding α-aminophosphonic acid: Experimental and theoretical evaluation. Journal of Molecular Structure 1281, pages 135083.
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D. Renuka, G. Mohan, S. Santhisudha & C. Suresh Reddy. (2023) Facile Synthesis of Diethyl {Aryl-[(1H-benzo[d]imidazol-2-yl)amino]methyl}phosphonates and Their Antimicrobial Activity. Russian Journal of General Chemistry 93:1, pages 136-147.
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Poola Sreelakshmi, Balam Satheesh Krishna, Sarva Santhisudha, Sudileti Murali, Gajjala Raghavendra Reddy, Chintha Venkataramaiah, Pasupuleti Visweswara Rao, Avula Vijaya Kumar Reddy, Vallela Swetha, Grigory Vasilievich Zyryanov, Chichili Devendhranath Reddy & Cirandur Suresh Reddy. (2022) Synthesis and biological evaluation of novel dialkyl (4-amino-5H-chromeno[2,3-d]pyrimidin-5-yl)phosphonates. Bioorganic Chemistry 129, pages 106121.
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Hacène K'tir, Aïcha Amira, Chahrazed Benzaid, Zineb Aouf, Souad Benharoun, Yasmine Chemam, Rachida Zerrouki & Nour-Eddine Aouf. (2022) Synthesis, bioinformatics and biological evaluation of novel α-aminophosphonates as antibacterial agents: DFT, molecular docking and ADME/T studies. Journal of Molecular Structure 1250, pages 131635.
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Wiem Saidani, Aymen Wahbi, Badreddine Sellami, Mohamed Amine Helali, Abdelhafidh Khazri, Ezzeddine Mahmoudi, Soufiane Touil, Olivier Joubert & Hamouda Beyrem. (2021) Toxicity assessment of organophosphorus in Ruditapes decussatus via physiological, chemical and biochemical determination: A case study with the compounds γ-oximo- and γ-amino-phosphonates and phosphine oxides. Marine Pollution Bulletin 169, pages 112556.
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Satheesh Krishna Balam, Jayaprakash Soora Harinath, Suresh Kumar Krishnammagari, Raghavendra Reddy Gajjala, Kishore Polireddy, Vijaya Bhaskar Baki, Wei Gu, Koteswara Rao Valasani, Vijaya Kumar Reddy Avula, Swetha Vallela, Grigory Vasilievich Zyryanov, Visweswara Rao Pasupuleti & Suresh Reddy Cirandur. (2021) Synthesis and Anti-Pancreatic Cancer Activity Studies of Novel 3-Amino-2-hydroxybenzofused 2-Phospha-γ-lactones. ACS Omega 6:17, pages 11375-11388.
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Petra R. Varga & György Keglevich. (2021) Synthesis of α-Aminophosphonates and Related Derivatives; The Last Decade of the Kabachnik–Fields Reaction. Molecules 26:9, pages 2511.
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Maheshwara Reddy Nadiveedhi, Poojith Nuthalapati, Mohan Gundluru, Mohan Reddy Yanamula, Saritha Venkatareddy Kallimakula, Visweswara Rao Pasupuleti, Vijaya Kumar Reddy Avula, Swetha Vallela, Grigory Vasilievich Zyryanov, Satheesh Krishna Balam & Suresh Reddy Cirandur. (2021) Green Synthesis, Antioxidant, and Plant Growth Regulatory Activities of Novel α-Furfuryl-2-alkylaminophosphonates. ACS Omega 6:4, pages 2934-2948.
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Xianzhe He, Guoqiang Liu, Ye Tian, Tengfei Mao, Haibo Wu, Yen Wei & Lei Tao. (2020) Antioxidant Polymers via the Kabachnik‐Fields Reaction to Control Cellular Oxidative Stress. Macromolecular Bioscience 20:12, pages 1900419.
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Sarfaraz Shaikh, Ganesh Pavale & M. M. V. Ramana. (2020) Synthesis and biological evaluation of novel N-substituted (3-(1-aminoethylidene)-2-oxochroman-4-yl)phosphonic acid diethyl ester derivatives as anti-Alzheimer agent. Chemical Papers 74:8, pages 2555-2571.
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Ewies F. Ewies, Marwa El-Hussieny, Naglaa F. El-Sayed & Marwa A. Fouad. (2019) Design, synthesis and biological evaluation of novel α-aminophosphonate oxadiazoles via optimized iron triflate catalyzed reaction as apoptotic inducers. European Journal of Medicinal Chemistry 180, pages 310-320.
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Murali Sudileti, Mohan Gundluru, Santhisudha Sarva, Sreekanth Tellamekala, Balaji Hari, Balaji Meriga & Suresh Reddy Cirandur. (2019) Tungstosulfonic acid-catalyzed green synthesis and bioassay of α-aminophosphonates. Monatshefte für Chemie - Chemical Monthly 150:6, pages 1101-1109.
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E. Veerashekhar Goud, Akella Sivaramakrishna, Kari Vijayakrishna, C.V.S. Brahmmananda Rao, Vijay M. Khedkar & Prakash C. Jha. (2017) Synthesis, structure and DNA interaction studies of bisphosphoramides: Theoretical and experimental insights. Inorganica Chimica Acta 461, pages 84-91.
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E. Veerashekhar Goud, Akella Sivaramakrishna & Kari Vijayakrishna. (2017) Aminophosphine Oxides: A Platform for Diversified Functions. Topics in Current Chemistry 375:1.
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Mohan Gundluru, Santhisudha Sarva, Madhu Kumar Reddy Kandula, Vasudeva Reddy Netala, Vijaya Tartte & Suresh Reddy Cirandur. (2016) Phosphosulfonic acid-catalyzed green synthesis and bioassay of α-aryl-α ′ -1,3,4-thiadiazolyl aminophosphonates . Heteroatom Chemistry 27:5, pages 269-278.
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MUNICHANDRA REDDY SIVALA, SUBBA RAO DEVINENI, MADHAVA GOLLA, VENKATESH MEDARAMETLA, GNANA KUMARI POTHURU & NAGA RAJU CHAMARTHI. (2016) A heterogeneous catalyst, SiO2-ZnBr2: An efficient neat access for α-aminophosphonates and antimicrobial activity evaluation. Journal of Chemical Sciences 128:8, pages 1303-1313.
Crossref
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2412 2412 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2396 2396 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 2234 2234 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 1956 1956 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 1760 1760 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 1376 1376 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 945 945 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 944 944 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 614 614 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 310 310 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 280 280 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 1759 1759 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 1204 1204 .
M. Kumar. 2014. Chemical Shifts and Coupling Constants for Phosphorus-31. Chemical Shifts and Coupling Constants for Phosphorus-31 1031 1031 .
Man-Yi Ye, Gui-Yang Yao, Jing-Chen Wei, Ying-Ming Pan, Zhi-Xin Liao & Heng-Shan Wang. (2013) Synthesis, Cytotoxicity, DNA Binding and Apoptosis of Rhein-Phosphonate Derivatives as Antitumor Agents. International Journal of Molecular Sciences 14:5, pages 9424-9439.
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