ANTIOXIDANT AND PHARMACOLOGICAL ACTIVE MICROWAVE MEDIATED SYNTHESIS OF 2-(4/-PHENOTHIAZINYL PYRAZOLYL) PYRROLES

Authors

  • Meghasham N. Narule Department of Chemistry, Vidya Vikas Arts, Commerce & Science College, Samudrapur, 442305, India
  • Mahesh K. Gaidhane Department of Chemistry, Shri Lendeo Patil Mahavidyalaya, Mandhal, Kuhi. India
  • Pravin K. Gaidhane Department of Chemistry, Govindrao Wanjari Engineering and Technology, Hudkshwar Road Nagpur 441204, India

Keywords:

Pyrrole, Phenothiazinyl pyrazolyl, Antioxidant activity, Pharmacological activities Microwave method

Abstract

Phenothiazine derivatives substituted in the 2 and 10 positions belong to a big group of tricyclic aromatic compounds. They are in extensive use in psychiatry as tranquilizers and neuroleptics. Phenothiazines belong to an important class of heterocyclic compounds known for their pharmaceutical properties. Phenothiazine core is the active component in sedatives, tranquilizers, antituberculotics or bactericides. Phenothiazines are electron donor compounds with a low oxidation potential and they can form easily radical-cations. Lately phenothiazine has become very popular in material science or in biochemistry as marker for proteins and DNA.

2-[4/-hydroxyl benz-1/-(propene-1//-one)] Pyrrole (2) on treatment with primary amine gives 2-[biphenyl amine-1/-(propane-1//-one)] pyrrole (3) which react with sulphur and iodine affording substituted 2-[phenothiazinyl-8/-(propane-1//-one)] pyrrole (4a-j) which undergoes cyclization with NH2. NH2H2O and Substituted 2-(4/-phenothiazinyl pyrazolyl) pyrrole (5a-j) is obtained. The structure products were characterized by elemental analysis and spectral data.

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Published

06-01-2015

How to Cite

Narule, M. N., M. K. Gaidhane, and P. K. Gaidhane. “ANTIOXIDANT AND PHARMACOLOGICAL ACTIVE MICROWAVE MEDIATED SYNTHESIS OF 2-(4/-PHENOTHIAZINYL PYRAZOLYL) PYRROLES”. International Journal of Current Pharmaceutical Research, vol. 7, no. 1, Jan. 2015, pp. 66-70, https://journals.innovareacademics.in/index.php/ijcpr/article/view/4725.

Issue

Vol 7, Issue 1, 2015

Section

Original Article(s)