ANTIMICROBIAL STUDY OF 1,1-BIS- {2-HYDROXY-3-(1 - PHENYL-5 -ARYL-PYRAZOLIN 3 -YL)-5 METHYL PHENYL} METHANE

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Int. J. Chem. Sci.: 8(4), 2010, 2353-2357 ATIMICROBIAL STUDY OF 1,1-BIS- {2-HYDROXY-3-(1 - PHEYL-5 -ARYL-PYRAZOLI 3 -YL)-5 METHYL PHEYL} METHAE RAJESH P. GAORKAR * Department of Chemistry, Mahatma Fule Arts, Commerce & Sitaramji Chaudhary Science Mahavidyalaya, AMRAVATI 444906, Dist. Warud (M.S.) IDIA ABSTRACT Titled bis-pyrazolines have been synthesized by condensation of phenylhydrazine hydrochloride with bis-chalcones in pyridine medium. All compounds have been evaluated for their in vitro growth of inhibitory activity against Staphylococcus aureus, Escherichia coli, Proteus mirabilis and Salmonella Typhi using paper disc-method. The culture medium was nutriert agar medium. Most of the titled bispyrazolines were more or less effective against these microorganisms. Key words: Bis-pyrazolines, Antimiorobial activity. ITRODUCTIO Pyrazolines have diverse chemical reactivity with broad spectrum of biological activity 1, variety of applications and an important role in medicinal chemistry. Substituted pyrazolines were found to posses antimicrobial activity. 2-5 In addition, they show antiinflammatory 6, antipyratic activity 7, fungicidal activity 8,9 and insecticidal activity 10 also. It was thought of interest to study the antimiorobial activity of bis-pyrazolines against gtam + ve and gram ve microorganisms. All compounds have been evaluated for their in vitro inhibitory activity against different microorganisms like Staphylococcus aureus, Escherichia coli, Proteus mirabilis and Salmonella typhi. The following bis-pyrazolines were selected for antimicrobial activity studies * Author for correspondence; E-mail: rajesh.ganorkar@rediffmail.com

2354 R. P. Ganorkar: Antimicrobial Study of. Ph R 1 H 3 C R OH C H 2 OH H 3 C R Ph R 1 Fig. 1: Bis-pyrazolines (1a-h) EXPERIMETAL Bis-pyrazolines were synthesized by the condensation of phenylhydrazine hydrochloride with bis-chalcones in pyridine medium. The structures of synthesized compounds were characterized by spectral study and elemental analysis 11 (UV, IR & MR). All compounds were screened for antimicrobial activity. These compounds were tested against Staphylococcus aureus, Escherichia coli, Proteus mirabilis and Salmonella typhi four pathogenic microbes for their antibacterial activity using paper disc method at the concentration of 50 µg/ml using DMF as a solvent. The culture medium used was nutrient agar medium. Zones of inhibitions were measured in mm and recorded in Table 2. Table 1: Physical data of 1,1-bis {2-hydroxy-3-[l -phenyl-5 -aryl pyrazolin-3 -yl]-5- methyl phenyl} methanes (1a-h) Comp. R R 1 M.P. ( 0 C) Yield (%) M.F. Found % Calc. 1a H H 228-231 75 C 45 H 40 4 O 2 8.16 8.38 Cont

Int. J. Chem. Sci.: 8(4), 2010 2355 Comp. R R 1 M.P. ( 0 C) Yield (%) M.F. Found % Calc. 1b OCH 3 H 218-222 74 C 47 H 44 4 O 4 7.53 7.69 1c OH OCH 3 265-267 72 C 47 H 44 4 O 6 7.12 7.36 1d OH H 268 78 C 45 H 40 4 O 4 9.62 8.00 1e O 2 H 278 80 C 45 H 38 6 O 6 12.47 11.08 1f (CH 3 ) 2 H 201 85 C 49 H 50 6 O 2 10.35 11.14 1g H OCH 3 191-201 70 C 47 H 44 4 O 4 7.27 7.69 1h OCH 3 OCH 3 235-238 72 C 49 H 48 4 O 2 7.03 7.10 Table 2: Antimicrobial activities of 1,1-Bis {2-hydroxy-3-[l -phenyl-5 -aryl pyrazolin- 3 -yl ]-5-methyl phenyl} methanes (1a-h) Compounds S. aureus E. coli Pr. mirabilis S. typhi 1a - + + - 1b - - + - 1c + + - - - 1d + + + - 1e + + - - + + 1f - - - + + + 1g - + + + + - 1h - + + + +.B. : Zone of inhibition: - : Inactive (Resistance); + : Weakly active; ++ : Moderately active; +++ : Strongly active RESULTS AD DISCUSSIO The titled compounds were screened for their anitimicrobial activities using microorganisms; S. aureus, E. coli, Pr. mirabilis, and S. typhi are as follows. From Table 2, compound (1a) showed weak activity towords E. coli and Pr. mirabils and was inactive towards S. aureus and S. typhi.

2356 R. P. Ganorkar: Antimicrobial Study of. The compound (1b) showed weak activity towords Pr. mirabilis, but was inactive towords S. aureus, E. coli and S. typhi. The compound (1c) showed moderate activity against S. aureus but against others, it was inactive. The compound (1d) showed weak activity against S. aureus, E. coli, and Pr. Mirabilis, except S. Typhi is inactive. The compound (1e) showed moderate activity against S. auresus and S. typhi but it was inactive against E. coli and Pr. mirabilis. The compound (1f) showed strong activity against S. typhi and was inactive towards all other S. aureus, E. coli and Pr. mirabilis. The compound (1g) showed moderate activity against E. coli and Pr. mirabilis and inactive towards S. aureus and S. typhi. The compound (1h) showed moderate activity against E. coli; weakly active against Pr. mirabilis, S. typhi and inactive against S. aureus. It has been also found that the antimicrobial activities of the test compounds increases with increase in its structure complexity. Hence from screening results, it was found that most of the bis-pyrazolines are found to be more or less effective against these microorgamisms and can be used for treatment of diseases only if they do not have any toxic and other side effects. ACKOWLEDGEMET The authors are thankful to Dr. D. H. Tambekar, Head, Department of Microbiology, S. G. B. Amravati University, Amravati and Miss Vishakha Pathak for providing necessary laboratory facility. REFERECES 1. J. S. Horsfall and S. Rich, Chem. Abstr., 46, 11543 (1952). 2.. K. Sangwan, B. S. Varma and K. S. Dmndsa, Indian J. Chem., 25B, 672 (1986).

Int. J. Chem. Sci.: 8(4), 2010 2357 3. Jigar Desai, K. B. air and A.. Misra, Indian J. Heterocyclic Chem., 10 (4), 261 (2001). 4. R. M. Kedar, Asian J. Chem., 13 (2), 477 (2001). 5. K. Mogilaiah, D. S. Chowdary and R. B. Rao, Indian J. Chem., 40 (b), 43 (2001). 6. J. P. Dusza J. P. Joseph and S. Bernstein, U. S. US4, 360, 680(CI 548-362, CO7D231/06) (1982). 7. V. G. Vornin, Z. I. Snarmova. S. Va Sachilova L. D. Kulikormova and A. S. Zaks, Khim Pharm. Zh., 19, 1208 (1985). 8.. B. Das and A. S. Mitra, Indian J. Chem., 16B, 638 (1978) 9. S. P. Schar and A. K. Singh, J. Indian Chem. Soc., 62, 142 (1985), 10. D. B. Reddy, T. Seshamma and S. Reddy, J. Indian Chem. Soc., 68, 281 (1991). 11. R. P. Ganorkar and V. S. Jamode, Asian J. Chem., 15(1), 475 (2003). Revised : 06.06.2010 Accepted : 10.06.2010

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