Dr. Sankunny Mohan Karuppayil
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Dr. Sankunny Mohan Karuppayil

Professor
Swami Ramanand Teerth Marathwada University, India

Highest Degree
Ph.D. in Plant Sciences from Annamalai Unversity, India

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Area of Interest:

Plant and Soil Sciences
100%
Plant Biology
62%
Plant Biotechnology
90%
Medicinal Plant
75%
Mycology
55%

Research Publications in Numbers

Books
1
Chapters
5
Articles
83
Abstracts
0

Selected Publications

  1. Kakkar, S., M. Singh, S.M. Karuppayil, J.S. Raut and F. Giansanti et al., 2021. Lipo-PEG nano-ocular formulation successfully encapsulates hydrophilic fluconazole and traverses corneal and non-corneal path to reach posterior eye segment. J. Drug Targeting, 29: 631-650.
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  2. Jadhav, A.K. and S.M. Karuppayil, 2021. Andrographis paniculata (Burm. F) Wall ex Nees: Antiviral properties. Phytother. Res., 35: 5365-5373.
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  3. Chauhan, N.M. and S.M. Karuppayil, 2021. Dual identities for various alcohols in two different yeasts. Mycology, 12: 25-38.
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  4. Wakharde, A.A., S.D. Halbandge, D.B. Phule and S.M. Karuppayil, 2018. Anticancer drugs as antibiofilm agents in Candida albicans: Potential targets. Assay Drug Dev. Technol. 10.1089/adt.2017.826.
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  5. Ali, A., A. Jadhav, P. Jangid, R. Patil, A. Shelar and S.M. Karuppayil, 2018. The human muscarinic acetylcholine receptor antagonist, Dicyclomine targets signal transduction genes and inhibits the virulence factors in the human pathogen, Candida albicans. J. Antibiotics, 71: 456-466.
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  6. Thakre, A., G. Zore, S. Kodgire, R. Kazi and S. Mulange et al., 2017. Limonene inhibits Candida albicans growth by inducing apoptosis. Med. Mycol. 10.1093/mmy/myx074.
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  7. Raut, J.S., S.K. Doke and S.M. Karuppayil, 2017. Yeast Biofilms in the Context of Human Health and Disease. In: Yeast Diversity in Human Welfare, Satyanarayana, T. and G. Kunze (Eds.). Springer, Singapore, pp: 137-162.
  8. Raut, J.S., B.S. Bansode, A.K. Jadhav and S.M. Karuppayil, Raut, J.S., B.S. Bansode, A.K. Jadhav and S.M. Karuppayil, 2017. Activity of allyl isothiocyanate and its synergy with fluconazole against Candida albicans biofilms. J. Microbiol. Biotechnol., 27: 685-693.
  9. Jadhav, A.K., P. Jangid, R. Patil, W. Gade, K. Kharat and S.M. Karuppayil, 2017. Phenazine methosulphate modulating the expression of genes involved in yeast to hyphal form signal transduction in Candida albicans. Adv. Microbiol., 7: 707-718.
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  10. Jadhav, A.K. and S.M. Karuppayil, 2017. Molecular docking studies on thirteen fluoroquinolines with human topoisomerase II a and b. In Silico Pharmacol., Vol. 5. 10.1007/s40203-017-0024-2.
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  11. Jadhav, A.K. and S.M. Karuppayil, 2017. Candida albicans Biofilm as a Clinical Challenge. In: Developments in Fungal Biology and Applied Mycology, Satyanarayana, T., S. Deshmukh and B. Johri (Eds.). Springer, Singapore, pp: 247-264.
  12. Jadhav, A., S. Mortale, S. Halbandge, P. Jangid and R. Patil et al., 2017. The dietary food components capric acid and caprylic acid inhibit virulence factors in Candida albicans through multitargeting. J. Med. Food, 20: 1083-1090.
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  13. Jadhav, A., B. Bansode, D. Phule, S. Shelar and R. Patil et al., 2017. The antibacterial agent, moxifloxacin inhibits virulence factors of Candida albicans through multitargeting. World J. Microbiol. Biotechnol., Vol. 33. 10.1007/s11274-017-2264-z.
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  14. Halbandge, S.D., S.P. Mortale, A.K. Jadhav, K. Kharat and S.M. Karuppayil, 2017. Differential sensitivities of various growth modes of Candida albicans to sixteen molecules of plant origin. J. Pharmacogn. Phytochem., 6: 306-318.
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  15. Halbandge, S.D., S.P. Mortale and S.M. Karuppayil, 2017. Biofabricated silver nanoparticles synergistically activate amphotericin B against mature biofilm forms of Candida albicans. Open Nanomed. J., 4: 1-16.
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  16. Halbandge, S.D., P.B. Vidyasagar and S.M. Karuppayil, 2017. Saccharomyces cerevisiae as a Model for Space Biology. In: Yeast Diversity in Human Welfare, Satyanarayana, T. and G. Kunze (Eds.). Springer, Singapore, pp: 25-92.
  17. Goswami, R.R., S.D. Pohare, J.S. Raut and S.M. Karuppayil, 2017. Cell surface hydrophobicity as a virulence factor in Candida albicans. Biosci. Biotechnol. Res. Asia, 14: 1503-1511.
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  18. Ali, A., A. Wakharde and S.M. Karuppayil, 2017. Rrp9 as a potential novel antifungal target in Candida albicans: Evidences from in silico studies. Med. Mycol. Open Access, Vol. 3. 10.4172/2167-7972.100026.
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  19. Zore, G. and S.M. Karuppayil, 2016. Pharmacological Studies on Taverniera cuneifolia (Roth) Arn: A Substitute for Commercial Liquorice. LAP LAMBERT Academic Publishing, Germany, ISBN-13: 978-3-659-93583-1, Pages: 212.
  20. Thakre, A.D., S.V. Mulange, S.S. Kodgire, G.B. Zore and S.M. Karuppayil, 2016. Effects of cinnamaldehyde, ocimene, camphene, curcumin and farnesene on Candida albicans. Adv. Microbiol., 6: 627-643.
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  21. Raut, J.S. and S.M. Karuppayil, 2016. Phytochemicals as inhibitors of Candida biofilm. Curr. Pharm. Des., 22: 4111-4134.
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  22. Kathwate, G.H. and S.M. Karuppayil, 2016. Tramadol, an opioid receptor agonist: An inhibitor of growth, morphogenesis and biofilm formation in the human pathogen, Candida albicans. Assay Drug Dev. Technol., 14: 567-572.
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  23. Bansode, B.S., A.K. Jadhav, N.V. Ghule, D. Phule, R. Srinivas, G. Shankar and S.M. Karuppayil, 2016. Analysis of phytochemical profile and antibiofilm activity of stem bark extract of Terminalia arjuna Wt & Arn against the human pathogen Candida albicans. J. Pharmacogn. Phytochem., 5: 345-356.
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  24. Manke, M.B., J.S. Raut, S.C. Dhawale and S.M. Karuppayil, 2015. Antifungal activity of Helicteres isora Linn. fruit extracts against planktonic and biofilm growth of Candida albicans. J. Biol. Active Prod. Nat., 5: 357-364.
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  25. Kathwate, G.H., R.B. Shinde and S.M. Karuppayil, 2015. Antiepileptic drugs inhibit growth, dimorphism and biofilm mode of growth in human pathogen Candida albicans. Assay Drug Dev. Technol., 13: 307-312.
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  26. Kakkar, S., S.M. Karuppayil, J.S. Raut, F. Giansanti, L. Papucci, N. Schiavone and I.P. Kaur, 2015. Lipid-polyethylene glycol based nano-ocular formulation of ketoconazole. Int. J. Pharm., 495: 276-289.
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  27. Deokar, A.A., V. Kondawar, D. Kohli, M. Aslam and P.K. Jain et al., 2015. The CarERF genes in chickpea (Cicer arietinum L.) and the identification of CarERF116 as abiotic stress responsive transcription factor. Funct. Integr. Genomics, 15: 27-46.
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  28. Routh, M.M., N.M. Chauhan, S.B. Rajput and S.M. Karuppayil, 2014. Cancer drugs inhibit germ tube elongation in Candida albicans. J. Scient. Res. Rep., 3: 97-109.
  29. Raut, J.S., R.B. Shinde, N.M. Chauhan and S.M. Karuppayil, 2014. Phenylpropanoids of plant origin as inhibitors of biofilm formation by Candida albicans. J. Microbiol. Biotechnol., 24: 1216-1225.
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  30. Raut, J.S. and S.M. Karuppayil, 2014. Bioprospecting of Plant Essential Oils for Medicinal Uses. In: Environment and Sustainable Development, Fulekar, M.H., B. Pathak and R.K. Kale (Eds.). Springer, India, pp: 59-76.
  31. Raut, J.S. and S.M. Karuppayil, 2014. A status review on the medicinal properties of essential oils. Ind. Crops Prod., 62: 250-264.
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  32. Rajput, S.B., M.B. Tonge and S.M. Karuppayil, 2014. An overview on traditional uses and pharmacological profile of Acorus calamus Linn.(Sweet flag) and other Acorus species. Phytomedicine, 21: 268-276.
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  33. Doke, S.K., J.S. Raut, S.C. Dhawale and S.M. Karuppayil, 2014. Sensitization of Candida albicans biofilms to fluconazole by terpenoids of plant origin. J. Gen. Applied Microbiol., 60: 163-168.
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  34. Wankhede, S.B., M.M. Routh, S.B. Rajput and S.M. Karuppayil, 2013. Antifungal properties of selected plants of Apocynaceae family against the human fungal pathogen Candida albicans. Int. Curr. Pharm. J., 2: 122-125.
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  35. Shinde, R.B., S.B. Rajput, J.S. Raut and S.M. Karuppayil, 2013. An in vitro repositioning study reveals antifungal potential of chloroquine to inhibit growth and morphogenesis in Candida albicans. J. Gen. Applied Microbiol., 59: 167-170.
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  36. Shinde, R.B., J.S. Raut, N.M. Chauhan and S.M. Karuppayil, 2013. Chloroquine sensitizes biofilms of Candida albicans to antifungal azoles. Braz. J. Infect. Dis., 17: 395-400.
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  37. Routh, M.M., S.B. Rajput, J.S. Raut and S.M. Karuppayil, 2013. Anticancer drugs as enhancers of fluconazole sensitivity in Candida albicans. Afr. J. Microbiol. Res., 7: 1253-1261.
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  38. Routh, M.M., N.M. Chauhan and S.M. Karuppayil, 2013. Anticancer drugs inhibit morphogenesis in Candida albicans. Braz. J. Microbiol., 44: 855-859.
  39. Raut, J.S., S.B. Rajput, R.B. Shinde, B.S. Surwase and S.M. Karuppayil, 2013. Vanillin inhibits growth, morphogenesis and biofilm formation by Candida albicans. J. Biol. Active Prod. Nat., 3: 130-138.
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  40. Raut, J.S., R.B. Shinde, N.M. Chauhan and S.M. Karuppayil, 2013. Terpenoids of plant origin inhibit morphogenesis, adhesion and biofilm formation by Candida albicans. Biofouling, 29: 87-96.
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  41. Raut, J.S., N.M. Chauhan, R.B. Shinde and S.M. Karuppayil, 2013. Inhibition of planktonic and biofilm growth of Candida albicans reveals novel antifungal activity of caffeine. J. Med. Plants Res., 7: 777-782.
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  42. Rathod, V.S., J.S. Raut, S.S. Raut, S.R. More and S.M. Karuppayil, 2013. Farnesol sensitivity of serum induced yeast to hyphae morphogenesis: A study on fifty clinical isolates of Candida albicans. Br. Microbiol. Res. J., 3: 150-157.
  43. Rajput, S.B., R.B. Shinde, M.M. Routh and S.M. Karuppayil, 2013. Anti-Candida properties of asaronaldehyde of Acorus gramineus rhizome and three structural isomers. Chinese Med., Vol. 8. 10.1186/1749-8546-8-18.
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  44. Rajput, S.B. and S.M. Karuppayil, 2013. β-Asarone, an active principle of Acorus calamus rhizome inhibit growth, morphogenesis and ergosterol biosynthesis in Candida albicans. Phytomedicine, 20: 139-142.
  45. Rajput, S.B. and S.M. Karuppayil, 2013. Small molecules inhibit growth, viability and ergosterol biosynthesis in Candida albicans. SpringerPlus, Vol. 2. 10.1186/2193-1801-2-26.
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  46. Kathwate, G.H. and S.M. Karuppayil, 2013. Antifungal properties of the anti-hypertensive drug: Aliskiren. Arch. Oral Biol., 58: 1109-1115.
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  47. Chauhan, N.M., R.B. Shinde and S.M. Karuppayil, 2013. Alcohols as potential signaling molecules for disseminative mode of growth in Candida albicans. Braz. J. Microbiol., 44: 1315-1320.
  48. Shinde, R.B., N.M. Chauhan, J.S. Raut and S.M. Karuppayil, 2012. Sensitization of Candida albicans biofilms to various antifungal drugs by cyclosporine A. Ann. Clin. Microbiol. Antimicrob., Vol. 11. 10.1186/1476-0711-11-27.
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  49. Shinde, R.B., J.S. Raut and S.M. Karuppayil, 2012. Biofilm formation by Candida albicans on various prosthetic materials and its fluconazole sensitivity: A kinetic study. Mycoscience, 53: 220-226.
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  50. Raut, J.S., R.B. Shinde and M.S. Karuppayil, 2012. Indole, a bacterial signaling molecule, exhibits inhibitory activity against growth, dimorphism and biofilm formation in Candida albicans. Afr. J. Microbiol. Res., 6: 6005-6012.
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  51. Rathod, V.S., J.S. Raut and S.M. Karuppayil, 2012. Antifungal drug susceptibility of Candida albicans isolates from tuberculosis patients. Int. J. Pharm. Pharm. Sci., 4: 323-326.
  52. Rathod, V.S., J.S. Raut and S.M. Karuppayil, 2012. In vitro antifungal susceptibility reveals occurrence of azole resistance among clinical isolates of Candida albicans. Asian J. Pharm. Clin. Res., 5: 170-173.
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  53. Pathak, A.P., A. Sardar, V. Kadam, B. Rekadwad and S.M. Karuppayil, 2012. Efficacy of some medicinal plants against human dental pathogens. Indian J. Nat. Prod. Resour., 3: 123-127.
  54. Mangulkar, M.P., M.M. Routh, R.B. Shinde and S.M. Karuppayil, 2012. Ethnic uses of medicinal plants for gynecological care from thirty eight villages of India. Asian J. Tradit. Med., 7: 195-205.
  55. Khan, A.A.H. and S.M. Karuppayil, 2012. Fungal pollution of indoor environments and its management. Saudi J. Biol. Sci., 19: 405-426.
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  56. hauhan, N.M., J.S. Raut and S.M. Karuppayil, 2011. Acetaldehyde inhibits yeast to hyphal form morphogenesis and biofilm formation in Candida albicans. Mycoscience, 52: 356-360.
  57. Zore, G.B., A.D. Thakre, V. Rathod and S.M. Karuppayil, 2011. Evaluation of anti‐Candida potential of geranium oil constituents against clinical isolates of Candida albicans differentially sensitive to fluconazole: Inhibition of growth, dimorphism and sensitization. Mycoses, 54: e99-e109.
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  58. Zore, G.B., A.D. Thakre, S. Jadhav and S.M. Karuppayil, 2011. Terpenoids inhibit Candida albicans growth by affecting membrane integrity and arrest of cell cycle. Phytomedicine, 18: 1181-1190.
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  59. Routh, M.M., J.S. Raut and S.M. Karuppayil, 2011. Dual properties of anticancer agents: an exploratory study on the in vitro anti-candida properties of thirty drugs. Chemotherapy, 57: 372-380.
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  60. Khan, A.A.H. and S.M. Karuppayil, 2011. Practices contributing to biotic pollution in Air-conditioned indoor environments. Aerobiologia, 27: 85-89.
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  61. Deshmukh, K.B., A.P. Pathak and S.M. Karuppayil, 2011. Bacterial diversity of Lonar soda lake of India. Indian J. Microbiol., 51: 107-111.
  62. Deokar, A.A., V. Kondawar, P.K. Jain, S.M. Karuppayil and N.L. Raju et al., 2011. Comparative analysis of expressed sequence tags (ESTs) between drought-tolerant and -susceptible genotypes of chickpea under terminal drought stress. BMC Plant Biol., Vol. 11. 10.1186/1471-2229-11-70.
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  63. Chauhan, N.M., J.S. Raut and S.M. Karuppayil, 2011. A morphogenetic regulatory role for ethyl alcohol in Candida albicans. Mycoses, 54: e697-e703.
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  64. Raut, J., V. Rathod and S.M. Karuppayil, 2010. Cell surface hydrophobicity and adhesion: A study on fifty clinical isolates of Candida albicans. Japanese J. Med. Mycol., 51: 131-136.
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  65. Khan, A.A.H. and S.M. Karuppayil, 2010. Potential natural disinfectants for indoor environments. Int. J. Clin. Aromatherapy, 7: 1-5.
  66. Khan, A.A.H., S.M. Karuppayil, C. Manoharachary, I.K. Kunwar and S. Waghray, 2009. Isolation, identification and testing for allergenicity of fungi from air-conditioned indoor environments. Aerobiologia, 25: 119-123.
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  67. Zore, G.B., U.B. Winston, B.S. Surwase, N.S. Meshram, V.D. Sangle, S.S. Kulkarni and S.M. Karuppayil, 2008. Chemoprofile and bioactivities of Taverniera cuneifolia (Roth) Arn.: A wild relative and possible substitute of Glycyrrhiza glabra L. Phytomedicine, 15: 292-300.
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  68. Zore, G.B., V. Awad, A.D. Thakare, U.K. Halde, N.S. Mesharam, B.S. Surwase and S.M. Karuppayil, 2007. Activity-directed fractionation and isolation of four antibacterial compounds from Abrus precatorius L. roots. Nat. Prod. Res., 21: 933-940.
  69. Liu, W., S.D. Konduri, S. Bansal, B.K. Nayak and S.A. Rajasekaran et al., 2006. Estrogen receptor-α binds p53 tumor suppressor protein directly and represses its function. J. Biol. Chem., 281: 9837-9840.
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  70. Devkatte, A.N., G.B. Zore and S.M. Karuppayil, 2005. Potential of plant oils as inhibitors of Candida albicans growth. FEMS Yeast Res., 5: 867-873.
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  71. Zore, G.B., B.S. Surwase and S.M. Karuppayil, 2004. Antifungal activity in two medicinal plants. J. Mycol. Plant Pathol., 34: 543-544.
  72. Lambat, P., G.B. Zore, B.S. Surwase and S.M. Karuppayil, 2004. Antifungal activity in essential oils from lemon grass and eucalyptus. J. Mycol. Plant Pathol., 34: 545-547.
  73. Surwase, B.S., G.B. Zore and S.M. Karuppayil, 2003. Anti-fungal properties of Taverneira cunefolia. J. Med. Aromatic Plant Sci., 25: 682-688.
  74. Surwase, B.S., A.R. Kulkarni, S.N. Pathan and S.M. Karuppayil, 2001. Physico-chemical properties of tuber starch and cultivation practices of Ceropegia bulbosa var. bulbosa-A common NTFP of Maharashtra. Ann. For., 9: 128-139.
  75. Karuppayil, S.M., E. Moran and G. Das, 1998. Differential regulation of p53 dependent and independent PCNA gene transcription by 12S E1A oncoprotein requires CBP. J. Biol. Chem., 273: 17303-17306.
  76. Karuppayil, S.M. and P.J. Szaniszlo, 1997. Importance of calcium to the regulation of dimorphism in Wangiella (Exophiala) dermatitidis. Med. Mycol., 35: 379-388.
  77. Karuppayil, S.M., M. Peng, L. Mendoza, T.A. Levins and P.J. Szaniszlo, 1996. Identification of the conserved coding sequences of three chitin synthase genes in Fonsecaea pedrosoi. Med. Mycol., 34: 117-125.
  78. Peng, M., S.M. Karuppayil, L. Mendoza, T.A. Levins and P.J. Szaniszlo, 1995. Use of the polymerase chain reaction to identify coding sequences for chitin synthase isozymes in Phialophora verrucosa. Curr. Genet., 27: 517-523.
  79. Szaniszlo, P.J., S.M. Karuppayil, L. Mendoza and R.J. Rennard, 1993. Cell cycle regulation of polymorphism in Wangiella dermatitidis. Arch. Med. Res., 24: 251-261.
  80. Szaniszlo, P.J., L. Mendoza and S.M. Karuppayil, 1993. Clues About Chromoblastomycotic Fungi and other Dematiaceous Pathogens Using Wangiella as a Model. In: Dimorphic Fungi in Biology and Medicine, Bossche, H.V., D. Kerridge and F.C. Odds (Eds.). Plenum Press, New York, pp: 241-255.
  81. Mendoza, L., S.M. Karuppayil and P.J. Szaniszlo, 1993. Calcium regulates in vitro dimorphism in chromoblastomycotic fungi. Mycoses, 36: 157-164.
  82. Karuppayil, S.M., N. Thamizhseran and T. Govindarajalu, 1986. Release of phenols from chickpea seeds. Int. Chickpea News Lett., 14: 24-25.
  83. Karuppayil, S.M. and T. Govindarajulu, 1986. Permeability alterations in chickpea wilt. Bull. Pure Applied Sci. 53: 46-50.