STUDY OF ANTIMICROBIAL PROTEIN FROM THE HEMOLYMPH OF FRESHWATER CRAB OZIOTELPHUSA SENEX SENEX AND ITS EFFICACY AGAINST THE HUMAN PATHOGENS

Sumalatha D; Nithya Tg; Jayanthi J; Ragunathan Mg

doi:10.22159/ajpcr.2018.v11i4.23756

Authors

Sumalatha D Department of Biotechnology, Valliammal College for Women, Chennai, Tamil Nadu, India.
Nithya Tg Department of Biotechnology, Faculty of Science and Humanities, SRM Institute of Science and Technology, Chennai, Tamil Nadu, India.
Jayanthi J G.S Gill Research Institute, Guru Nanak College, Chennai, Tamil Nadu, India.
Ragunathan Mg Department of Advanced Zoology and Biotechnology, Guru Nanak College, Chennai, Tamil Nadu,India.

DOI:

https://doi.org/10.22159/ajpcr.2018.v11i4.23756

Keywords:

Hemolymph, Antimicrobial protein, Purification, Gram-positive Gram-negative bacteria

Abstract

Â Objective: The study was done to isolate the antimicrobial protein from the freshwater crab.

Methods: Antimicrobial protein was purified by sequential step of ammonium sulfate precipitation, dialysis, ion exchange chromatography, and fast protein liquid chromatography. The apparent molecular mass was determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and matrix-assisted laser desorption ionization-mass spectrometry (MALDI-MS/MS). Primary structure analysis was done from MASCOT search engine. The antimicrobial activity of the protein was done using well diffusion method against Gram-positive and Gram-negative bacteria.

Results: The molecular mass of antimicrobial protein was determined to be 33KDa by SDS-PAGE and MALDI-MS/MS. The antimicrobial protein contains eight peptides which were determined by MASCOT search engine. The protein exhibited antimicrobial activity both for Gram-positive and Gram-negative bacteria.

Conclusion: The results could provide information for investigating the antimicrobial protein derived from the hemolymph of the freshwater crab Oziotelphusa senex senex.

Downloads

Download data is not yet available.

Author Biography

Sumalatha D, Department of Biotechnology, Valliammal College for Women, Chennai, Tamil Nadu, India.

Assistant professor

Department of Biotechnology

References

Rosa RD, Barracco MA. Antimicrobial peptides in crustaceans. Invert Surviv J 2010;7:262-84.

Yeo DC, Ng PK, Cumberlidge N, Magalhes C, Daniels SR, Campos MR. Global diversity of crabs (Crustacea: Decapoda: Brachyura) in freshwater. Hydrobiologia 2008;595:275-86.

Rameshkumar G, Ravichandran S, Kaliyavarathan G, Ajithkumar TT. Antimicrobial peptide from the crab, Thalamita crenata (Latreille, 1829). World J Fish Mar Sci 2009a;1:74-9.

Ravichandran S, Jeyalakshmi S, Sudha S, Anbuchezhian R. Antimicrobial peptides from the haemolymph of the prawn, Macrobrachium rosenbergii. Bangladesh J Pharmacol 2010;5:62-7.

Bordenave S, Fruitier I, Ballandier I, Sannier F, Gildberg A, Batista I, et al. HPLC preparation of fish waste hydrolysate fractions. Effect on guinea pig ileum and ACE activity. Prep Biochem Biotechnol 2002;32:65-77.

Picot L, Bordenave S, Didelot S, Fruitierarnaudin I, Sannier F, Thorkelsson G, et al. Antiproliferative activity of fish protein hydrolysates on human breast cancer cell lines. Process 2006;41:1217- 22.

Liu Z, Liu H, Liu X, Wu X. Purification and cloning of a novel antimicrobial peptide from salivary glands of the hard tick, ixodes sinensis. Comp Biochem Physiol B Biochem Mol Biol 2008;149:557- 61.

Devakumar D, Kumaran T, Jayanthi J, Ragunathan MG. Efficiency of Psidium guajava leaf extract on the nitrogenous wastes in Aeromonas hydrophila infected fresh water crab, Oziotelphusa senex senex. J Recent Trends Biosci 2012;2:47-52.

Dong Y, Jing T, Meng Q, Liu C, Hu S, Ma Y, et al. Studies on the antidiabetic activities of cordyceps militaris extract in diet-streptozotocin-induced diabetic sprague-dawley rats. Biomed Res Int 2014;2014:160980.

Sujeetha M, Sharmila S, Jayanthi J, Ragunathan MG. Antioxidant property of some extracts derived from the mud crab, Scylla serrata. Int J Phytopharmacol 2015;6:111-3.

Swetha CH, Girish BP, Reddy PS. Reproductive cycle and fecundity in natural population of edible freshwater crab, Oziothelphusa senex senex (Fabricius, 1798) (Decapoda: Brachyura). J Aquac Res Dev 2015;6:349.

Krishnamoorthy RV, Srihari K. Changes in excretory pattern of the freshwater field crab, Paratelphusa hydrodromous upon adaptation to higher salinities. Mar Biol 1973;21:341-8.

Reddy PS. Neuroendocrine control of metabolism in the freshwater crab Oziotelphusa senex senex. J Crustacean Bio 1990;10:595-607.

Reddy PS. Molt inhibition in the crab Oziotelphusa senex senex in response to heavy metal toxicity. Pollut Res 1992;11:191-5.

SÃ¶derhÃ¤ll K, Cerenius L. Role of the prophenoloxidase-activating system in invertebrate immunity. Curr Opin Immunol 1998;10:23-8.

Bhavan S, Saravana S, Radhakrishnan S, Shanthi R, Poongodi R. Proximate composition and profiles of amino acids and fatty acids in the muscle of adult males and females of commercially viable prawn species Macrobrachium rosenbergii collected from natural culture environments. Int J Biol 2010;2:107-19.

Soundarapandian P, Ananthan G. Effect of unilateral eyestalk ablation and diets on the biochemical composition of commercially important juveniles of Macrobrachium malcomsonii (H. Milne Edwards). Int J Zool Res 2008;4:106-12.

Ng PK, Guinot D, Davie PJ. Systema brachyurorum: Part I. An annotated checklist of extant brachyuran crabs of the world. Raffles Bull Zool 2008;17 Suppl:1-286.

SÃ¶derhÃ¤ll K, Smith VJ. Separation of the haemocyte populations of Carcinus maenas and other marine decapods, and prophenol oxidase distribution. Dev Comp Immunol 1983;7:229-39.

Chavan PA. Evaluation of Antimicrobial activity of various medicinal plants extracts of Latur zone against pathogens. Int J Life Sci Sci Res 2016;2:612-8.

Lazarev AV, Rejtar T, Dai S, Karger BL. Centrifugal methods and devices for rapid in-gel digestion of proteins. Electrophoresis 2009;30:966-73.

SchÃ¤gger H, von Jagow G. Tricine-sodium dodecyl sulfate-polyacrylamide gel electrophoresis for the separation of proteins in the range from 1 to 100 kDa. Anal Biochem 1987;166:368-79.

Song R, Wei RB, Luo HY, Wang DF. Isolation and characterization of an antibacterial peptide fraction from the pepsin hydrolysate of half-fin anchovy (Setipinna taty). Molecules 2012;17:2980-91.

Kustanovich I, Shalev DE, Mikhlin M, Gaidukov L, Mor A. Structural requirements for potent versus selective cytotoxicity for antimicrobial dermaseptin S4 derivatives. J Biol Chem 2002;277:16941-51.

Zelezetsky I, Pag U, Sahl HG, Tossi A. Tuning the biological properties of amphipathic alpha-helical antimicrobial peptides: Rational use of minimal amino acid substitutions. Peptides 2005;26:2368-76.

Rollanda JL, Abdelouahabb M, Dupontc J, Lefevrec F, BachÃ¨rea E, Romestanda B. Stylicins, a new family of antimicrobial peptides from the pacific blue shrimp, Litopenaeus stylirostris. Mol Immunol 2010;47:1269-77.

Singh S, Arya P, Bahuguna S, Mehta JP, Bhat G, Chowdhary AK, et al. Antibacterial activity from haemolymph of freshwater crab of genus maydelliathelphusa against respiratory tract pathogens. Int J Pharm Pharm Sci 2016;8:324-5.

Hajirasouli M, Pazooki J. Antimicrobial potential of hemolymph and hepatopancreas of portunussegnis crabs. Int J Pharm Pharm Sci 2014;6:601-3.

Hoq MI, Seraj MU, Chowdhury S. Isolation and characterization of antibacterial peptides from the mud crab, Scylla serrata. Pak J Biol Sci 2003;6:1345-53.

Makesh SV. Studies on Antibacterial Factors in the Hemolymph of the Marine Crab, Scylla serrata Forskal (Crustacea: Decapoda) Ph. D. Thesis, University of Madras; 2006.

HerbiniÃ¨re J, Braquart-Varnier C, Greve P, Strub JM, Frere J, Van Dorsselaer A. 2 Armadillidin: A novel glycine-rich antibacterial peptide directed against gram-positive bacteria in the woodlouse Armadillidium vulgare (Terrestrial Isopod, Crustacean). Dev Comp Immunol 2005;29:489-99.

Battison AL, Summerfield R, Patrzykat A. Isolation and characterization of two antimicrobial peptides from hemocytes of the American lobster Homarus americanus. Fish Shellfish Immunol 2008;25:181-7.

Fredrick WS, Ravichandran S. Hemolymph proteins in marine crustaceans. Asian Pac J Trop Biomed 2012;2:496-502.

Rameshkumar G, Ravichandran S, Arvaindhan T. Antimicrobial proteins from the crab, Charybdis lucifera (Fabricus, 1798). MidEast J Sci Res 2009b;4:40-3.

Sivaperumal P, Kamala K, Natarajan E, Dilipan E. Antimicrobial peptide from crab haemolypmh of Ocypoda macrocera (Milne Edwards 1852) with reference to antioxidant: A case study. Int J Pharm Pharm Sci 2013;5:719-27.

Manisha T, Anjali B, Ajeet S. Isolation of antibacterial protein/peptide from ficus glomerata leaf. Int J Curr Pharm Res 2016;8:24-7.

Yin LM, Edwards MA, Li J, Yip CM, Deber CM. Roles of hydrophobicity and charge distribution of cationic antimicrobial peptides in peptide-membrane interactions. J Biol Chem 2012;287:7738-45.

Arenas I, Villegas E, Walls O, Barrios H, RodrÃguez R, Corzo G, et al. Antimicrobial activity and stability of short and long based arachnid synthetic peptides in the presence of commercial antibiotics. Molecules 2016;21:pii: E225.