Golamari Siva Reddy, Sohom Adhikari, Nadeem Siddiqui, G Koteswara Reddy, N Konda Reddy, Venkata Ramana Avula
Golamari Siva Reddy, Sohom Adhikari, Nadeem Siddiqui, G Koteswara Reddy, N Konda Reddy, Venkata Ramana Avula
Department of Biotechnology, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, Andhrapradesh, India-522502.
Department of Mathematics, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Guntur, Andhrapradesh, India-522502.
Department of Petroleum Engineering,Godavari Institute of Engineering and Technology, Rajahmundry, Andhrapradesh, India-533296.
Volume - 14,
Issue - 12,
Year - 2021
Background: Achromobacter xylos strain GSR21 plays a crucial role in bioremediation of fossil fuel contamination, biopharmaceutical, cosmetics, chemical, petroleum refining, petrochemical, food industries and tertiary oil recovery (MEOR). Aim: within the present paper, to reinforce the censorious medium constituents for the assembly of Achromobacter xylos strain GSR21 by using response surface quadratic models (RSQM). Materials and methods: Response surface method (RSM) was utilized to make your mind up the best degrees of cycle factors (agar powder, yeast concentrate, FeSO4.7H2O, and KH2PO4). CCD design of RSM was utilized to contemplate the four factors at five levels, and Achromobacter xylos strain GSR21 fixation was estimated as reaction. Results: Relapse coefficients were dictated by relapse examination, and therefore the model condition was settled. R2 regard for bio-surfactant (g/L) was attempted to be 0.88, showing that the model fitted well with the exploratory results. Affirmation of the mathematical model was driven by playing out the examination with the foreseen updated values, and bio-surfactant yield was found to be 9.88 g/L. Endorsement of the foreseen model was fitted 98.8% with the test outcomes coordinated under the perfect conditions. Conclusion: In light of the above outcomes agar powder and yeast separate was perceived as compelling fragments for Achromobacter xylos GSR21 creation.
Cite this article:
Golamari Siva Reddy, Sohom Adhikari, Nadeem Siddiqui, G Koteswara Reddy, N Konda Reddy, Venkata Ramana Avula. Statistical Optimization of mineral salt medium components for Achromobacter xylos GSR21 production using Central Composite Design (CCD). Research Journal of Pharmacy and Technology. 2021; 14(12):6632-8. doi: 10.52711/0974-360X.2021.01146
Golamari Siva Reddy, Sohom Adhikari, Nadeem Siddiqui, G Koteswara Reddy, N Konda Reddy, Venkata Ramana Avula. Statistical Optimization of mineral salt medium components for Achromobacter xylos GSR21 production using Central Composite Design (CCD). Research Journal of Pharmacy and Technology. 2021; 14(12):6632-8. doi: 10.52711/0974-360X.2021.01146 Available on: https://rjptonline.org/AbstractView.aspx?PID=2021-14-12-76
1. Banat IM, Samarah N, Murad M, Horne R, Banerjee S. Biosurfactant production and use in oil tank clean-up. World Journal of Microbiology and Biotechnology. 1991 Jan;7(1):80-8.
2. Mercade ME, Monleon L, De Andres C, Rodon I, Martinez E, Espuny MJ, Manresa A. Screening and selection of surfactant‐producing bacteria from waste lubricating oil. Journal of applied bacteriology. 1996 Aug;81(2):161-6.
3. Reddy GS, Pranavi S, Srimoukthika B, Reddy VV. Isolation and characterization of bacteria from compost for municipal solid waste from Guntur and Vijayawada. Journal of Pharmaceutical Sciences and Research. 2017 Sep 1;9(9):1490.
4. Reddy GS, Srinivasulu K, Mahendran B, Reddy RS. Production and stability studies of the biosurfactant isolated from Achromobacter xylos GSR-21. Biointerface Research in Applied Chemistry. 2018 Aug 15;8(4):3388-94.
5. Reddy GS, Srinivasulu K, Mahendran B, Reddy RS. Biochemical characterization of anti-microbial activity and purification of glycolipids produced by dodecanoic acid-undecyl ester. Research Journal of Pharmacy and Technology. 2018 Sep 1;11(9):4066-73.
6. Reddy RS. Statistical optimization of medium components for biosurfactant production by Achromobacter xylos GSR21. International Journal of Green Pharmacy (IJGP). 2019 Feb 5;12(04).
7. Reddy GS, Saisree M, Pallavi P. Isolation, purification and production of biosurfactant by microorganism for enhanced oil recovery. J. Chem. Pharm. Res. 2016;8(1):254-9.
8. Reddy GS, MAHENDRAN B, REDDY RS. Screening and Optimization of Achromobacter xylosoxidans GSMSR13B Producing Bacteria. Asian Journal of Chemistry. 2018 Jul 1;30(7).
9. Reddy GS, Mahendran B, Reddy RS. Kinetic Measurements for Achromobacter Xylos GSR-21 During Biosurfactant Production in Two-phase system and developing a Double-exponential model for viable cell profile . Journal of Pharmaceutical Sciences and Research. 2018 May 1;10(5):1223-8.
10. Reddy GS. Isolation and Characterization of Biosurfactant Producing Bacteria from Hydrocarbons Contaminated Soil.
11. Jamal P, Alam MZ, Zainuddin EA, Nawawi WM. Production of biosurfactant in 2L bioreactor using sludge palm oil as a substrate. IIUM Engineering Journal. 2011;12(4).
12. Shafiei Z, Yusoff WM, Hamid AA, Moazami N, Hamzah A, Fooladi T. Identification of potential local isolated for biosurfactant production. InAIP Conference Proceedings 2013 Nov 27 (Vol. 1571, No. 1, pp. 191-196). American Institute of Physics.
13. Bodour AA, Miller-Maier RM. Application of a modified drop-collapse technique for surfactant quantitation and screening of biosurfactant-producing microorganisms. Journal of Microbiological Methods. 1998 May 1;32(3):273-80.
14. Feignier C, Besson F, Michel G. Studies on lipopeptide biosynthesis by Bacillus subtilis: isolation and characterization of iturin−, surfactin+ mutants. FEMS microbiology letters. 1995 Mar 1;127(1-2):11-5.
15. Ohadi M, Dehghannoudeh G, Shakibaie M, Banat IM, Pournamdari M, Forootanfar H. Isolation, characterization, and optimization of biosurfactant production by an oil-degrading Acinetobacter junii B6 isolated from an Iranian oil excavation site. Biocatalysis and Agricultural Biotechnology. 2017 Oct 1;12:1-9.
16. Saravanan, V. & Vijayakumar, S.: Isolation and screening of biosurfactant producing microorganisms.2012;1:1-5.
17. Das R, Tiwary BN. Isolation of a novel strain of Planomicrobium chinense from diesel contaminated soil of tropical environment. Journal of basic microbiology. 2013 Sep;53(9):723-32.
18. Banat IM. The isolation of a thermophilic biosurfactant producing Bacillus sp. Biotechnology letters. 1993 Jun;15(6):591-4.
19. Satpute SK, Bhawsar BD, Dhakephalkar PK, Chopade BA. Assessment of different screening methods for selecting biosurfactant producing marine bacteria.
20. Wiącek AE, Adryańczyk E. Interfacial properties of phosphatidylcholine-based dispersed systems. Industrial & Engineering Chemistry Research. 2015 Jul 1;54(25):6489-96.
21. Deepika L, Kannabiran K. Biosurfactant and heavy metal resistance activity of Streptomyces spp. isolated from saltpan soil. Br J Pharm Toxicol. 2010 Jul 1;1:33-9.
22. Banat IM, Franzetti A, Gandolfi I, Bestetti G, Martinotti MG, Fracchia L, Smyth TJ, Marchant R. Microbial biosurfactants production, applications and future potential. Applied microbiology and biotechnology. 2010 Jun;87(2):427-44.
23. Wiącek AE. Influence of dipalmitoylphosphatidylcholine (or dioleoylphosphatidylcholine) and phospholipase A2 enzyme on the properties of emulsions. Journal of colloid and interface science. 2012 May 1;373(1):75-83.
24. Nwaguma IV, Chikere CB, Okpokwasili GC. Isolation, characterization, and application of biosurfactant by Klebsiella pneumoniae strain IVN51 isolated from hydrocarbon-polluted soil in Ogoniland, Nigeria. Bioresources and Bioprocessing. 2016 Dec;3(1):1-3.
25. Chirwa EM, Bezza FA. Petroleum hydrocarbon spills in the environment and abundance of microbial community capable of biosurfactant production. J Pet Environ Biotechnol. 2015 Jan 1;6(237):2.
26. Ewida AY, Mohamed WS. Isolation and characterization of biosurfactant producing bacteria from oil-contaminated water. Biosciences Biotechnology Research Asia. 2019 Dec 28;16(04):833-41.
27. Rani M, Weadge JT, Jabaji S. Isolation and characterization of biosurfactant-producing bacteria from oil well batteries with antimicrobial activities against food-borne and plant pathogens. Frontiers in microbiology. 2020 Feb 27;11:64.
28. Lakshmi Reddy S, Reddy KN, Siva Reddy G, Endo T, Frost RL. Optical absorption near infrared and EPR studies of mottramite. Molecular Physics. 2010 Jun 10;108(11):1467-70.
29. Mallu MR, Golamari SR, Vemula SA, Ronda SR. Optimization of electroporation mediated transformation of lactobacillus plantarum for industrial exploitation. Int. J. Pharm. Pharm. Sci. 2016;8.
30. Saranya R, Tamilarasan K, Peatciyammal N, Sai RL, Kumar MD. Statistical Optimization of Lipase Production from Bacillus spp by Central Composite Design. Research J. Engineering and Tech. 2011 Jan;2(1):31-5.
31. Durairaj D, Kumar MA, Seenuvasan M. Optimal production and purification of citric acid from cane molasses by Aspergillus niger MTCC 282 using response surface methodology. Research J. Engineering and Tech. 2011 Jan;2(1):36-41.
32. Mandlik SK, Nandare DS, Joshi MM, Chudiwal PD, Jain KS. Statistical optimization of orodispersible tablets containing telmisartan using factorial design and response surface methodology. Optimization. 2009 Jul;15:30.
33. Utharalakshmi N, Kumar AG, Narendrakumar G. Optimization of cellulase producing Aspergillus flavus SB4 by solid state fermentation using response surface methodology (RSM)-CCD. Research Journal of Pharmacy and Technology. 2015 Apr 1;8(4):349.
34. Gopakumar A, Thomas J, Narendrakumar G, Preethi TV. Application of Response Surface Methodology (RSM) to optimize culture media for the production of rhamnolipids by Pseudomonas aeruginosa. Research Journal of Pharmacy and Technology. 2016 Apr 1;9(4):335.
35. Thyagarajan R, Narendrakumar G, Kumar VR, Namasivayam SK. Comparison of response surface methodology and artificial neural networks for optimization of medium constituents for enhancement of phytase production from Hypocrea lixii SURT01. Research Journal of Pharmacy and Technology. 2016 Apr 1;9(4):430.
36. Sundararaman S, Narendrakumar G, Sundari N, Amarnath M, Thayyil PJ. Extraction of Pectin from used Citrus Limon and optimization of process parameters using Response Surface Methodology. Research Journal of Pharmacy and Technology. 2016 Dec 1;9(12):2246.
37. Subbaiya R, Priyanka S, Suresh D, Selvam MM, Balachandar R, Chozhavendhan S. Application of Response Surface Methodology in Process Parameter Optimization of Media for Production of Amylase. Research Journal of Pharmacy and Technology. 2018 Dec 1;11(12):5273-81.
38. Muralidharan NG, Ranjitha J. Optimization of biodiesel production from dairy waste scum using response surface methodology. Research Journal of Pharmacy and Technology. 2019;12(1):342-6.
39. Ashrini BS, Varalakshmi KN. Statistical optimization of media components by taguchi design and response surface methodology for enhanced production of anticancer metabolite by penicillium sp. JUFP2. Research Journal of Pharmacy and Technology. 2019 Feb 28;12(2):463-71.
40. Reddy GS, Reddy MM, Siddiqui N, Reddy VN, Sultana N, Dhakate D, Tripura RS, Reddy NK. Role of medium components for the production of biosurfactant by Achromobacter xylos GSR-21. Research Journal of Pharmacy and Technology. 2021 Feb 16;14(2):959-65.
41. Upadhyaya BS, Reddy GS, Reddy MM, Adhikari S, Rajkumar SD, Babu AN, Goud VM, Sidhartha C, Reddy VN, Dhakate D, Reddy NK. Statistical Optimization of Temperature, Concentration, RPM and pH for the Surface Tension of Biosurfactant by Achromobacter Xylos GSR21. Journal of Pharmaceutical Research International. 2021 Feb 20:59-66.