PRODUCTION AND OPTIMIZATION OF CITRIC ACID BY ASPERGILLUS NIGER USING MOLASSES AND CORNCOB

Authors

  • Varsha G Shetty Department of Biotechnology (Affiliated to Shivaji University, Kolhapur) Smt. Kasturbai Walchand College, Sangli 416416, (MS), India 530003

Keywords:

Citric acid, Pharmaceutical, Molasses, Corncob, Aspergillus niger, Submerged fermentation

Abstract

Objective: The present study made an attempt to produce commercially valuable citric acid by the fungal strain Aspergillus niger from molasses and corncob using submerged fermentation, as the best alternative to the sugar substrate.

Methods: Three types of production media were prepared including control (sucrose) by following standard fermentation conditions. The acid production was indicated by the reduction of pH levels. The citric acid content and residual sugars of the final hydrolysate were estimated by the Marrier and Boulet method and Anthrone Sulphuric acid method respectively.

Results: The control production medium gave yield of 4.6 milligrams per milliter (mg/ml) at pH 3.0 on 10th day. The medium containing molasses and other compositions gave the yield of 10.4 mg/ml, whereas corncob medium and other compositions gave the yield of 5.3 mg/ml at pH 2.5. The medium containing molasses and corncob separately with 5 percent (%) sucrose gave the highest yield of 12.6 mg/ml and 6.7 mg/ml at pH 3.0 respectively. Different factors affecting citric acid production by fermentation were also studied. Sucrose was found superior for maximum citric production at optimum incubation temperature at 30 degree Celsius (â°C). The nitrogen supplements, ammonium sulphate and ammonium chloride at a concentration of 0.25 % and 0.5% respectively gave the highest yield, whereas the methanol concentration of 2% was found optimum for obtaining maximum yield of citric acid.

Conclusion: Molasses and corncob when replaced with sucrose in the fermentation medium produced significant amount of citric acid. The results imply the effective use of molasses and corncob as an alternative substrate for the production of commercially valuable, citric acid with a cost effective approach.

Downloads

Download data is not yet available.

References

Rohr MA. Century of citric acid fermentation and research. Food Technol Biotechnol 1998;36:163-71.

Pandey A, Soccol RC, Rodriguez-Leon JA, Nigam P. Production of organic acids by solid-state fermentation. In: Solid-State Fermentation in Biotechnology-Fundamentals and Applications. Asiatech Pub Inc 2001;7:113-26.

Scheele C. Sammtliche physische and chemische werke, Hermbstadt, Berlin. Crells Ann 1784;2:1.

Wehmer C. Note sur la fermentation Citrique. Bull Soc Chem France 1893;9:728.

Currie JN. The citric acid fermentation of A. niger. J Biol Chem 1917;31:5.

Grimoux E, Adams P. Synthese de lácide citrique. CR Hebd Seances Acad Sci 1880;90:1252.

Yokoya F. Citric acid production. In: Industrial Fermentation Series, Campinas, SP. Brazil 1992;4:1-82.

Papagianni M. Advances in citric acid fermentation by Aspergillus niger: Biochemical aspects, membrane transport and modeling. Biotechnol Adv 2007;25:244-63.

Mattey M. Biochemistry of citric acid production by yeasts. In: Kristiansen B, Mattey M, Linden J. Citric acid biotechnology. London: Taylor and Francis 1999;7:33-54.

Usami S. Production of citric acid by submerged culture. Mem School Sci Eng Waseda Uni 1978;42:17-26.

Steinbock FA, Held I, Choojun S, Harmsen HM, Kubicek-pranz EM, Kubicek CP. Regulatory aspect of carbohydrate metabolism in relation to citric acid accumulation by Aspergillus niger. Acta Biotechnol 1991;11:571-81.

Alexopolous CJ. Introductory mycology. 4th ed. John Wiley, Sons Inc; 1962.

Roukas T. Fermentation of citric acid with cellulase hydrolite by Aspergillus niger. Appl Biochem Biotechnol 1998;74:43-53.

Kundu S, Panda T, Majumdar SK, Guha B, Bandyopadhyay KK. Pretreatment of Indian cane molasses for increased production of citric acid. Biotechnol and Bioeng, John Wiley & Sons, Inc; 1984;26:1114-21.

Amenaghawon NA, Nwaru KI, Aisien FA, Ogbeide SE, Okieimen CO. Application of Box-behnken design for the optimization of citric acid production from corn starch using Aspergillus niger. Br Biotechnol J 2013;3:236-45.

Sadashivam S, Manickam A. Biochemical methods. 3rd ed. New Age International; 1966.

Dubois M, Gills KA, Hamilton JK, Rober PA, Smith F. Colorimetric method determination sugars and related substances. Anal Chem 1956;28:350.

Marier IR, Boulet M. Direct determination of citric acid in milk with an improved pyridine-acetic anhydride method. J Dairy Sci 1958;4:1683-92.

Morse EE. Anthrone in estimating low concentration of sucrose. Anal Chem 1947;19:1012-3.

AOAC, Official methods of analysis. 16thed. Association of official analytical chemists, Washington; 1995.

Dubey RC. Primary metabolites: organic acids. In: A textbook of biotechnology. 4th ed. S Chand, Company Ltd, New Delhi; 2003.

Prescott S, Dunn A. Industrial Microbiology. CBS Publishers and Distributors, New Delhi, India; 1987;4:710-5.

Rohr M, Kubicek CP, Kominek J. Citric acid. In: Biotechnology, VCH Publishers: Weinheim 1983;3(1):331-73.

Roukas T, Kotzekiodou P. Pretreatment of date syrup to increase citric acid production. Enzyme Microb Technol 1997;21:273-6.

Bayraktar E, Mehmetoglu U. Production of citric acid using immobilized conidia of Aspergillus niger. Appl Biochem Biotechnol 2000;87:117-25.

Mahin AA, Hasan SM, Khan MH, Begum R. Citric acid production by A. niger 79/20 Aspergillus niger through solid-state fermentation in sugarcane bagasse. Bangladesh J Microbiol 2007;4(1):9-13.

Begum AA, Choudhury N, Islam MA. Citric acid fermentation by gamma ray induced mutants of Aspergillus niger in different carbohydrate media. J Ferment Eng 1990;70(4):286.

Shu P, Johnson MJ. Effect of the composition of the sporulation medium on citric acid production by Aspergillus niger in submerged culture. J Bacteriol 1947;54:161-7.

Elholi MA, Al-Delaimy KS. Citric acid production from whey with sugars and additives by Aspergillus niger. Afr J Biotechnol 2003;2(10):356-9.

Hossain M, Brooks JD, Maddox IS. The effect of sugar source on citric acid production by Aspergillus niger. Appl Microbiol Biotechnol 1984;19:393-7.

Xu DB, Madrid CP, Rohr M, Kubicek CP. The influence of type and concentration of the carbon source on production of citric acid by Aspergillus niger. Appl Microbiol Biotechnol 1989;30:553-8.

Gupta JK, Heding LG, Jorgensen OB. Effect of sugars, hydrogen ion concentration and ammonium nitrate on the formation of citric acid by Aspergillus niger. Acta Microbiol Acad Sci Hung 1976;23:63-70.

Guebel DV, Darias NVT. Optimization of the citric acid production by Aspergillus niger through a metabolic flux balance model. Electron J Biotechnol 2001;4(1):1-17.

Pandey A. Solid-state fermentation. Biochem Eng J 2003;13:81-4.

Grewal HS, Kalra KL. Fungal production of citric acid. Biotechnol Adv 1995;13:209-34.

Kiel H, Gurin R, Henis Y. Citric acid fermentation by Aspergillus niger on low sugar concentration and cotton waste. Appl Envt Microbiol 1981;42:1-4.

Ingram LO, Buttke TM. Effects of alcohols on microorganism’s. Adv Microb Physiol 1984;25:253.

Vandenberghe LPS, Soccol CR, Pandey A, Lebeault JM. Review: Microbial production of citric acid. Braz Arch Biol Technol 1999;42:263-76.

Moyer AJ. Effect of alcohols on the mycological production of citric acid in surface and submerged culture. Appl Microbiol 1953;1:1-7.

Hang YD, Woodams EE. Utilization of grape pomace for citric acid production by Solid state fermentation. Am J Enol Vitic 1986;37:141-2.

Panda T, Kundu S, Majumdar SK. Studies on citric acid production by Aspergillus niger using treated Indian cane molasses. J Microbiol 1984;52(2):61-6.

Arzumanov TE, Shishkanova NV, Finogenova TV. Biosynthesis of citric acid by Yarrowia lipolytica repeat-batch culture on ethanol. Appl Microbiol Biotechnol 2000;53:525-9.

Published

01-05-2015

How to Cite

Shetty, V. G. “PRODUCTION AND OPTIMIZATION OF CITRIC ACID BY ASPERGILLUS NIGER USING MOLASSES AND CORNCOB”. International Journal of Pharmacy and Pharmaceutical Sciences, vol. 7, no. 5, May 2015, pp. 152-7, https://mail.innovareacademics.in/journals/index.php/ijpps/article/view/5327.

Issue

Section

Original Article(s)