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Chapter-VII

Bibliography

Chapter-VI Bibliography

Bioethanol production-2014 00

American association of cereal chemists, (AACC), (1983), Method: 30-25, The association: St.

Paul, Minnesota, United States of America, P1.

Abah S. E, Shugaba Aliyu and Bukbuk D.N., (2010) “Potentials of wild strain Saccharomyces

cerevisiae in ethanol production”, American-Eurasian Journal of Scientific Research,

5(3):187-191.

Abasaeed, A.E, Gaily. M.H, Sulieman, A.K, Zeinelabdeen, M.A, Al-Zahrani, S.M and Atiyeh,

H.K, (2012), “The effects of activation time on the production of fructose and

bioethanol from date extract”, African Journal of Biotechnology, Volume.11 (33), pp.

8212-8217.

Abd El-Ghany T.M, Magdy M. A, Mohamed. A, Al Abboud, Taher M. Taha and Khaled E.

G., (2011), “Biorefinery of Industrial Potato Wastes to ethanol by Solid State

Fermentation”, Research Journal of Agriculture and Biological Sciences, 7(1): 126-

134.

Abdullah and Dessy Ariyanti., (2012), “Enhancing ethanol production by fermentation using

Saccharomyces cerevisiae under vacuum condition in batch operation”, International

Journal of Renewable Energy Development, 1: 6-9.

Abhirup Sen, Johri. T, and Bisht. N.H., (2008), “Analysis of the effects of anthropogenic

interferences on tree species composition in the forests of Dadra and Nagar Haveli,

India”, Current Science, Volume-95, No. 1. p: 50-59.

Abu Bakar, Law S.V, Mat Hashim D. and Abdul Hamid, A., (2011), “Popular fermented foods

and beverages in Southeast Asia”. International Food Research Journal, 18: 474-483.

Achaya. K.T., (1991), “Alcoholic fermentation and its products in ancient India”, Indian

Journal of History of Science, 26, (2), p: 123-129.

Acourene. S and Ammouche. A., (2010), “Optimization of culture medium for baker’s yeast,

ethanol, citric acid and α-amylase production from dates syrup”. Research Journal of


Bioethanol production-2014 Page 201

Agriculture and Biological Sciences, 6(6): p: 846-860.

Adhikari. D.K, Jain. R.K, Thakur Vasanta V, Pandey Diwakar, Dixit A.K and Mathur R.M.,

(2011), “Bioethanol from Bagasse Pith: a lignocellulosic waste biomass from

paper/sugar industry”, Indian Institute of Petroleum, Journal of Petroleum Technology

and Alternative Fuels. Volume-23, no-1, p: 169-174.

Adinarayana Reddy. C and Mohamed M.A., (1986), “Direct fermentation of potato starch to

ethanol by cocultures of Asperigillus niger and Saccharomyces cerevisiae”, Applied

and Environmental Microbiology”, Volume-52, No: 5, p: 1055-1059.

Adler J. H, Micheal A. Gealt, David Nes. W, and William R. Nes., (1981), “Growth

Characteristics of Saccharomyces cerevisiae and Aspergillus nidulans when biotin is

replaced by aspartic and fatty acids”, Journal of General Microbiology, Volume-122,

p: 101-107.

Ajay Singh, and Singh, I.S., (1991). “Chemical evaluation of mahua (Madhuca indica) seed”,

Food Chemistry, Volume-40, Issue -2, Pages-221-228.

Akharaiyi. F.C and Omoya F.O., (2008), “Studies on qualitative and quantitative

characterization of alcoholic beverages from tropical fruits”, Research Journal of

Microbiology, 3(6): 429-435.

Akin-Osanaiye, B.C, Nzelibe. H.C, and Agbaji, A.S., (2005), “Production of ethanol from

Carcia papaya (pawpaw) agro waste: effect of saccharification and different treatments

on ethanol yield”. African Journal of Biotechnology. Volume-4 (7), pp.657-659.

Akpomie, O.O and Akponah, E., (2012), “Optimization of bio-ethanol production from

cassava effluent using Saccharomyces cerevisiae”, African Journal of Biotechnology,

volume-11(32), p: 8110-8116.

Akrida-Demertzi. K and Koutinas. A.A, (1991), “Optimization of sucrose ethanol fermentation

for K, Na, Ca and Cu metal contents”, Applied Biochemistry and Biotechnology,



volume: 30.

Akrida-Demertzi. K and Demertzis. P.G (1988), “pH and trace –elements content in raisin

extract industrial-scale alcoholic fermentation”. Biotechnology and Bioengineering,

Volume-31, p: 666-669.

Albers. E, Larsson. C, Liden. G, Niklasson. C, and Gustafsson. L, (1996), “Influence of the

nitrogen source on Saccharomyces cerevisiae anaerobic growth and product

formation”. Applied and Environmental Microbiology, Volume-62, No.9, p.3187-3195.

Amartey. S.A, and Jerald P.C.L., (2010), “Corn steep liquor as a source of nutrients for

ethanologenic fermentation by Bacillus stearothermophilus T-13”, Bulletin of the

Chemists and Technologists of Macedonia, Volume-19, No. 1, p: 65-71.

Andhra Pradesh Pollution Control Board (APPCB) (2004), “Prospects of ethanol: a sustainable

biofuel”, Information bulletin, Publication-116, p: 1-3.

Anil Lakke, (2002), “Biofuel from D-xylose- the second most abundant sugar”, Resonance, P:

50-58.

Anindya Bhattacharya, (2011), “Biofuel production and water constraint: An effective

utilization of watershed projects in India”, International Journal for Sustainable

Innovations, Volume-1, N0:1, p: 46-54.

Anshu Bharadwaj, Rahul Tongia, and Arunachalam. V.S., (2007), “Scoping technology

options for India’s oil security: ethanol for petrol”, Current Science, Vol:92, No.8,

p:1071-1077.

Anshu Tyagi, Pallavi Pal, and Manoj Kumar., (2011), “Ethanol production: By using yeast

immobilized cells”, Internet Journal of Food Safety, Vol: 13, p.77-80.

Association of official agricultural chemists, (AOAC), (2000), Official methods of analysis.

17th Ed. Gaithersburg, MD, Method: 930.15.



American public health association (APHA), (1967), “Compendium of methods for

microbiological examination of food”, Lin. Speck. MI. (Ed). Washington (DC).

Aristidon, A and Penttila. M., (2000), “Metabolic engineering application to renewable

resource utilization”. Current Opinion in Biotechnology, 11, pp. 187-198.

Arrizon J, and Gschaedler A., (2002). “Increasing fermentation efficiency at high sugar

concentrations by supplementing an additional source of nitrogen during the

exponential phase of the tequila fermentation process”. Canadian Journal of

Microbiology, 48: 965-970.

Arumugam. R, and Manikandan. M., (2011), “Fermentation of pretreated hydrolysates of

banana and mango fruit wastes for ethanol production”. Asian Journal of Experimental

Biological Sciences. Volume- 2(2), p: 246-256.

Auld D.S, Atsuya. J, Campino. C, and Valen Zuelo. P., (1976), “Yeast RNA Polymerase I: A

eukaryotic zinc metalloenzyme”. Biochemistry and Biophysics Research

Communication, New York, 69: 548-554.

Awatif Abid Al-judaibi., (2011), “Effect of some fermentation parameters on ethanol

production from beet molasses by Saccharomyces cerevisiae CAIM13”, American

Journal of Agricultural and Biological Sciences, 6 (2): 301-306.

Awolu Olugbenga O, and Ibileke Ibiyemi, O., (2011), “Bioethanol production from brewer’s

spent grain, bread wastes and corn fiber”, African Journal of Food Science, Volume-

5(3), pp. 148-155.

Ayyanna. C, Sunita. I, and Subba Rao. M.V., “Optimizations of medium constituents and

fermentation conditions for the productions of L-glutamic acid by the coimmobilized

whole cells of Macrococcus glutamicus and Pseudomonas reptilivora (1998),

Bioprocess Engineering, 18: 353-359.

Bai, F.W, Anderson, W.A and Moo-Young, M., (2008), “Ethanol fermentation technologies



from sugar and starch feedstocks”. Biotechnology Advances, 26: 89-105.

Bajaj, B.K., Sheema,Y and Thakur. R.L., (2001), “Selection and characterization of yeasts for

desirable fermentation characteristics”. Indian Journal of Microbiology, 41: 107-110.

Balaji Raja. R, Ramesh. A and Asha, D.L., (2010), “Production of bio-ethanol from

Pectobacterium carotovorum induced soft rotten potatoes”, African Journal of

Microbiology Research, volume-4(12). pp: 1340-1342.

Balasubramanian. K, Ambikapathy. V, and Panneerselvam. A., (2011), “Studies on ethanol

production from spoiled fruits by batch fermentations”, Journal of Microbiology

and Biotechnology Research, 1 (4), p: 158-163.

Balat. M and Balat. H., (2009), “Recent trends in global production and utilization of bio-

ethanol fuel”, Applied Energy, 86:2273-2282.

Barbulescu. I.D, Rusu. N, Rughinis .R, Popa. O, Stafaniu. A and Casarica. A., (2010),

“Obtaining yeast biomass enriched with copper, zinc, and Manganese”, Romanian

Biotechnological Letters, Volume-15, No-1, page: 5008-5016.

Barry. D. Solomon, Justin R. Barnes, and Kathleen E. Halvorsen., (2007), “Grain and

cellulosic ethanol: history, economics, and energy policy” Biomass and Bioenergy,

Volume-31, Issue 6, Pages 416-425.

Basanta Kumar Das, (2010). “Identify cation of Abiotic and Biotic factors causing

deterioration during storage and development of storage techniques for Mahua

(Madhuca indica Syn. Bassia latifolia) flowers”, “Plant Physiology and Biochemistry

Research Laboratory and National Institute of Horticultural and Herbal Science,

Volume-75, No. 3 p: 119-125.

Bekatorou. A, Costas. P and Athanasios A. K., (2006), “Production of food grade yeasts”,

Food Technology and Biotechnology. 44 (3) 407–415.



Belavady. B, and Subramanian, S.C.B. (1959), “Nutritive value of some indian fruits and

vegetables”, Indian Journal of Agricultural Science, 29: 151-163.

Benerji. D.S.N, Rajini. K, Srinivasa Rao. B, Banerjee. D.R.N, Swaroopa Rani. K, Rajkumar.

G, and Ayyanna. C., (2010), “Studies on Physico-Chemical and Nutritional parameters

for the production of ethanol from Mahua flower (Madhuca indica) using

Saccharomyces cerevisiae”, Journal of Microbiology and Biochemical Technology,

Volume-2, Issue: 2.

Benhadja. L, Taillandier.P, Strehaiano.P, and Boutekrabt.T., (2010), “Temperature and yeast

strain’s impact on the kinetics of some volatile compounds production during the

alcoholic fermentation of Mauzac Grape Juice”, Review of Microbial Industry.

Volume- 4, No-2, p: 48-68.

Berg. J.M, and Tymoczko, L., (2002), Stryer: Biochemistry, WH Freeman and Company, New

York, pp. 270, 465, 687.

Bienkowski.M, Tsao. G.T, Ladisch, M.R, and Voloch. M., (1982), “Production of ethanol and

chemicals from cellulosic materials”, Process Biochemistry, p-34-38.

Bijender K. B and Sharma. S., (2010), “Construction of killer industrial yeast Saccharomyces

cerevisiae HAU-1 and its fermentation performance”, Brazilian Journal of

Microbiology, 41: 477-485.

Bishnu P. Chatterjee, and Nupur Sarkar., (1983), “Some structural features of the

polysaccharide of Mahua (Madhuca indica) flowers”. Carbohydrate Research,

Volume: 112, Issue 1, p: 113-121.

Bishnu P. Chatterjee, and Nupur Sarkar., (1984), “Structural studies on a polysaccharide of

Mahua (Madhuca indica) flowers”, Carbohydrate Research, 127 (2), p. 283-295.

Blackwell. K.J, Tobin. J.M and Avery, S.V., (1998), “Manganese toxicity towards

Saccharomyces cerevisiae: dependence on intracellular and extracellular magnesium



concentrations”, Applied Microbiology Biotechnology. 49:751-757.

Blazek. E. (2007). “Ethanol from organic sugar beets categories”. http://www.appropedia.org/.

Bohlscheid. J.C, Fellman. J.K, Wang. X.D, Ansen. D and Edwards, C.G., (2007), “The

influence of nitrogen and biotin interactions on the performance of Saccharomyces in

alcoholic fermentations”. Journal of Applied Microbiology, Volume-102, No.2, p: 390-

400.

Bonara, A. and Mares, D. (1982). “A simple colorimetric method for detecting cell viability in

culture of eukaryotic micro organisms”. Current Microbiology, Volume-7, 217- 222.

Boral. D Roy, and Bhattacharya. I.K, (1999), “Aerobiology, Allergencity and Biochemistry of

Madhuca indica Gmel. Pollen”, Annals of Agricultural and Environmental Medicine,

6(2):87-90.

Box G.E.P and Wilson K.B., (1951). “On the experimental attainment of optimum conditions”.

Journal of the Royal Statistical Society, 13:1-45.

Brayan, W.L. and Silman, R.W., (1991). “Viability and initial kinetic parameters for dry yeast

inocula in batch fermentations”, Enzyme and Microbial Technology, 13 (1): 2-8.

Brian R. Gibson., (2011), “125th Anniversary Review: Improvement of Higher Gravity

Brewery fermentation via wort enrichment and supplementation”, Journal of Institute

of Brewing. 117(3), 268–284.

British Pharmacopeia., (2007), “Monograph of ethanol: Analysis of volatile impurities”. p:

140.

Camacho-Ruiz. L, Perez Guerra, N, and Parez Roses. R., (2003), “Factors affecting the growth

of Saccharomyces cerevisiae in batch culture and in solid state fermentation”.

Electronic Journal Environmental Agriculture, and Food Chemistry, 2 (5), p: 531-542.



Camelia Bonciu, Cristiana Tabacaru and Gabriels Bahrim., (2010), “Yeast isolation and

selection for bioethanol production from inulin hydrolysates”, Innovative Romanian

Food Biotechnology, Volume: 6, p: 29-34.

Cardona. C.A and Oscar, J.S., (2007), “Fuel ethanol production: Process design trends and

integration opportunities”, 98:2415-2457.

Cardona. C.A and Oscar, J.S., (2008), “Trends in biotechnological production of fuel ethanol

from different feedstocks”, Bioresourse Technology, 99: 5270-5295.

Casey. G.P, Magnus. C.A, and Ingledew W.M., (1983), “High gravity brewing: nutrient

enhanced production of high concentrations of ethanol by brewing yeast”,

Biotechnology Letters. 5: 429-434.

Casey. G.P, Magnus. C.A, and Ingledew W.M., (1984), “High gravity brewing: effect of

nutrition on yeast composition, fermentative ability and alcohol production”, Applied

and Environmental Microbiology, 48: 639-646.

Castillo. F.J, Izagurre M.E, Michelena. V, and Moreno. B., (1982). “Optimization of

fermentation of fermentation conditions for ethanol production from whey”,

Biotechnology Letters. Volume-4, No-9, p: 567-572.

Caylak. B, and Vardar Sukan. F., (1998), “Comparison of different production processes for

bioethanol”, Turkish Journal of Chemistry, 22, 351 - 359.

Cecilia Laluce, Crisia S. Souza, Karen F. Oliveira, and Henrique C. Trevisan., (2007), “A

Strategy to compare yeast strains and improve cell survival in ethanol production

processes above 30°C”. Communicating Current Research and Educational Topics and

Trends in Applied Microbiology, A. Méndez-Vilas (Ed.), p: 410-417.

Chandrani Wijeyaratne. S., (1998), “Temperature tolerance and other properties of two ethanol

producing Saccharomyces cerevisiae strains isolated from coconut toddy”, Journal of

National Science foundation, 26 (2):77-91.



Chandrasena. G, Walker, G.M, and Staines, H.J., (1997), “Use of response surfaces to

investigate metal ion interactions in yeast fermentations”, Journal of the American

Society of Brewing Chemists, 55, 24-29.

Chandrashekar. B, Mohit S.M, Kavita Sharma, and Sushma Dubey., (2011), “Bio-ethanol

production from textile cotton waste via dilute acid hydrolysis and fermentation by

Saccharomyces cerevisiae”, Journal of Ecobiotechnology, 3(4): 06-09.

Chongkhong. S, Lolharat. B, and Chetpattannanodh. P., (2012), “Optimization of ethanol

production from fresh jackfruit seeds using response surface methodology”, Journal of

Sustainable Energy and Environment”, 3:97-101.

Christer larsson, Elisabeth Thomsson, Eva Albers, Annika Nilsson, Carl Johan Franzen, and

Lena Gustafsson., (2003), “Carbon starvation can induce energy deprivation and loss

of fermentative capacity in Saccharomyces cerevisiae”, Applied and Environmental

Microbiology, Volume-69, No: 6, p: 3251–3257.

Cimpeanu.C, Cimpeanu. G, Begea, M, Vladescu, M, and Cornea, C.P., (2010), “Bioethanol

production by new thermotolerant Romanian yeast strains”. Romanian

Biotechnological Letters, Volume-15, No.3, p-5310-5316.

Clarence S. Yah, Sunny E. Lyuke, Emmanuel I. U, Odelia Pillay, Chetty Vishanta, and Samuel

M. Tessa., (2010), “Temperature optimization for bioethanol production from corn

cobs using mixed yeast strains”, Online Journal of Biological Sciences, 10(2): 103-

108.

Conway.E.J. and Moore.P.T, (1954), Biochemistry Journal, 57, 523.

Crane E., (1975). “Honey: Wines from the fermentation of honey”. Heinemann, London.

p.400.

Cristina A. Viegas, Regina C. Nabais, Isabel Sa-Correia, and Julio M. Novais., (1988),



“Influence of calcium ion on ethanol tolerance of Saccharomyces bayanus and

alcoholic fermentation by yeast”. Applied and Environmental Microbiology, Volume-

54, No: 10, p: 2439-2446.

Csonka, L. N., (1989), “Physical and genetic responses of bacteria to osmotic stress”.

Microbiology Review. 53:121–147.

Cysewski, G.R and Wilke, C.R (1976b), “Fermentation kinetics and process economics for the

production of ethanol”, Report LBL-4480, Lawrence Berkely laboratory, Berkely, ca.

Dahiya, D.S, Dhamija, S.S, Yadav, B.S. and Tauro, P., (1986), Proceedings of Annual

Convention of Sugar Technology Association., India, 49th G49-56.

Dake.M.S, Amarapurkar, S.V, Salunkhe, M.L and Kamble, S.R., (2010), “Production of

alcohol by Saccharomyces sp. using natural carbohydrate sources”, Advanced Biotech.

Volume-10 Issue: 06, p: 37-41.

D'Amore. T, Celotto, G, Russell. I, and Stewart, G.G., (1989), “Selection and optimization of

yeast suitable for ethanol production at 40 °C”, Enzyme and Microbial Technology,

11:411-416.

Daria Szymanowska, and Wlodzimierz Grajek., (2011), “Energy saving and by-products-free

production ethanol from granular corn starch”, Journal of Biotechnology,

Computational Biology and Bionanotechnology, Volume-92(1). p: 85-91.

Das. B.K, Choudhury. B.K, and Kar, M., (2010), “Quantative estimation of changes in

biochemical constituents of mahua (Madhuca indica syn Brassica latifolia) flowers

during postharvest storage”. Journal of food Processing and Preservation, Volume-34,

Issue: 5, pages: 831-844.

Dilip K. Adhikari, Diptarka Dasgupta, Sunil Kumar Suman, Diwakar Pandey, Debashish

Ghosh, Rashmi Khan, Deepti Agrawal, Rakesh Kumar Jain, and Vasanta Thakur

Vadde., (2013), “Design and optimization of ethanol production from bagasse pith



hydrolysate by thermotolerant yeast Kluyveromyces sp. IIPE453 using response surface

methodology”, Springerplus, 2:159. doi: 10.1186/2193-1801-2-159

David I Ellis, and Royston Goodacre., (2012), “Metabolomics assisted synthetic biology”,

Current Opinion in Biotechnology, 23:22-28.

Deshpande. G.B., (2002), “Overview of continuous alcohol fermentation and miltipressure

distillation technology”, Proc F African Sugar Technology Association, 76: 574-581.

Devendra P. Maurya, Dhananjay Singh, Durgesh Pratap, Jitendra P. Mourya., (2012),

“Optimization of solid state fermentation conditions for the production of cellulase by

Trichoderma reesei”, Journal of Environmental Biology, 33, 5-8.

Donny Widianto, Akbar Arofatullah, Triwibowo Yuwono, and Irfan Dwidya Prijambada.,

(2010), “Ethanol production by various sweet-stalk sorghum juices using various Yeast

strains”, Indonesian Journal of Biotechnology, volume-15, No: 2, p: 86-92.

Douglas J. Levey, (2004), “The evolutionary ecology of ethanol production and alcoholism”,

Integrational Computational Biology, 44:284–289.

Du Toit. M, Malherbe. S, and Bauer. F.F., (2007) “Understanding problem fermentations – A

Review”, South African Journal of Enology Viticulture, Volume- 28, No. 2, p: 169-

186.

Dubravko Macesic, Darko Uher and Zvonimir Stafa., (2008), “Biomass production and

ethanol potential from sweet sorghum in Croatia”, VII. Alps-Adria Scientific

Workshop Stara Lesna, Slovakia, p: 527-530.

Dwight. L. Miller., (1975), “Ethanol fermentation and potential”, Biotechnology &

Bioengineering Symposium. No.5, 345-352.

Ebru Toksoy Oner, Stephen G. O, and Betul Kirdar., (2005), “Production of Ethanol from

Starch by Respiration-Deficient Recombinant Saccharomyces cerevisiae”, Applied and



Environmental Microbiology, Volume- 71, No: 10, p: 6443–6445.

Elena Patrascu, Gabriela Rapeanu, and Traian Hopulele., (2009), “Current approaches to

efficient biotechnological production of ethanol”, Innovative Romanian Food

Biotechnology, Volume-4, Issue of March, p.1-11.

Elsa Ramalhosa, Terasa Gomes, Carla Barradas, Joao Verdial, Jorge Sa Morais and

Leticia M.E., (2013), “Optimization of mead production using Response Surface

Methodology”, Food and Chemical Technology, 59, p: 680-686

Emilia Lima Costa.M, Sara Raposo, Joao M. Pardao, and Inti Diaz., (2009), “Kinetic modeling

of bioethanol production using agro-industrial by products”, International Journal of

Energy and Environment, Issue 1, volume-3. Page: 1-8.

Energy Independence and Security Act (2007), Public Law P.L. 110-148. H.R: 6.

[http://frwebgate.access.gpo.gov/cgi-bin/getdoc.cgi?dbname=110 cong bills & docid

=f:h6enr.txt.pdf].

Eny Ida Riyanti, and Peter L. Rogers., (2009), “Kinetic Evaluation of Ethanol-Tolerant

Thermophile Geobacillus thermoglucosidasius M10EXG for Ethanol Production”,

Indonasian Journal of Agricultural Science, 10 (1) p: 34-41.

Essia Ngang. J.J, Letourneau. F, and Villa. P., (1989), “Alcoholic fermentation of beet

molasses: effect of lactic acid on yeast fermentation parameters”, Applied

Microbiology and Biotechnology, 31: 125-128.

Eshtiaghi, M.N, Yoswathana, N, Kuldiloke. J and Ebadi. A.G., (2012), “Preliminary study for

bioconversion of water hyacinth (Eichhornia crassipes) to ethanol”. African Journal of

Biotechnology, Volume-11(21), pp. 4921-4928.

Eufrozina Niga., (2009), “Biotechnological production of bioethanol from different feedstocks:

A review”, Stiinte ingineresti, Doct-US, an I, nr. 1, pp.85-90.



Flinckinger. M.C and Drew S.W., (1999), “Energy metabolism, microbial and cells”.

Encyclopedia Bioprocess Technology: Fermentation Biocatalyst Bioseparation, 2: 39.

Fuad Salem Eshaq, Mir Naiman Ali and Mazharuddin Khan. M., (2011), “Production of

bioethanol from next generation feed-stock alga Spirogyra species”, International

Journal of Engineering Science and Technology (IJEST), Volume-3, No. 2, p: 1749-

1755.

Fundora. N, Vldes, I., Garcia, R., Hernandez, L.M., Porto, O. and Gonzalez, M.D., (2000),

“Influence of nitrogen salts on alcohol production”. Revista ICIDCA Sobre Los

Derivados De La. Cana. Dec Azucar, 34, 2.

Gaber Z. Breisha, (2010), “Production of 16% ethanol from 35% sucrose”, Biomass and

Bioenergy, 34: 1243-1249.

Galbe. M, and Zahicchi. G.A., (2002), “A review of the production of ethanol from softwood”,

Applied Microbial Biotechnology, 59:618-628.

Ganga. M.A, Garcia. V, Vasquez. H, Fonseca. F, Manzanares. P, Viana. F, and Martinez. C.,

(2010), “Effects of using mixed wine yeast cultures in the production of Chardonnay

wines”, Revista Argentina de Microbiologia, 42: 226-229.

George W. Malaney, Chia Jenn Wei, and Robert D. Tanner., (1982),“Effect of sodium chloride

on bakers' yeast growing in gelatin”, Applied and Environmental Microbiology,

Volume-43, No. 4, p. 757-763.

Gervasio P. Da Silva, Elza F. de Araujo, Daison O. Silva, and Walter V. Guimaraes., (2005)

“Ethanolic fermentation of sucrose, sugarcane juice and molasses by Escherichia coli

strain KO11 and Klebsiella Oxytoca strain P2”, Brazilian Journal of Microbiology,

36:395-404.

Ghanadzadeh. H, and Ghorbanpour. M., (2012), “Optimization of ethanol production from

cheese whey fermentation in a batch-Airlift bioreactor”, Journal Bioengineering &



Biomedical Science, 2:2.

Gopal Reddy, Harish Kumar Reddy. Y., Srijana. M., and Madhusudhan Reddy. D., (2010).

“Coculture fermentation of banana agro-waste to ethanol by cellulolytic thermophilic

Clostridium thermocellum CT2”, African Journal of Biotechnology, Volume-9 (13), p:

1926-1934.

Gopinadh. R, Prof. Ayyanna. C, Narayana Saibaba. K.V, and Jagadhi. R., (2012), “Statistical

experimental design for citric acid production using Madhuca indica”, Journal of

Pharmacy Research, 5(1), 374-376.

Graeme M. Walker and John H Duffus (1980). “Magnesium ions and the control of the cell

cycle in yeast”. Journal of Cell Science. 42: 329-356.

Gray, W.D., (1941), “Studies on the alcohol tolerance of yeast”, Journal of Bacteriology,

42:561-574.

Gutierrez L.E., (1993), “Effect of some vitamins and micronutrient deficiencies on the

production of higher alcohols by Saccharomyces cerevisiae”. Science Agriculture.

Piracicaba. 50(3): 484-489.

Hari Krishna.S, Chowdary. G.V, Reddy. D.S, and Ayyanna. C., (1999), “Simultaneous

saccharification and fermentation of pretreated Antigonum leptopus (Linn) leaves to

ethanol”, Journal of Chemical Technology and Biotechnology, 74:1055-1060.

Hari Krishna. S, and Chowdary. G.V., (2000), “Optimization of simultaneous saccharification

and fermentation for the production of ethanol from lignocellulosic biomass”, Journal

of Agriculture Food Chemistry. 48: 1971-1976.

Harinder Singh Oberoi, Naresh Sharma, Kalra. K.L, and Sunil Bansal., (2007), “Optimization

of fermentation parameters for production of ethanol from Kinnow waste and banana

peels by simultaneous saccharification and fermentation”. Indian Journal of

Microbiology, 47:310-316.



Hemamalini.V, Saraswathy. S.G.E, Hema. C, and Geetha. S., (2012), “Comparative study of

continuous ethanol fermentation from molasses by using Saccharomyces cerevisiae

and Schizosaccharomyces pombe”, International Journal of Current Science, 219-228.

Hennell, H. (1828). "On the mutual action of sulfuric acid and alcohol and on the nature of the

process by which ether is formed". Philosophical Transactions, 118: 365.

Hernandez Sanchez. H, Inei Shizukawa. G, Velasco Bedran. H.A, and Gutierrez Lopez. G.F.

(2009), “Statistical approach to optimization of ethanol fermentation by

Saccharomyces cerevisiae in the presence of valfor@ NAA”, Revista Mexicana De

Ingenieria Quimica, Volume-8, no-3, 265-270.

Highina. B.K, Hashima, I, and Bugaje. I.M., (2011), “Optimization of ethanol production from

sugarcane molasses in Nigeria”, Journal Applied Technology and Environmental

Sanitation, Volume-1, No-3, p: 233-237.

Hiroshi Takagi, Miki Takaoka, Akari Kawaguchi and Yoshito kubo., (2005). “Effect of L-

proline on sake brewing and ethanol stress in Saccharomyces cerevisiae”. Applied and

Environmental Microbiology, volume-71, N0-12, p. 8656–8662.

Hou-Chieh Cheng and Feng-Sheng Wang (2008), “Optimal biocompatible solvent design for a

two-stage extractive fermentation process with cell recycling”, Computers and

Chemical Engineering, Volume-32, pp.1385–1396.

Ida. J. Leskosek-Aukalovia and Viktor A. Nedovia., (2005), “Immobilized cell technology in

beer brewing-current experience and results”, Proceedings of Natural Science, No-109,

pp: 129-141.

Imahara. H, Wakatsuki. T, kitamura. T, and Tanaka. H., (1978), Agricultural and Biological

Chemistry. 42:1173-1179.

Ingledew. W.M, and Alison. M, J., (1994), “Fuel alcohol production: Optimization of



temperature for efficient for efficient very high gravity-fermentation”, Applied and

Environmental Microbiology, Volume-60, No: 3, P: 1048-1051.

Ingram. L.O. and Dombek. K.M., (1987), “Ethanol production during batch fermentation with

Saccharomyces cerevisiae: changes in glycolytic enzymes and internal pH”, Applied

and Environmental Microbiology, Volume. 53, No. 6, p. 1286-1291.

Isis Amore, Ignacio Ballesteros, Paloma Manzanares, Felicia Saez, Georgona Michelena, and

Mercedes Ballesteros., (2013), “Ethanol production from sugarcane bagasse pretreated

by steam explosion”, Electronic Journal of Energy and Environment, Volume:1, No:1,

p: 25-36.

Iulia Bleoance, and Gabriela Bahrim., (2013), “Overview on brewing yeast stress factors”.

Romanian Biotechnological Letters, Vol: 18, No: 5, p.8559-8572.

Jacek Nowak, Katarzyna Szambelan, Harri Miettinen, Wlodzimierz Nowak, and Zbigniew

Czarnecki., (2008), “Effect of corn grain storage method on saccharification and

ethanol fermentation yield”, Acta Sci Poli, Technology Alimentaria. 7(1): 19-27.

Javier Arrizon and Anne Gschaedler, (2002), “Increasing fermentation efficiency at high sugar

concentrations by supplementing an additional source of nitrogen during the

exponential phase of the tequila fermentation process”, Canadian Journal of

Microbiology. Volume-48, p: 965-970.

Jayanth Mishra., Deepesh Kumar, Sumeru Samanta, and Manoj Kumar Viswakarma., (2012),

“A comparative study of ethanol production from various agro residues by using

Saccharomyces cerevisiae and Candida albicans”, Journal of Yeast and Fungal

Research, Volume-3(2), pp. 12 – 17.

Jayasree. B, Harishankar. N, and Rukmini. C., (1998), “Chemical composition and biological

evaluation of mahua flower”, Journal of Oil Technology Association of India, 30 (4), p:

170-172.



Jean Michel Salmon, (2006), “Interactions between yeast, oxygen and polyphenols during

alcoholic fermentations: Practical implications”, Elsevier, www.science direct.com,

LWT 39, p: 959-965.

Jirasak Kongkiattikajorn, Arisra Rodmui and Yuwapin Dandusitapun., (2008), “Optimization

of agitation conditions for maximum ethanol production by coculture”, Kasetsart

Journal of Natural Science. 42: 285 – 293.

John D. W, Arthur J. P, and Lorry J. D., (1986), “Design and parametric evaluation of an

enzymatic hydrolysis process (separate hydrolysis and fermentation)”, Biotechnology

and Bioengineering Symposium. No. 17, p: 285-302.

Jones, R.P and Gadd, G.M., (1990), “Ionic nutrition of yeast-physiological mechanisms

involved and implications for biotechnology”, Enzyme Microbial Technology, Volume:

12, Issue: 6, p. 402-418.

Jones, R.P, and Greenfield. P.F., (1984), “A review of yeast ionic nutrition: part-1. growth and

fermentation requirements”. Process biochemistry, 19:48-62.

Jose C. D, Joana Pereira, Susana M. P, Lina Baeta-Hall, Belina R, and Ceu Saagua. M.,

(2010), “Ethanol production from enzymatically pretreated wheat straw”, Proceedings

of the 2nd International Conference of international association Mediterranean Agro-

industrial Wastes., (IAMAW), 17-19, Izmir, Turkey.

Jose Manuel Guillamon, Maria Jesus Torija , Gemma Beltran , Maite Novo , Montse Poblet ,

Nicolas Rozes , and Albert Mas., (2003), “Effect of organic acids and nitrogen source

on alcoholic fermentation: Study of their buffering capacity”, Journal of Agriculture

and Food Chemistry, 51 (4), p: 916–922.

Jovana Rankovic, Stevan Popov, Jelena Dodic, Sinisa Dodic and Aleksandar Jokoc., (2010).

“Bioethanol production from raw juice as intermediate of sugar beet processing: A

response surface methodology approach”, Food Technology Biotechnology. 48 (3)

376–383.



Kalmokoff, M.L, and Ingledew, W.M., (1985), “Evaluation of ethanol tolerance in selected

Saccharomyces strains”, Journal of American Society Brewing Chemistry. 43(3): 189-

196.

Kalpana Pandey and Agarwal. P.K, (1993), “Effect of EDTA, potassium ferrocyanide, and

sodium potassium tartarate on the production of ethanol from molasses by

Saccharomyces cerevisiae”. Enzyme and Microbial Technology, Volume-15, Issue 10,

P: 887-898.

Kargi. F, and Curme J. A., (2004), “Solid state fermentation of sweet sorghum to in a rotary

drum fermentor”, Biotechnology and Bioengineering, 27, 1122-1125.

Kargupta. K, Datta. S, and Sanyal. S.K., (1998), “Analysis of the performance of a continuous

membrane bioreactor with cell recycling during ethanol fermentation”, Biochemical

Bioengineering Journal, 1(1): 31-37.

Karuppaiya. M, Viruthagiri. T, and Manikandan. K., (2012), “Statistical Screening of Medium

Components on Ethanol Production from Cashew Apple Juice using Saccharomyces

diasticus”, International Journal of Chemical and Environmental Engineering, 6, p:

108-111.

Karuppaiya. M, Sasikumar. E, Viruthagiri. T and Vijayagopal. V., (2010), “Optimization of

process variables using response surface methodology (RSM) for ethanol production

from Cashew apple juice by Saccharomyces cerevisiae”, Asian Journal of Food Agro-

Industry. 3(04), 462-473.

Kathiresan.K, Saravanakumar. K, and Senthilraja., (2011), “Bioethanol production by marine

yeasts isolated from coastal mangrove sediment”, International Multidisciplinary

Research Journal, 1/1:19-24.

Kavitha, P.L. (2003). “Studies on transesterified mahua Oil as an alternative fuel for diesel

engines”, Ph.D. Thesis, Anna University, India.



Kim. S and Dale. B.E., (2004), “Global potential bioethanol production from wasted crops and

crop residues”, Biomass Bioenergy, 26, p.361-375.

Khodabocus. F.B, and M. Z. Rahiman., (2004), “The Enhancing of ethanol production from

molasses and cost benefit analysis”, Science and Technology – Research Journal,

Volume- 12. p: 49-53.

Kishore Babu N, Satyanarayana B, Balakrishnan K, Raghava Rao T, and Sheshagiri Rao G.,

(2012), “Study of sugar cane pieces as yeast supports for ethanol production from

sugarcane juice and molasses using newly isolated yeast from toddy sap”,

Mycobiology, 40(1) : 35-41.

Krishnaswamy. T, and Shenbaga Vinayaga Moorthi. N., (2012), “Performance evaluation of

diesel engine with oxygenated bio-fuel blends”, Journal of Engineering and Applied

Sciences, Volume-7, No: 1, p: 10-14.

Kumar, A, Cameron, J.B, and Flyna, P.C., (2005a), “Large scale ethanol fermentation through

pipeline delivery of biomass”. Applied Biochemistry and Biotechnology. 121: pp. 47-

58.

Kumar, A., Cameron, J.B. and Flyna, P.C., (2005b), “Pipeline transport, and simultaneous

saccharification of corn stover”. Bioresource Technolology, 96: pp. 819-829.

Kusmiyati., (2010), “Comparison of iles-iles and cassava tubers as a Saccharomyces cerevisiae

substrate fermentation for bioethanol production”, Bioscience, Volume-2, No-1, p. 7-

13.

Lakkana Loapaiboon, Pongthep Ariyajarearnwong, Prasit Jaisil, and Pattana Laopaiboon.,

(2011), “Repeated-batch ethanol fermentation from sweet sorghum juice by free cells

of Saccharomyces cerevisiae NP 01”, African Journal of Biotechnology, Volume-

10(63), p: 13909-13918.



Le, V.V.M, and Vu. T.K.L., (2010), “Using fed-batch fermentation in high-gravity brewing:

effects of nutritional supplementation on yeast fermentation performance”,

International Food Research Journal, 17: 117-126.

Leland M, Vane, and Shekar Govindaswamy., (2007), “Kinetics of growth and ethanol

production on different carbon substrate using genetically engineered xylose

fermenting yeast”, Bioresource Technology, 98: 677-685.

Lenon, R., Fernandes, P., Pinheiro, H.M. and Carbral, J.M.S., (1998), “Whole cell biocatalysis

in organic media”. Enzyme and Microbial Technology, 23: 483-500.

Leticia Lopez Zamora, Jose Amir Gonzalez Calderon, Evangelina Trujillo Vazquez, and

Eusebio Bolanos Reynosa., (2010), “Optimization of ethanol production process from

cassava starch by surface response”, Journal of Mexican Chemical Society. 54(4), 198-

203.

Leticia Zertuche, and Robert R. Zall., (1985), “Optimizing alcohol production from whey

using computer technology”, Biotechnology and Bioengineering, Volume-XXVII, p:

547-554.

Lee R. Lynd, and Jiayi Zhang., (2010), “Ethanol production from paper sludge by

simultaneous saccharification and co-fermentation using recombinant xylose-

fermenting yeast microorganisms”, Biotechnology and Bioengineering, volume: 107,

no; 2, p: 235-244.

Levenspiel. O., (1980). “The Monod equation: a revisit and a generalization and product

inhibition situations”. Biotechnology Bioengineering, 22: 1671.

Lim Sheng Hong, Dara Ibrahim, and Ibrahim Che Omar., (2013), “Effect of physical

parameters on second generation bioethanol from Oil Palm Frond by

Saccharomyces cerevisiae”, Bioresources, 8(1), p: 969-980.

Lim, H.C. and Lee, K.S., (1991). “Process control and optimization in bioprocess monitoring



and control”. Pons, M.N. (Ed). p: 159-221. New York, Hansar publisher.

Liu R and Shen F., (2008), “Impacts of main factors on bioethanol fermentation from stalk

juice of sweet sorghum by immobilized Saccharomyces cerevisiae (CICC 1308)”.

Bioresource Technology. 99(4):847-54.

Ljiljana Mozovic, Dusanka Pejin, Olgica Grujic, Sinisa Markov, Jelena Pejin, Marica Rakin,

Maja Vukasinovic, Svetlana Nikolic, and Dragisa Savic., (2009), “Progress in the

production of bioethanol on starch based feedstocks”, Chemical Industry & Chemical

Engineering Quarterly 15 (4), 211-226.

Lowry, O.H, Rosinbrough, N.I, Farr, A.L, and Randall, R.J., (1951). “Protein measurement

with the folin phenol reagent”, Journal of Biology and Chemistry, 193, 265-275.

Lucilia Domingues., Francisco B.Pereira, Pedro M.R. Guimaraes, and Jose A. Teixeira.,

(2010) “Optimization of low-cost medium for very high gravity ethanol fermentations

by Saccharomyces cerevisiae using statistical experimental designs”, Bioresource

Technology, Volume-101, p: 7856-7863.

Macfarlane. G.T, and Macfarlane. S., (1993), “Factors effecting fermentation reactions in the

large bowel”, Proceeding of the Nutrition Society, 52:367-373.

Maddox, I. S. and Reichert, S.H. (1977), “Use of response surface methodology for the rapid

optimization of microbiological media”. Journal of Applied Bacteriology, 43, 197–204.

Mahalakshmi.M, J. Angayarkanni, Rajendran. R, and Rajesh. R., (2011), “Bioconversion of

cotton waste from textile mills to bioethanol by microbial saccharification and

fermentation”, Annals of Biological Research, 2(3): 380-388.

Maiorella. B.L, Wilke. C.R, and Blanch. H.W., (1981). “Alcohol Production and Recovery”.

Advanced Biochemical Engineering. 20: 43

Manikandan .T, Umamaheswari. M, Jayakumari. M, Maheswari. K, Subashree. M, and Mala.



P., (2010), “Bioethanol production from cellulosic materials”, Asian Journal of Science

technology. Volume-1, p: 005-011.

Maria Teresa Vasconcelos., Manuel Azenha, and Pedro Moradas Ferreira., (2000), “The

influence of Cu concentration on ethanolic fermentation by Saccharomyces

cerevisiae”, Journal of Bioscience and Bioengineering, Volume-90, No: 2, p: 163-167.

Marikkar. J.M.N, Ghazali, H.M and Long. K., (2010), “Composition and thermal

characteristics of Madhuca longifolia seed fat and its solid and liquid fractions”,

Journal of Oleo Science, 59, (1) 7-14.

Marin Berovic., Jan Mavri, Mojmir Wondra, Tatjana Kosmerl, and Dejan Bavcar., (2003),

“Influence of temperature and carbon dioxide on fermentation of cabernet sauvignon

must”, Food Technology. Biotechnology, 41(4), pp: 353-359.

Marina.O.S.Dias, Adriano V. Ensinas, Silvia A. Nebra, Rubens Maciel Filho, Carlos E.V.

Rossel, and Maria Regina Wolf Maciel., (2009), “Production of bioethanol and other

bio based materials from sugarcane bagasse: integration to conventional bioethanol

production process”, Chemical Engineering Research and Design, 87:1206-1216.

Mary Anupama P, Navin Kumar. T, Hema Sundar Reddy. B and Shiva Naresh. M., (2008).

“Screening and optimization of metal ions to enhance ethanol production using

statistical experimental designs”. African Journal of Microbiology, Volume.2, p. 087-

098.

Mary Anupama. P, Guru Mahesh. D and Ayyanna. C, (2010), “Optimization of fermentation

medium for the production of ethanol from jaggery using Box-Behnken Design”,

International Journal of Applied Biology and Pharmaceutical Technology, Volume-1,

Issue: 1, p: 34-45.

Mary Jim Beck., (1986), “Factors effecting efficiency of biomass fermentation to ethanol”.

Biotechnology and Bioengineering Symposium, No. 17, p: 617-627.



Mason, R.L, Gunst. R.F, and Hess. J.L., (1989), “Statistical design and Analysis of

experiments with application to Engineering and Science”. New York: John Wiley &

Sons. ISBN 0-471-85364-X.

Matilda Olstorpe, (2008), “Feed grain improvement through biopreservation and

Bioprocessing”, Ph.D thesis, Swedish University of Agricultural Sciences.

Mayuri K. Kulkarni, Pallavi T.K, Nitin V.G, Priya R.M, and Sunil S.J., (2011), “Effect of

additives on alcohol production and kinetic studies of S.cerevisiae for sugarcane wine

production”, International Journal of Advanced Biotechnology and Research, Volume-

2, Issue: 1, p: 154-158.

Mazharuddin Khan. M, Munawer Khan, M, and Naiman Ali Mir., (2011), “Production of

ethanol by submerged fermentation from cellulosic substrates by Saccharomyces

cerevisiae”, Biotechnology Bioinformatics Bioengineering. 1(2):183-186.

Mehmet Ali Mazmanci, (2011), “Ethanol production from Washingtonia robusta fruits by

using commercial yeast”, African Journal of Biotechnology, Volume-10(1), pp. 48-53.

Michel Thiry and Doriano Cingolani., (2002), “Optimizing scale up fermentation process”,

Trends in Biotechnology, Volume-20, No: 3, p: 103-105.

Michelle. M.C.M, Arie. J.B, Verklej. J, and Verrips. C.T., (1998), “Glucose repression in

Saccharomyces cerevisiae is related to the glucose concentration rather than the

glucose flux”, Journal Biological Chemistry, 273: 24102-24107.

Miguel Abud Archila, Jorge Alejandro Santiago- Urbina, Lucia Maria Cristina Ventura–

Canseco, Teresa del Rosario Ayora-Talavera, Sandy Luz Ovando-Chacon, Luc

Dendooven Federica and Antonio Gutierrez-Miceli., (2011), “Optimization of ethanol

production from mango pulp using yeast strains isolated from “taberna”: A Mexican

fermented beverage”, African Journal of Microbiology Research, Volume-5(5), p.

501-508.



Mike Knauf, and Kevin Kraus., (2006), “Specific yeasts developed for modern ethanol

production”, Sugar Industry, Volume-131, p. 753-758.

Miller, G.L. (1959), “Use of DNS reagent for determination of reducing sugars”. Analytical

Chemistry, 31, 426–428.

Million Tadege., (1999), “Ethanolic fermentation: New functions for an old pathway”, Trends

in Plant Sciences, Volume- 4, No: 8, pp: 320-325.

Mittal, G.S., (1992). “Food Biotechnology: Techniques and Applications”. Lancaster:

Technomic Publishing Company., New York.

Mobini-Dehkordi. M, Nahvi. I, Ghaedi. K, and Tavassoli. M., (2007), “Isolation high ethanol

resistant strains of Saccharomyces cerevisiae”, Research in Pharmaceutical Sciences,

2: 85-91.

Mogens Wumpelmann., (1984), “Ethanol production with Saccharomyces cerevisiae under

aerobic conditions at different potassium concentrations”, Biotechnology and

Bioengineering, Volume-XXVI, p: 301-307.

Mohamed Hashem and Soumia, M.I.D., (2010), “Production of bioethanol and associated by-

products from potato starch residue stream by Saccharomyces cerevisiae”, Biomass

and Bioenergy, 34:953-959.

Mohit S Mishra, Chandrashekhar B, Tanushree Chatterjee and Kanwal Singh., (2011),

“Production of bioethanol from Jatropha oil seed cakes via dilute acid hydrolysis and

fermentation by Saccharomyces cerevisiae”, International Journal of Biotechnology

Applications, Vol-3, Issue:1, pp: 41-47.

Mostafa. S.E., (2010), “Microbiological aspects of biofuel production: Current status and

future directions”, Journal of Advanced Research, Volume-1, p: 103-111.

Muchanyereyi. N, Togarepi. E, Mapiye. C and Dzomba. P., (2012), “Optimization of



fermentation parameters for ethanol production from Ziziphus mauritiana fruit pulp

using Saccharomyces cerevisiae (NA33)”. International Journal of Biochemistry

Research & Review, 2(2): 60-69. www.sciencedomain.org.

Naik.S.N and Madhumita Patel., (2010), “Flowers of Madhuca indica J.F Gmel: Present status

and future perspectives”, Indian Journal of Natural products and Resources, Volume-

1(4), pp: 438-443.

Nain, L. R. and Rana, R. S., (1990), “Effect of nitrogen and phosphorus on the production of

ethanol from sugarbeet by Saccharomyces cerevisiae”, Research and Development

Reporter, Volume-7 No. 1-2, pp. 169-177.

Najafpour.G.D, Shafaghat. H, Razaei. P.S, and Sharifzadeh. M., (2009), “Growth kinetics and

ethanol productivity of Saccharomyces cerevisiae PTCC 24860 on various carbon

sources”, World applied Sciences Journal, 7(2): 140-144.

Najafpour.G.D, Hoda Shafaghat, Pouya Sirous Rezaei, and Mazyar Sharifzadeh., (2010),

“Optimal growth of Saccharomyces cerevisiae (PTCC24860) on pretreated molasses

for the ethanol production: the application of the response surface methodology”,

Chemical Industry & Chemical Engineering Quarterly, 16(2): 199-206.

www.ache.org.

Nakamura. Y, Kobayashi. F, Ohnaga. M, and Sawada. T., (1997). “Alcohol fermentation of

starch by genetic recombinant yeast having glucoamylase activity”. Biotechnology

Bioengineering. 53:21-25.

Narasimhulu. K, and Hari Krishna Yadav. N., (2010), “Statistical optimization of operating

conditions for the bioconversion of palm oil mill effluent into bioethanol in a 3 litre

computer controlled stirred tank bioreactor”, Journal of Agricultural and Biological

Sciences, Volume-5, No-4, page-19-26.

Neelakandan. T and Usharani. G., (2009), “Optimization and production of bioethanol from

cashew apple juice using immobilized yeast cells by Saccharomyces cerevisiae”,



American-Eurasian Journal of Scientific Research, 4(2): 85-88.

Neelakantam. V, Narendranath and Ronan Power., (2005), “Relationship between pH and

medium dissolved solids in terms of growth and metabolism of Lactobacilli and

Saccharomyces cerevisiae during ethanol production”, Applied and Environmental

Microbiology, p. 2239–2243. Volume-71, No-5.

Neelima Garg, Preeti Yadav, and Deepa. H.D., (2009), “Effect of location of cultivar,

fermentation temperature and additives on the physico-chemical and sensory qualities

on Mahua (Madhuca indica J. F. Gmel.) wine preparation”, Natural Product Radiance,

Volume-8(4), p.406-418.

Neha Shekavat and Rekha Vijayvergia., (2010), “Investigation of Anti-Inflammatory,

Analgesic, and Antipyretic Properties of Madhuca indica GMEL”, International

Journal of Molecular Medicine and Advanced Science, 6(2): 26-30.

Neha Shekhawat, Payal Singh Soam, Tribhuwan Singh and Rekha Vijayvergia., (2010),

“Essessment of free radical scavenging activity of crude extracts of some medicinal

plants”, Middle-East Journal of Scientific Research, 5(4): 298-301.

Nghiem.N.P, Hicks. K.B, Johnston, D.B, Senske. G, Kurantz. M, Li. M, Shetty. J, and

Konieczny-Janda. G., (2010), “Production of ethanol from winter barley by the EDGE

(Enhanced Dry Grind Enzymatic) process”, Biotechnology for Biofuels, 3:8.

Ngoh Gek Cheng, Masitah Hasan, Andri Chahyo Kumoro, Chew Ful Ling, and Margaret

Tham., (2009), “Production of ethanol by fed-batch fermentation”, Pertanika Journal

of Science and Technology, 17(2): 399-408.

Nigam. S.K, and Misra. G., (2001), “Mahua & Chura to boost tribal economy”, Ethnobiology

in human welfare, pp: 160.

Nils Arneborg, Holm Hensen. E, Nissen. O, Sommer. P, and Nielsen. J.C., (2001), “Effect of

oxygen on the survival of non Saccharomyces yeast during mixed culture



fermentations of grape juice with Saccharomyces cerevisiae”, Journal of Applied

Microbiology, 91:541-547.

Nimbekar. T, Bail. Y, Kaltolkar. P, Wanjari. B and Choudhari. S., (2012) “Antibacterial

activity of the dried inner bark of Madhuca indica J.F. GMEL”, Bulletin of

Environment, Pharmacology & Life Sciences, Volume-1, Issue 2, page: 26 – 29.

Nirmal Kumar. J.I, Hiren Soni, and Rita N.K., (2005), “Aesthetic values of selected floral

elements of Khatana and Waghai forests of Dangs, western Ghats”, Indian Journal of

Treaditional Knowledge, Volume-4(3), pp: 275-286.

Nwabueze. T.U, and Uchendu. C.B., (2011) “African Breadfruit (Treculia africana) Seed as

Adjunct in ethanol production”, European Journal of Food Research & Review, 1(1):

15-22.

Nyangi Chacha, Nils Dyrset, Godliving Mtui, Jamidu Katima and Godwill Mrema (2013),

“Optimization of fermentation process variables for bioethanol production from

Pinus patula chipped wood residue using Saccharomyces cerevisiae ATCC 96581”,

International Journal of Environment and Bioenergy, 5(3):123-135.

O Neto. A,J Infanti, P. and Vitolo, M (1997). “Influence of pH, Temperature, and dissolved

oxygen concentration on the production of glucose 6-phosphate dehydrogenase and

invertase by Saccharomyces cerevisiae”. Brazilian Journal of Chemical Engineering.

14, Sao Paulo.

O’Brien. K.M and Dirmeier. R, (2004), “Mitochondrial protein oxidation in yeast mutants

lacking Manganese- (MnSOD) or Copper- and Zinc-containing Superoxide Dismutase

(CuZnSOD)”, The Journal of Biological Chemistry, 279, No. 50, Issue of December

10, pp. 51817–51827.

Obire, O, Ramesh R. Putheti, Dick. A.A, and Okigbo, R.N., (2010), “Biotechnology influence

for the production of ethyl alcohol (ethanol) from waste fruits”, e-Journal of Science

and Technology, (e-JST), p: 17-32.



Ocloo. F.C.K, and Ayernor. G.S., (2010), “Production of alcohol from cassava flour

hydrolysate”, Journal of Brewing and Distilling, Volume-1(2), p: 15-21.

Ohta. K, Hamada, S, and Nakamura, T., (1993), “Production of high concentrations of ethanol

from Inulin by Simultaneous saccharification and fermentation using Aspergillus niger

and Saccharomyces cerevisiae”, Applied and Environmental Microbiology, Volume-

59, No. 3, p: 729-733.

Okon, Anne Anthony, and Nwabueze Titus, U., (2010), “Optimization of divalent cation in

Saccharomyces pastorianus medium conditions for ethanol production”, African

Journal of Biotechnology, Volume-9(33), p: 5423-5429.

Okorokov. L.A, Kulukovskaya. T.V, Lichko. L.P and Polorotova. E.V., (1985), FEBS Letters.

192, 303-306.

Olfert, R. and Weseen, S. (2007), “Assessing the Viability of an ethanol industry in

Saskatchewan”. The Saskatchewan Institute of Public Policy: Paper 48.

Olofsson, K, David Runquist, Barbel Hahn-Hagerdal, and Gunnar L., (2011), “A mutated

xylose reductase increases bioethanol production more than a glucose/xylose facilitator

in simultaneous fermentation and co-fermentation of wheat straw”, EMB Express,

1:4.

Oshao. A, (2005), “Ethanol and sugar tolerance of wine yeasts isolated from fermenting

cashew apple juice”. African Journal Biotechnology, 4:660-662.

Osman, M.E., Khattab, O.H, Hammad, I.A, and El-Hussieny, N.I., (2011), “Optimization of

bio-Fuel production by Saccharomyces cerevisiae isolated from sugar cane bagasse”,

Journal of American Science, 7(5):485-492.

Othman A.S, Othaman M.N, Abdulrahim A.R and Bapar S.A., (1992), “Cocoa, Pineapples,

Sugarcane Waste for ethanol production”. Planter, 68: 125-132.



Padma Vasudevan, Satyawathi Sharma and Ashwani Kumar., (2005), “Liquid fuel from

biomass: An overview”, Journal of Scientific and Industrial Research, Volume, 64, pp:

822-831.

Paivi Ylitrevo, Carl Johan Franzen, and Mohammed J.T., (2013), “Impact of Furfural on

Rapid Ethanol Production Using Membrane Bioreactor”. Energies, 6: 1604-1617.

Park. H.S, Le Man, H, and Behera. S.K., (2010), “Optimization of operational parameters for

ethanol production from Korean food leachate”, International Journal of

Environmental Science and Technology, 7(1), 157-164.

Parviz Mehdikhani, Hrachya Hovsepyan, and Mahmood Rezazadeh Bari., (2011), “Sugar beet

genotype effect on potential of bioethanol production using Saccharomyces cerevisiae

fermentation”, African Journal of Biotechnology, Volume-10(20), p: 4100-4105.

Patil. D.A, Shubangi Pawar and Patil. M.V., (2004), “Mahuwa tree and aborigines of North

Maharashtra”, Natural Product Radiance, Volume-3(5), 356-358.

Patil. S.G and Patil. B.G., (1990), “Acceleration of ethanol production activity of yeast in cane

molasses fermentation by the addition of fungal mycelium”, Enzyme Microbial.

Technology, Volume. 12, p: 141- 148.

Patrascu Elina, Rapeanu Gabriela, Bonciu Camelia, and Hopulele Traian., (2009), “Bioethanol

production from molasses by different strains of Saccharomyces cerevisiae”. The

Annals of the University Dunarea de Jos of Galati Fascicle VI – Food Technology,

New Series Year III (XXXIII). p: 49-46.

Pattana Laopaiboon, Naulchan Khongsay, and Lakkana Loapaiboon., (2010), “Growth and

batch ethanol fermentation of Saccharomyces cerevisiae on sweet sorghum stem juice

under normal and very high gravity conditions”, Biotechnology, 9(1):9-16.

Peter J. McCormack, Howard G. Wildman and Peter Jeffries., (1994), “Production of



antibacterial compounds by phylloplane-inhabiting yeasts and yeast like fungi”,

Applied and Environmental Microbiology, p: 927-931 Volume-60, No-3, p: 927-931.

Petra bafrncova, Daniela Smogrovicova, Iveta Slavikova, Jaroslava Patkova, and Zoltan

Domeny., (1999). “Improvement of very high gravity ethanol fermentation by media

supplementation using Saccharomyces cerevisiae”, Biotechnology letters, 21:337-341.

Poonawalla. F.M, Patel. K.L, and Iyenger. M.R.S., (1965), “Invertase production by

Penicillium chrysogenum and other fungi in submerged fermentation”, Applied

Microbiology, Volume-13, No: 5, p: 749-754.

Popa. O, Narcisa Babeanu, Vamanu, A, and Vamanu. E., (2007), “The utilization of the

response surface methodology for the optimization of cultivation medium and growth

parameters in the cultivation of the yeast strain S.cerevisiae 3.20 on ethanol”, African

Journal of Biotechnology, Volume-6(23), p: 2700-2707.

Poreda Aleksander, Antkiewicz Piotr, Tuszynski Tadeusz and Malgorzata Makarewicz.,

(2009), “Accumulation and release of metal ions by brewer’s yeast during successive

fermentations”, Journal of Institute of Breweing, Volume-115(1), p: 78-83.

Pornthap Thanonkeo, Pakvirun Thuesombat, Lakkana Laopaiboon, Pattana Lopaiboon, Sirinda

Yunchalard, Pakawadee, Kaewkannetra, and Sadarat Thanonkeo., (2007). “The batch

ethanol fermentation of jerusalem artichoke using Saccharomyces cerevisiae”, Science

and Technology Journal. Volume-7, No. S2. p: 93-96.

Prasad, S., Singh, A., and Joshi, H.C., (2007). “Ethanol as an alternative fuel from agricultural,

industrial, and urban residues”. Resource Conservation Recycling. 50, 1–39.

Prashanti.K, Hari Krishna. S, Chowdary. G.V, and Ayyanna. C., (1998), “Simultaneous

saccharification and fermentation of pretreated sugarcane leaves to ethanol”, Process

Biochemistry, Volume: 33, No: 8, pp: 825-830.

Pratyoosh Shukla, Thulasizwe T. N, Nishana Baboolal, Kugen Permaul and Suren Singh.,



(2012), “Improvement of ethanol production from sugarcane molasses through

enhanced nutrient supplementation using Saccharomyces cerevisiae”, Journal of

Brewing and Distilling, Volume-3 (2), pp: 29-35.

Prince, I.G and Barford. J.P., (1982), “Continuous tower fermentation for power ethanol

production”, Biotechnology Letters, 4(4): 263-268.

Pugazhvadivu. M and Sankaranarayanan. G, (2010), “Experimental studies on a diesel engine

using mahua oil as fuel”, Indian Journal of Science and Technology, Volume: 3, No: 7,

pp: 787-791.

Pushpendra K.P, Narendra. K.P, and Dubey. B.K., (2012), “Madhuca indica: A review of its

medicinal property”, International Journal of Pharmaceutical Sciences and Research,

Volume: 3(5), 1285-1293.

Raheman. H, and Shashikant Vilas Ghadge., (2006). “Process optimization for biodiesel

production from mahua (Madhuca indica) oil using response surface methodology”.

Bioresource Technology. 97:379-384.

Rajani Kanta Sahu, Monali Priyadarsini Mishra, and Gayatri Nahak., (2011), “Bioethanol

production from molasses by using Saccharomyces cerevisiae immobilized in Calcium

alginate gel beads”, International Journal of Institutional Pharmacy and Life Sciences,

1(3), Page: 51-61.

Rajeeva Gaur and Ranjan Singh, (2010), “Optimization of physico-chemical and nutritional

parameters for pullulan production by a mutant of thermotolerant Aureobasidium

pullulans in fed batch fermentation process”, African Journal of Biotechnology,

Volume-9(43), pp. 7322-7330.

Rajkumar. V Raikar, (2012), “Enhanced production from of ethanol from grape waste”,

International Journal of Environmental Sciences, Volume: 3, no: 2, p: 776-783.

Rama, C. Mohanty, Shuvashish Behera and Ramesh C. Ray., (2010), “Comparative study of



bioethanol production mahula (Madhuca latifolia, L) flowers by immobilized cells of

Saccharomyces cerevisiae and Zymomonas mobilis in calcium alginate beads”, Journal

of Scientific and Industrial Research, volume-69, p: 472-475.

Ramalingam, E, and Finn. R.K., (1977), Biotechnology Bioengineering, 19: 385-389.

Ramesh P. Singh, and Sandeep K. Upadhyay., (2008). “The beneficial effects of feeding

mahua (Bassia latifolia Roxb.) flower syrup to honey bee (Apis mellifera) colonies

during periods of dearth”. Journal of Apicultural Research, Volume-47 (4) pp. 261 –

264.

Rani. P, Sharma, S, Garg, F.C, Kushal Raj, and Leela Wati., (2010), “Ethanol production from

potato flour by Saccharomyces cerevisiae”, Indian Journal of Science and Technology,

Volume-3, No. 7.p:733-736.

Rao T.N, Ramachandra, Dwaraknath, C.T and Johar, D.S., (1961), “Isolation of yeast strain

from Mahua flowers and its use for fermentation studies on the flower extract”, Food

Science, 10, 88-89.

Rao. L.V, Sree.N.K, Sridhar. M, and Suresh. K., (1999), “High alcohol production by solid

substrate fermentation from starchy substance using thermotolerant Saccharomyces

cerevisiae”, Bioprocess Engineering, 20, p-561-563.

Rapp. A, and Mandery. H., (1986), “Wine Aroma”, Experientia, 42, 873-884.

Ratnam B.V.V, Sita Ramalakshmi. B, Subba Rao. S, Damodara Rao. M, Sarat Babu. I,

,Srinivasa Rao. B, Narasimha Rao. M, Devarajan. T, Jayaraju. K, and Ayyanna. C.,

(2007) “Optimization of fermentation parameters to enhance the production of ethanol

from palmyra jaggery using Saccharomyces cerevisiae in a batch fermenter”, Applied

Biochemistry Biotechnology, 143:224–235.

Ratnam. B.V.V, Rao. MN, Rao. M.D, Rao. S. S, and Ayyanna. C., (2003), “Optimization of

fermentation conditions for the production of ethanol from sago starch using Response



Surface Methodology”, World Journal of Microbiology & Biotechnology, 19: 523–526.

Ratnam. B.V.V, Subba Rao. S, Damodar Rao. M, Narasimha Rao. M, and Ayyanna.C., (2005),

“Optimization of medium constituents and fermentation conditions for the production

of ethanol from Palmyra jaggery using Response Surface Methodology”, World

Journal of Microbiology & Biotechnology, 21:399–404.

Ravindra.P, Anuj kumar chandel, Chan. E.S, Ravinder Rudravaram, Lakshmi Narasu. M, and

Venkateswar Rao. L., (2007). “Economics of environmental impact of bioethanol

production technologies: an appraisal”. Biotechnology and Molecular Biology Review.

Volume-2 (1), 014-032.

Raychaudhuri.U, Ghosh. S and Chakraborty, R., (2012), “Optimizing process conditions for

palm (Borassus flabelliffer) wine fermentation using response surface methodology”,

international food research journal, 19(4), 1633-1639.

Reddy. G, Ramesh, B, Ramamohan, R. Paduru, Kuravi, S.K, and Seenayya, G., (2005),

“Optimization of critical medium components using response surface methodology for

ethanol production from cellulosic biomass by Clostridium thermocellum SS19”.

Process Biochemistry, Volume-40, Issue 9, Pages-3025-3030.

Reihaneh Asachi, Keikhosro Karimi, and Mohammad J. Taherzadeh., (2011), “Ethanol

production by Mucor indicus using the fungal autolysate as a nutrient supplement”,

World Renewable Energy Congress, Bioenergy Technology, Sweden, 8-13, p. 486-491.

Rintu Banerjee, Arindam Kuila, Mainak Mukhopadhyay, and Tuli. D.K., (2011), “Production

of ethanol from lignocellulosics: An enzymatic venture”, EXCLI Journal; 10:85-96.

ISSN 1611-2156.

Robert P. Anex, Feroz Kabir, Joshua A. Fortman, David D. Hsu, Andy Aden, Abhijit Dutta,

Geetha Kothandaraman., (2010), “Techno-Economic comparison of process

technologies for biochemical ethanol production from corn stover”, Fuel, 89:520-528.



Rohit. P. D., (2004). “Fermentation of biomass-generated producer gas to ethanol”,

Biotechnology and Bioengineering, Volume-86, No. 5.p: 587-594.

Rolz. C, De Cabrera. S, and Garcia, R., (1979). “Ethanol from sugarcane: the ex ferm

concept”, Biotechnology and Bioengineering. 21, 2347-2349.

Rotimi A. Oderinde, Lambert C. Ngoka, E. Kayode Adesogan., (1986), “Comparative

study of the effect of ferrocyanide and EDTA on the production of ethyl alcohol

from molasses by Saccharomyces cerevisiae”, Biotechnology and Bioengineering,

Volume-28, Issue 10, p: 1462–1465.

Roy J.K and Roa R.K., (1959), “Mahua spirit and chemical composition of the raw material

(Mahua flower)”, Proceedings of Institution of Chemists (India), 31, 64-65.

Roy. G.K and Augustine. B., (1981), “Recovery chemicals from agricultural residues- A

critical review”, Journal of Institution of Engineers (India), Volume-62, pt ND 1, p-36-

41.

Ryu.D.D.Y, Kim, J.Y, and Kim, J.H, (1984), “Effect of air supplement on the performance of

continuous ethanol fermentation system”, Biotechnology and Bioengineering. 26:12-

16.

Saha.N.K and B.K.Singh, (1991), “Mahua flower agar medium: a new natural and antibacterial

culture medium for fungi”. National academy Science Letters, Volume -14, No-9.

Sang Eun Oh, and Ganesh D. Saratale., (2012), “Lignocellulosic to ethanol: The future of the

chemical and energy industry”, African Journal of Biotechnology, Volume-11(5),

p.1002-1013.

Saravana Murugan. C, and Rajendran. S., (2013), “Bioethanol production from Agave leaves

using Saccharomyces cerevisiae (MTCC 173) and Zymomonas mobilis (MTCC

2427)”, International Journal of Microbiological Research, 4(1):23-26.



Saroj, K. P and Singh. R.K., (2011), “Non-edible oils as the potential source for the production

of biodiesel in India: A review”, Journal of Chemistry and Pharmacy Resource, 3(2):

39-49.

Sastry. B.N, (1962), “The Wealth of India”, Volume: VI, P-207.

Satheesh kumar, R, Shankar. T, and Anandapandian. K.T.K., (2011), “Characterization of

alcohol resistant yeast Saccharomyces cerevisiae isolated from Toddy”, International

Research Journal of Microbiology, Volume-2(10), pp: 399-405.

Satyabrata Ghosh., Runu Chakraborty and Utpal Raychaudhuri., (2010), “Modulation of palm

wine fermentation by the control of carbon and nitrogen source on metabolism of

Saccharomyces cerevisiae”, Journal of food technology, volume-8, issue-5, p: 204-210.

Satyanarayana. R, Satish Babu. R., Lakshmi Narasu. M, Prameela Devi. Y, and Rao. D.G.,

(2010), “Studies on ethanol production from spoiled starch rich vegetables by

sequential batch fermentation”, International Journal of Biotechnology and

Biochemistry, Volume-6, pp. 351–357.

Seaston, A, Inkson, C and Eddy. A.A., (1973), “The absorption of protons with specific

amino-acids and carbohydrates by yeast”. Biochemistry Journal. 134: 1031-1043.

Sebastian Sanchez., Vicento bravo, Eulogio Castro, Alberto J. Moya, and Fernando Camacho.,

(1997), “The influence of pH and aeration rate on the fermentation of D-xylose by

Candida shehatae”, Enzyme and Microbial Technology, 21: 355-360.

Sergio Caparida, and Tahmina Imam., (2010), “Ethanol fermentation from sweet sorghum

juice”, Ameerican Society of Agriculture and biological Engineers (ASABE) meeting

presentation, paper number: 1009693. p: 1-8.

Seyyed Hadi Razavi, Sara Sahrabvandi, Seyyed Mohammad Mousavi, Amir Mohammad, and

Mortazavian., (2010), “Characteristics of different brewer’s yeast strains used for non-

alcoholic beverage fermentation in media containing different fermentable sugars”,



Iranian Journal of Biotechnology, Volume-8, No. 3, p: 178-185.

Sharma, S.K., Kalra, K.L and Kocher, G.S., (2004). “Fermentation of enzymatic hydrolysate

of sunflower hulls for ethanol production and its scale up”. Biomass and Bioenergy, 27:

399 402.

Sheila Romo-Sanchez, Alves Buffi. M, Arevalo Villena .M, Ubeda Iranzo. J, and

BrionesPerez. A., (2010), “Yeast Biodiversity from oleic ecosystems: Study of their

biotechnological properties”, Food Microbiology, 27:487-492.

Shihao Zhao, Binglian Wang and Xiaohui Liang., (2012), “Enhanced ethanol production from

stalk juice of sweet sorghum by Response Surface Methodology”, African Journal of

Biotechnology, Volume-11(22), p: 6117-6122.

Shimoi. H, Noguchi. C, Watanabe. D, Zhou. Y, and Akao. T., (2011a), “Association of

constitutive hyperphosphorylation of Hsf1p with a defective ethanol stress response in

Saccharomyces cerevisiae Sake Yeast Strains”, Applied and Environmental

Microbiology, 385–392.

Shimoi.H, Watanabe. D, Wu. H, Noguchi. C, Zhou. Y, and Akao. T., (2011b), “Enhancement

of the initial rate of ethanol fermentation due to dysfunction of yeast stress response

components Msn2p and/or Msn4p”, Applied and Environmental Microbiology, pp.

934–941.

Shockey, W.L. and Barta. A.L., (1991), “Effect of salt on fermentation of Alfalfa 1

treatment with potassium chloride”, Journal Dairy Science, 74:155-159.

Shuzo Tanaka, and Yan Lin., (2006), “Ethanol fermentation from biomass resources: current

state and prospects”, Applied Microbial Biotechnology. 69(6):627-42.

Silvia Sillerova, Blazena Lavova, Dana Urminska, Anezka Polakova, Alena Vollmannova, and

Lubos Harangozo., (2012) “Copper enriched yeast Saccharomyces cerevisiae as a

potential supplementation in nutrition”, Journal of Microbiology, Biotechnology and



Food Science, Issue: 1, p: 696-702.

Sin Yie Liu and Chun-Ling Liang., (1983), “Studies on the efficiency of alcohol production in

sweet potato, cassava and potato”, Journal of Agriculture Resource of China, 32 (2):

111-121.

Singh A, Pant. D, Korres. N.E, Nizami. A.S, Prasad. S, and Murphy J.D., (2010). “Key issues

in life cycle assessment of ethanol production from lignocellulosic biomass:

Challenges and perspectives”. Bioresource Technology. 101(13): 5003-5012.

Singh. V, Ming-Hsu Chen, Prabhjot Kour, Bruce Dien, Frederick Below, and Michel L.

Vincent., (2013), “Use of tropical maize for bioethanol production”, World Journal of

Microbiology and Biotechnology, IISN: 0959-3993, DOI: 10.1007/s11274-013-1317-1.

Sivadasan. M, Mithunlal. S, Sujanapal. P, Anil Kumar. N, Ahmed H. Alfarhan, Alatar. A.A.,

and Ratheesh Narayanan. M.K., (2011), “Ethanobotanically important trees and their

uses by Kattunaikka tribe in Waynad wildlife sanctuary, Kerala, India”, Journal of

Medicinal Plant Research, Volume-5(4), p.604-612.

Sivakumar Venkatachalam, Shanmugam Periyasamy, Sridhar Ramasamy, and Venkatesan

Srinivasan., (2009), “Production of bio-ethanol from sugar molasses using

Saccharomyces Cerevisiae”, Modern Applied Science, Volume-3, No-8, p: 32-37.

Smith, G.D. and Walker, G.M., (2000), “Fermentation performance of Mg-preconditioned

brewing yeast. In brewing yeast fermentation performance”, Ist ed, K.A. Smart, Ed.,

Blackwell Scientific Publications: Oxford, pp. 92-95.

Smith.K.J, Hillier, A.J and Lees. G.J., (1975). “The nature of the stimulation of the growth of

Streptococcus lactis by yeast extract”. Journal of Dairy Resource. 42:123-138.

Soccol. C.R, Paula F. Siqueira, Susan G. Karp, Julio C. Carvalho, Wilerson Sturm, Jose A.

Rodriguez-Leon, Jean-Luc Tholozan, Reeta Rani Singhania and Ashok Pandey,

(2008), “Production of bio-ethanol from soybean molasses by Saccharomyces



cerevisiae at laboratory, pilot and industrial scales”, Bioresource Technology,

Volume: 99, Issue: 17, p: 8156-8163.

Somda. M.K, Aly Savadogo, Nicolas Barro, Philippe Thonart and Alfred Sabadenedyo

Traore., (2011), “Effect of mineral salts in fermentation in fermentation processing

mango residues as carbon source for bioethanol production”, Asian Journal of

Industrial Engineering, 3 (1): p: 29-38.

Somda.M.K, Savadogo. A, Quattara. C.A.T, Quattara. A.A, and Traore. A.A., (2011),

“Improvement of bioethanol production using Amylasic properties from Bacillus

licheniformis and yeast strains fermentation for biomass valorization”, Asian Journal of

Biotechnology, 3(3): 254-261.

Spencer, J. F. T., (1968). “Progress in industrial microbiology”, In D. J. D. Hockenhull. (ed.),

volume-7. p:1-42. J. and A. Churchill Ltd., London.

Stehlik-Tomas. V, Gaba. S, Stanzer. D, Vahlic. N, and Gulan Zetic. V., (2003), “Uptake of

iron by yeast cells and its impact on biomass production”, Acta Alimentaria, Volume-

32 (3), p: 279-287.

Stilianos Logothetis, Graeme Walker, Elias T. Nerantzis, Anna Gioulioti, Tasos Kanelis, and

Tataridis Panagiotis., (2010), “Influence of sodium chloride on wine yeast fermentation

performance”, International Journal of Wine Research, p: 35-42.

Straver, M.H, Traas. V.M, Smit. G, and kijine. J.W., (1994), “Isolation and partial

purification of mannose-specific agglutinin from brewer’s yeast involved in

flocculation”, Yeast, 10: 1183-1193.

Strehaiano. P, Mota. M, and Goma. G., (1983), “Effect of inoculum level on kinetics of

alcoholic fermentations”, Biotechnology Letters, Volume-5, No: 2, p: 135-140.

Sulfahri, Siti Mushlihah, Eko Sunarto, Yusuf Irvansyah. M, Renia Setyo Utami, and Sarwoko

Mangkoedihardjo., (2011), “Ethanol production from algae Spirogyra with



fermentation by Zymomonas mobilis and Saccharomyces cerevisiae”, Journal of Basic

Applied Science. Resource, 1(7)589-593.

Suraini Abd-Aziz, Mohd Huzairi Mohd Zainudin, Nor Aini Abdul Rahman, Masamitsu

Funaoka, Taknori Shinano, Yoshihito Shirai, Minato Wakisaka, and Mohd Ali Hassan.,

(2012) “Utilization of glucose recovered by phase separation system from acid-

hydrolysed oil palm empty fruit bunch for bioethanol production”, Pertanika Journal

of Tropical Agricultural Science, 35 (1): 117 – 126.

Sutaria B.P, and Magar N.G., (1955), “Chemical constituent of Mowrah flowers (B. latifolia)

Part II Vitamins, Enzymes and miscellaneous analysis and effect of storage”, Journal

of Indian Chemical Society, 18, 59-64.

Suthindharan.K, Subashini. D, Ejilane. J, Radha. A, Jayasri. M.A., (2011), “Ethanol

production from sago waste using Saccharomyces cerevisiae Vits-M1”, Current

Research Journal of Biological Sciences 3(1): 42-51.

Ta Yeong Wu, Mun Seng Kan, Lee Fong Siow, and Lithnes Lalaivani Palniandy., (2010),

“Effect of temperature on Moromi fermentation of soy sauce with intermittent

aeration”, African Journal of Biotechnology, Volume-9(5), pp: 702-706.

Tapan kumar Ghosh, Debnath Bhattacharyya, and Tai-Hoon Kim., (2010), “To study yeast

growth kinetics in a specially designed external loop Airlift Bioreactor”, International

Journal of Bioscience and Biotechnology, Volume-2, No-1.p: 47-58.

Teramoto.Y, Sato. R, and Ueda. S., (2005) “Characteristics of fermentation yeast isolated from

traditional Ethiopian honey wine, ogol”, African Journal of Biotechnology, Volume-4

(2), pp. 160-163.

Thalisa Yuwa-Amornpitak., (2010), “Ethanol production from cassava starch by selected fungi

from Tan-Koji and Saccharomyces cerevisiae”, Biotechnology, 9(1):84-88.

Tilak. W. Nagodawithana, Carmine Castellano, and Keith H. Steinkraus., (1974), “Effect of



dissolved oxygen, temperature, initial cell count and sugar concentration on the

viability of Saccharomyces cerevisiae in rapid Fermentations”, Applied microbiology,

Volume-28, No. 3, p. 383-391.

Tomas G. Villa, Manuel Serrat, Odalys Rodriguez, Miladis Camacho, Juan A. Vallejo, and

Jose M. Ageitos., (2011), “Influence of nutritional and environmental factors on

ethanol and endopolygalacturonase co-production by Kluyveromyces marxianus

CCEBI 2011”, International Microbiology, 14:41-49.

Thomas K. C, and Ingledew, W.M., (1990), “Fuel alcohol production: effects of free amino

nitrogen on fermentation of very high gravity wheat mashes”, Applied and

Environmental Microbiology.Volume-56; No-7, p: 2046-2050.

Tony D'Amore, (1992), “Improving yeast fermentation performance”, Cambridge prize

lecture-I. Institute of Brewery, Volume-98, pp. 375-382.

Ture. S, Uzun D, and Ture I.E., (1997). “The potential use of sweet sorghum as a non-

polluting source of energy”. Energy. 22: 17 – 19.

Udhayaraja.C, and Sriman Narayanan, J., (2012), “Optimization for production of bioethanol

using sorghum stovar by Saccharomyces cerevisiae”, International Journal of

Research in Pure and Applied Microbiology, 2(4): 64-67.

Uduak George Akpan, Adamu Ali Alhakim and Udeme Joshua Josiah Ijah (2008),

“Production of ethanol fuel from organic and food wastes”, Leonardo Electric

Journal of Practices and Technologies, Issue-13, p: 1-11.

Uma.C, Muthulakshmi. C, Gomathi. D, and Gopalakrishnan. V.K., (2010), “Fungal Invertase

as aid for production of ethanol from sugarcane bagasse”, Research Journal of

Microbiology, 5(10): 980-985.

Van Uden. N., (1985), “Ethanol toxicity and ethanol tolerance in yeast”. Annual Report of

Fermentation Process, 8:11-58.



Vasanthy Arasaratnam, Ketheeswary Nihiyanantharajha and Navaratnam Nithiyanantharajah.,

(2012), “Recycling of yeast cells for simultaneous saccharification and fermentation of

liquefied starch of rice flour”, European Journal of Experimental Biology, 2 (1):127-

134.

Vasanti Deshpande, Sulbha Keskar, Chitra Mishra and Mala Rao., (1986), “Direct conversion

of cellulose/hemicellulose to ethanol by Neurospora crassa”, Enzyme and Microbial

Technology, Volume-8, Issue 3, Pages 149-152.

Vedaraman.N, Sukumar. P, Rambrahamam. B.V and Nagarajan. G., (2005), “Mahua

(Madhuca indica) seed oil: A source of renewable energy in India”, Journal of

Scientific and Industrial Research, Volume-64, pp: 890-896.

Veera Venkata Ratnam B, Subba Rao S, Damodara Rao M, Narasimha Rao, M, and Ayyanna.

C., (2006), “Optimization of fermentation conditions for the production of ethanol

from sago starch by co-immobilized amyloglucosidase and cells of Zymomonas mobilis

using response surface methodology”. Enzyme and Microbial Technology, 38:209–214.

Veeranjaneya Reddy. L, Vijaya Sarathi Reddy. O, and Young-Jung Wee., (2011), “Production

of ethanol from Mango (Mangifera indica L.) peel by Saccharomyces cerevisiae

CFTRI101”, African Journal of Biotechnology, Volume. 10(20), pp. 4183-4189.

Viara Ivanova, Petia Petrova, and Jordan Hristov., (2011), “Application in the ethanol

fermentation of immobilized yeast cells in matrix of Alginate/Magnetic Nanoparticles,

on Chitosan-Magnetite Microparticles and Cellulose-coated Magnetic Nanoparticles”,

International Reviews of Chemical Engineering, Volume-3, N. 2, 3: 289-299.

Vijaya Sarathi Reddy. O, Pradeep. P, Rama Mohan. P, and Sanghoon. Ko., (2013), “Process

optimization for ethanol production from very high gravity (VHG) finger millet

medium using response surface methodology”, Iranian Journal of biotechnology,

volume-10, No: 3, p: 168-174.



Vipul Gohel, and Gang Duan., (2012) “No-Cook process for ethanol production using Indian

Broken Rice and Pearl Millet”, International Journal of Microbiology, Volume-2012,

Article ID 680232, p: 1-9.

Vlatka Gulan Zetic, Vesna Stehlic Tomas, Damir Stanzer, Slobodan Grba, and Nada Vahcic.,

(2004), “Zinc, Copper and Manganese enrichment in yeast in yeast Saccharomyces

cerevisiae”, Food Technology Biotechnology, 42 (2) 115-120.

Von Meyenburg.H.K., (1969), Archives of Microbiology. 66:289-303.

Wahab. O. Okunowo, Rufus .O. Okotore and Akinniyi. A. Osuntoki (2005), “The alcoholic

fermentative efficiency of indigenous yeast strains of different origin on orange juice”,

African Journal of Biotechnology, Volume-4 (11), p: 1290-1296.

Walker, G.M, (1998), “Magnesium as a stress-protectant for industrial strains of

Saccharomyces cerevisiae”, Journal of the American Society of Brewing Chemists,

56(3), 109-113.

Walker, G.M., (1994), Yeast Physiology and Biotechnology, Chichester, New York J, Wiley

and Sons.

Walter Borzani., (2006), “Batch ethanol fermentation: the correlation between the

fermentation efficiency and the biomass initial concentration depends on what is

considered as produced ethanol”, Brazilian Journal of Microbiology, 37:87-89.

Wang, D, Xu. Y, Hu. J, and Zhaog., (2004), “Fermentation kinetics of different sugars by

apple wine yeast Saccharomyces cerevisiae”, Journal of the Institute of Brewing.

110(4):340-346.

Wang, J.S, Wang. J and Gulfraz. M., (2005). “Efficient cellulase production from corn straw

by Trichoderma Reesei. LW1 through solid state fermentation process”. Ethnobotany.

Leaf.



Wang, S, Ingledew, W.M, Thomas, K.C, Sosulski. K, and Sosulski. F.W., (1999),

“Optimization of fermentation temperature and mash specific gravity for fuel alcohol

production”, Cereal Chemistry, 76(1): 82-86

Ward. O.P, and Singh. A., (2002), “Bioethanol technology: Development and perspectives”,

Advanced Applied Microbiology, 51:53-80.

Wayne W. Fish, Benny D. Bruton, and Vincent M. Russo., (2009), “Watermelon juice: a

promising feedstock supplement, diluents, and nitrogen supplement for ethanol biofuel

production”, Biotechnology for Biofuels. 2:18, 1-9.

Wealth of India, (1962), CSIR, Raw materials, Volume-VI, L-M, Council of Scientific and

Industrial Research publication, New Delhi, P-207.

Wealth of India, (1964), CSIR, Raw materials, Volume-VII: M, CSIR, publication, New

Delhi.

Wealth of India, (1998), CSIR, Raw materials, Volume-IV, L-M. New Delhi.

Wheals. A.E, Basso. L.C, Alves. D,M,G, and Amorim. H.V., (1999), “Fuel ethanol after 25

years”, Trends in Biotechnology, Volume-17(12), p: 482-487.

White. J and Munns, D.J (1950), Nature, 165,111.

Williams R. Gibbons, Westby C.A, and Dobbs. T.L., (1986), “Intermediate-scale,

semicontinuous solid-phase fermentation process for production of fuel ethanol from

sweet sorghum”, Applied and Environmental Microbiology, p. 115-122.

Williams, J.A., (2006), Chemical Engineering Magazine, pp. 34-46.

Wolfgang H. Schwarz, Dominik Anotni, and Vladimir V. Zveriov., (2007), “Biofuels from

microbes”, Applied Microbial Biotechnology, 77: 23–35.



Wong.D., (1983), Ph.D thesis. University of California, Berkely, CA.

Yekta. G. Ksungur, and Nebe Zorlu., (2001), “Production of ethanol from beet molasses by

Ca-Alginate immobilized yeast cells in a packed- bed bioreactor”, Turkish Journal

Biology, 25, 265-275.

Yemm, E.W. and Willis, A.J (1954), “The estimation of carbohydrates by in plant extracts by

anthrone”, Biochemistry Journal, 57, 508-514.

Youk Meng Choong, Mei Ling Wang, Nan-Wei Su, and Min-Hsiung Lee., (2003), “A rapid

method for determination of ethanol in alcoholic beverages using capillary gas

chromatography”, Journal of Food and Drug Analysis, Volume- 11, No. 2, 133-140.

Zabochnicka-Swiatek. M, and Slawik. L., (2010), “Bioethanol - Production and Utilization”,

Archivum Combustionis, Volume: 30, no. 3, p: 237-246.

Zbigniew Janiszyn, Ewelina Dziuba, Tomasz Boruczkowski, Joanna Chmielewska, Joanna

Kawa-Rygielska, and Genowefa Rosiek., (2007) “Ethanol fermentation with yeast cells

immobilized on grains of porous ceramic sinter”, Polish Journal of Food and Nutrition

Sciences, Volume-57, No: 4, (B), p: 245-250.

Zhao Hai, Liu Yan, Tiansheng QI, Shen Naikun, Gan Mingzhe, and Jin Yanling., (2009),

“Improvement of ethanol concentration and yield by initial Aeration and Agitation

culture in very high gravity fermentation”, Chinese Journal of Applied Environmental

Biology, 15(4), p: 563-567.

Zhi-En Ding, Hong Guang Yan, When Hua Zhang and Jiang Hua Chen., (2012),

“Optimization of the alcoholic fermentation of blueberry juice by AS 2.316

Saccharomyces cerevisiae wine yeast”, African Journal of Biotechnology, Volume-

11(15), p: 3623-3630.

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