213

REFERENCES

214

References

Abee T. (1995) Pore-forming bacteriocins of Gram-positive bacteria and self-

protection mechanisms of producer organisms. FEMS Microbiology Letters, 129: 1-

10.

Abo-Amer AE. (2007) Characterization of a bacteriocin-like inhibitory substance

produced by Lactobacillus plantarum isolated from Egyptian home-made yogurt.

Science Asia, 33: 313-9.

Adebayo CO, Aderiye BI. (2010) Antifungal activity of bacteriocins of lactic acid

bacteria from some Nigerian fermented foods, Research Journal of Microbiology,

5(11): 1070-82.

Aditya NP, Patankar S, Madhusudhan B, Murthy RS, Souto EB. (2010)

Arthemeter-loaded lipid nanoparticles produced by modified thin-film hydration:

Pharmacokinetics, toxicological and in vivo anti-malarial activity. European Journal

of Pharmaceutical Sciences, 40(5): 448-55.

Ahotupa M, Saxelin M, Korpela R. (1996) Antioxidative properties of

Lactobacillus GG. Nutrition Today Supplements 31: 51-2.

Akmoutsou P, Mademtzoglou D, Nakou I, Onoufriadis A, Papadopoulou X,

Kounatidis I, Frantzios G, Papadakis G, Vasiliadis K, Papadopoulos NT,

Mavragani-Tsipidou P. (2011) Evaluation of toxicity and genotoxic effects of

spinosad and deltamethrin in Drosophila melanogaster and Bactrocera oleae. Pest

Management Science, 67: 1534-40.

Aksoy O, Erbulucu T, Vatan E. (2011) Effects of wastewater from olive oil and

milk industry on growth and mitosis in Allium Cepa root apical meristem. Journal of

Applied Biological Sciences, 5(3): 75-8.

215

Albano H, Torodov SD, van Reenen CA, Hogg T, Dicks LM, Teixeira P. (2007)

Characterization of two bacteriocins produced by Pediococcus acidilactici isolated

from ―Alheira‖ a fermented sausage traditionally produced in Portugal. International

Journal of Food Microbiology, 116: 239-47.

Amado IR, Fuciños C, Fajardo P, Guerra NP, Pastrana L. (2012) Evaluation of

two bacteriocin-producing probiotic lactic acid bacteria as inoculants for

controlling Listeria monocytogenes in grass and maize silage. Animal Feed Science

and Technology, 175(3): 137-49.

Ammor S, Tauveron G, Dufour E, Chevallier I. (2006) Antibacterial activity of

lactic acid bacteria against spoilage and pathogenic bacteria isolated from the same

meat small-scale facility 1—Screening and characterization of the antibacterial

compounds. Food Control, 17: 454–61.

Anderssen EL, Diep DB, Nes IF, Eijsink VGH, Nissen-Meyer J. (1998)

Antagonistic activity of Lactobacillus plantarum C11: two new peptide bacteriocins,

plantaricins EF and JK, and the induction factor plantaricin A. Applied and

Environmental Microbiology, 64: 2269-72.

Apidianakis Y, Mindrinos MN, Xiao W, Tegos GP, Papisov MI, Hamblin MR,

Davis RW, Tompkins RG, Rahme LG. (2007) Involvement of skeletal muscle gene

regulatory network in susceptibility to wound infection following trauma. PLoS ONE,

2: e1356.

Apidianakis Y, Rahme LG. (2011) Drosophila melanogaster as a model for human

intestinal infection and pathology. Disease Models and Mechanisms, 4(1): 21–30.

Asita AO, Matobole RM. (2010) Comparative study of the sensitivities of onion and

broad bean root tip meristematic cells to genotoxins. African Journal of

Biotechnology, 9 (27): 4165-70.

216

Asita OA, Makhalemele R. (2009) Genotoxic effects of dithane, malathion and

garden ripcord on onion root tip cells. African Journal of Food Agriculture Nutrition

and Development, 9(4): 1191-209.

Aso Y, Okuda K, Nagao J, Kamenasa Y, Phuong NTB, Koga H, Shioya K,

Sashihara T, Nakayama J, Sonomoto K. (2005) A novel type of immunity protein,

NukH, for the lantibiotic nukacin ISK-1 produced by Staphylococcus warneri ISK-1.

Bioscience Biotechnology and Biochemistry, 69: 1403–10.

Aso Y, Takeda A, Sato M, Takahashi T, Yamamoto T, Yoshikiyo K. (2008)

Characterization of lactic acid bacteria coexisting with a nisin Z producer in Tsuda-

turnip pickles. Current Microbiology, 57: 89–94.

Aymerich T, Artigas MG, Garriga M, Monfort JM, Hugas M. (2000) Effect of

sausage ingredients and additives on the production of enterocin A and B by

Enterococcus faecium CTC492. Optimization of in vitro production and antilisterial

effect in dry fermented sausage. Journal of Applied Microbiology 88: 686-94.

Babu K, Deepa M, Shankar SG, Rai S. (2008) Effect of nano-silver on cell division

and mitotic chromosomes: a prefatory siren. The Internet Journal of Nanotechnology,

2(2).

Baker EN. (1994) Solvent interactions with proteins revealed by X-ray

crystallographic studies In Protein-Solvent Interactions (Gregory, R. B., Ed.), pp.

143-89. Marcel Dekker, New York.

Balasubramanyam D, Varadraj MC. (1998) Cultural conditions for the production

of bacteriocin by a native isolate of Lactobacillus delbruecki subsp. bulgaricus CFR

2028 in milk medium. Journal of Applied Microbiology, 84: 272-6.

217

Balla E, Dicks LM, Du Toit M, Van Der Merwe MJ, Holzapfel WH. (2000)

Characterization and cloning of the genes encoding enterocin 1071A and enterocin

1071B, two antimicrobial peptides produced by Enterococcus faecalis BFE 1071.

Applied and Environmental Microbiology, 66: 1298–304.

Batoni G, Maisetta G, Brancatisano FL, Esin S, Campa M. (2011) Use of

antimicrobial peptides against microbial biofilms: advantages and limits. Current

Medicinal Chemistry, 18(2): 256-79.

Bauer R, Chikindas ML, Dicks LMT. (2005) Purification and partial amino acid

sequence and mode of action of pediocin PD-1, a bacteriocin produced by

Pediococcus domnosus NCFB 1832. International Journal of Food Microbiology,

101: 17-27.

Bax R, Mullan N, Verhoef J. (2000) The millennium bugs – the need and

development of new antibacterials. International Journal of Antimicrobial Agents, 16:

51-9.

Belfiore C, Castellano P, Vignolo G. (2007) Reduction of Escherichia coli

population following treatment with bacteriocins from lactic acid bacteria and

chelators. Food Microbiology, 24: 223-9.

Bellei B, Miguel M, Mere Del Aguila EM, Silva JT, Paschoalin VMF. (2011)

Purification of a bacteriocin produced by Enterococcus faecium and its effectiveness

for preservation of fresh-cut lettuce. Journal of Microbiology and Antimicrobials,

3(5): 119-25.

Bello BD, Cocolin L, Zeppa G, Field D, Cotter PD, Hill C. (2012) Technological

characterization of bacteriocin producing Lactococcus lactis strains employed to

control Listeria monocytogenes in cottage cheese. International Journal of Food

Microbiology, 153: 58–65.

218

Bennik MH, van Overbeek W, Smid EJ, Gorris LG. (1999) Biopreservation in

modified atmosphere stored mungbean sprouts: the use of vegetable-associated

bacteriocinogenic lactic acid bacteria to control the growth of Listeria

monocytogenes. Letters in Applied Microbiology, 28(3): 226-32.

Berjeaud JM, Cenatiempo Y. (2004) Purification of antilisterial bacteriocins.

Methods in Molecular Biology, 268: 225–33.

Bhatnagar S, Singh KD, Sazawal S, Saxena SK, Bhan MK. (1998) Efficacy of

milk versus yoghurt offered as part of a mixed diet in acute noncholera diarrhoea

among malnourished children. Journal of Pediatrics, 132: 999-1003.

Bhugaloo-Vial P, Douliez J-P, Molle D, Dousset X, Boyaval P, Marion D. (1999).

Delineation of key amino acid side chains and peptide domains for antimicrobial

properties of divercin V41, a pediocin-like bacteriocin secreted by Carnobacterium

divergens V41. Applied and Environmental Microbiology, 65: 2895-900.

Bhunia AK. (1994) Monoclonal antibody-based enzyme immunoassay for pediocins

of Pediococcus acidilactici. Applied and Environmental Microbiology, 60(8): 2692.

Bierbaum G, Sahl HG. (1991) Induction of autolysis of Staphylococcus simulans 22

by Pep 5 and nisin and influence of the cationic peptides on the activity of the

autolytic enzymes. In: Jung, G. and Sahl, H.G. (Eds), Nisin and Novel Lantibiotics,

Escom Publishers, Leiden, The Netherlands, pp. 386-96.

Bierbaum G, Sahl HG. (2009) Lantibiotics: mode of action, biosynthesis and

bioengineering. Current Pharmaceutical Biotechnology, 10: 2–18.

Bizani D, Dominguez APM, Brandelli A. (2005) Purification and partial chemical

characterization of the antimicrobial peptide cerein 8A. Letters in Applied

Microbiology, 41: 269-73.

219

Bonelli RR, Wiedemann I, Sahl HG. (2006) Lantibiotics: 97–105. In A. Kastin

(ed.), Handbook of biologically active peptides. Elsevier, New York, NY.

Bonelli RR, Schneider T, Sahl HG, Wiedemann I. (2006) Insights into in vivo

activities of lantibiotics from gallidermin and epidermin mode-of-action studies.

Antimicrobial Agents and Chemotherapy, 50: 1449–57.

Bouksaim M, Fliss I, Meghrous J, Simard R, Lacroix C. (1998) Immunodot

detection of nisin Z in milk and whey using enhanced chemiluminescence. Journal of

Applied Microbiology, 84: 176–84.

Boyle-Vavra S, Daum RS. (2007) Community-acquired methicillin-resistant

Staphylococcus aureus: The role of panton-valentine leukocidin. Laboratory

Investigation, 87(1): 3-9.

Breeuwer P, Abee T. (2004) Assessment of the membrane potential, intracellular pH

and respiration of bacteria employing fluorescence techniques. In Molecular

Microbial Ecology Manual, Second Edition 8.01: 1563–80, Kluwer Academic

Publishers.

Breukink E, de Kruiff B. (2006) Lipid II as a target for antibiotics. Nature Reviews

Drug Discovery, 5: 321-3.

Brink RH, Dubach P, Lynch DL. (1960) Measurement of carbohydrates in soil

hydrolyzates with anthrone. Soil Science, 89: 157-66.

Brogden NK, Brogden KA. (2011) Will new generations of modified antimicrobial

peptides improve their potential as pharmaceuticals? International Journal of

Antimicrobial Agents, 38(3): 217–25.

220

Brotz H, Bierbaum G, Markus A, Molitor E, Sahl H-G. (1995) Mode of action of

the lantibiotic mersacidin: inhibition of peptidoglycan biosynthesis via a novel

mechanism? Antimicrobial Agents and Chemotherapy, 39(3): 714–9.

Brüssow H. (2005) Phage therapy: the Escherichia coli experience. Microbiology,

151: 2133–40.

Buchon N, Broderick NA, Poidevin M, Pradervand S, Lemaitre B. (2009).

Drosophila intestinal response to bacterial infection: activation of host defense and

stem cell proliferation. Cell Host Microbe, 5: 200–11.

Callewaert R, De Vuyst L. (1999) Expanded bed adsorption as a unique unit

operation for the isolation of bacteriocins from fermentation media. Bioseparation, 8:

159–68.

Caplice E, Fitzgerald GF. (1999) Food fermentation: role of microorganisms in food

production and preservation. International Journal of Food Microbiology, 50: 131-

49.

Carroll J, Draper LA, O‟Connor PM, Coffey A, Hill C, Ross RP, Cotter PD,

O‟Mahony J. (2010) Comparison of the activities of the lantibiotics nisin and lacticin

3147 against clinically significant Mycobacteria. International Journal of

Antimicrobial Agents, 36: 132–6.

Casaus P, Nilsen T, Cintas LM, Nes IF, Hernandez PE, Holo H. (1997) Enterocin

B, a new bacteriocin from Enterococcus faecium T136 which can act synergistically

with enterocin A. Microbiology, 143: 2287-94.

Castro MP, Palavecino NZ, Herman C, Garro OA, Campos CA. (2011) Lactic

acid bacteria isolated from artisanal dry sausages: Characterization of antibacterial

221

compounds and study of the factors affecting bacteriocin production. Meat Science,

87: 321–9.

Chahad OB, El Bour M, Calo-Mata P, Boudabous A, Barros-Velazquez J. (2012)

Discovery of novel biopreservation agents with inhibitory effects on growth of food-

borne pathogens and their application to seafood products. Research in Microbiology,

163: 44-54.

Charteris W, Kelly P, Morelli L, Collins J. (2001) Antibacterial activity associated

with Lactobacillus gasseri ATCC 9857 from the human female genitourinary tract.

World Journal of Microbiology and Biotechnology, 17(6): 615-25.

Chen H, Hoover DG. (2003) Bacteriocins and their Food Applications.

Comprehensive reviews in Food Science and Food Safety, 2: 82-100.

Chen Y, Ludescher RD, Montville TJ. (1997) Electrostatic interactions, but not the

YGNGV consensus motif, govern the binding of pediocin PA-1 and its fragments to

phospholipid vesicles. Applied and Environmental Microbiology, 63: 4770-7.

Cheng Y, Xu Z, Ma M, Xu T. (2008) Dendrimers as drug carriers: applications in

different routes of drug administration. Journal of Pharmaceutical Sciences 97: 123–

43.

Cherif A, Rezgui W, Raddadi N, Daffonchio D, Boudabous A. (2008)

Characterization and partial purification of entomocin110, a newly identified

bacteriocin from Bacillus thuringiensis subsp. Entomocidus HD110. Microbiological

Research, 163: 684-92.

Christ K, Al-Kaddah S, Wiedemann I, Rattay B, Sahl H-G, Bendas G. (2008)

Membrane lipids determine the antibiotic activity of the lantibiotic gallidermin.

Journal of Membrane Biology, 226: 9–16.

222

Chung HJ, Montville TJ, Chikindas ML. (2000) Nisin depletes ATP and proton

motive force in Mycobacteria. Letters in Applied Microbiology, 31: 416-20.

Cintas LM, Casaus P, Havarstein LS, Hernandez PE, Nes IF. (1997) Biochemical

and genetic characterization of enterocin P, a novel sec-dependent bacteriocin from

Enterococcus faecium P13 with a broad antimicrobial spectrum. Applied and

Environmental Microbiology, 63: 4321–30.

Cintas LM, Casaus P, Holo H, Hernández PE, Nes IF, Håvarstein LS. (1998)

Enterocins L50A and L50B, two novel bacteriocins from Enterococcus faecium L50,

are related to staphylococcal hemolysins. Journal of Bacteriology, 180: 1988-94.

Cleveland J, Montville TJ, Nes IF, Chikindas ML. (2001) Bacteriocins: safe,

natural antimicrobials for food preservation. International Journal of Food

Microbiology, 71(1): 1–20.

Cocolin L, Foschino R, Comi G, Grazia Fortina M. (2007) Description of the

bacteriocins produced by two strains of Enterococcus faecium isolated from Italian

goat milk. Food Microbiology, 24: 752-8.

Coda R, Cassone A, Rizzello CG, Nionelli L, Cardinali G, Gobbetti M. (2011)

Antifungal activity of Wickerhamomyces anomalus and Lactobacillus plantarum

during sourdough fermentation: Identification of novel compounds and long-term

effect during storage of wheat bread. Applied and Environmental Microbiology,

77(10): 3484–92.

Coda R, Rizzello CG, Pinto D, Gobbetti M. (2012) Selected lactic acid bacteria

synthesize antioxidant peptides during sourdough fermentation of cereal flours.

Applied and Environmental Microbiology, 78(4): 1087–96.

Corsetti A, Gobbetti M, Rossi J, Damiani P. (1998) Antimould activity of

sourdough lactic acid bacteria: identification of a mixture of organic acids produced

223

by Lactobacillus sanfrancisco CB1. Applied Microbiology and Biotechnology, 50(2):

253-6.

Cotter PD, Hill C, Ross RP. (2005) Bacteriocins: developing innate immunity for

food. Nature Reviews Microbiology, 3: 777–88.

Cotter PD, Hill C. (2009) Patent WO/2009/135945.

Coughlin RT, Crabb JH. (2002) Patent US6794181.

Coventry MJ, Gordon JB, Alexander M, Hickey MW, Wan J. (1996) A food-

grade process for isolation and partial purification of bacteriocins of lactic acid

bacteria that uses diatomite calcium silicate. Applied and Environmental

Microbiology, 62: 1764-9.

Crandall AD, Montville TJ. (1998) Nisin resistance in Listeria monocytogenes

ATCC 700302 is a complex phenotype. Applied and Environmental Microbiology,

64(1): 231–7.

Cruz-Chamorro L, Puertollano MA, Puertollano E, de Cienfuegos GA, de Pablo

MA. (2006) In vitro biological activities of magainin alone or in combination with

nisin. Peptides, 27(6): 1201-9.

Daba H, Lacroix C, Huang J, Simard RE, Lemieux L. (1994) Simple method of

purification and sequencing of a bacteriocin produced by Pediococcus acidilactici

UL5. Journal of Applied Bacteriology, 77: 682-8.

Dalié DKD, Deschamps AM, Richard-Forget F. (2010) Lactic acid bacteria –

Potential for control of mould growth and mycotoxins: A review. Food Control, 21:

370–80.

224

Dalmau M, Maier E, Mulet N, Viñas M, Benz R. (2002) Bacterial membrane

injuries induced by lactacin F and nisin. International Microbiology, 5(2): 73-80.

Dane F. and Dalgic Ö. (2005) The effects of fungicide benomyl (benlate) on

growth and mitosis in onion (Allium cepa) root apical meristem. Acta Biologica

Hungarica , 56(1–2): 119–128.

Davidson PM. (2001) Chemical preservatives and natural antimicrobial compounds:

593–627 In Food Microbiology: Fundamentals and Frontiers. (2nd ed.) M. P. Doyle,

L. R. Beuchat, and T. J. Montville, eds. ASM Press, Washington, DC.

De Jong A, van Heel AJ, Kok J, Kuipers OP. (2010) BAGEL2: mining for

bacteriocins in genomic data. Nucleic Acids Research, 38: W647–51.

De Kwaadsteniet M, Todorov SD, Konoetze H, Dicks LMT. (2005)

Characterization of a 3944 Da bacteriocin, produced by Enterococcus mundtii ST15,

with activity against Gram-positive and Gram-negative bacteria. International

Journal of Food Microbiology, 105: 433-44.

De Muynck C, Leroy AIJ, De Maeseneire S, Arnaut F, Soetaert W, Vandamme

EJ. (2004) Potential of selected lactic acid bacteria to produce food compatible

antifungal metabolites. Microbiological Research, 159: 339-46.

Delves-Broughton J. (2005) Nisin as a food preservative. Food Australia, 57: 525-7.

Dennison C, Lovrien R. (1997) Three Phase Partitioning: Concentration and

purification of proteins. Protein Expression and Purification, 11: 149-61.

Dessens JT, Mendoza J, Claudianos C, Vinetz JM, Khater E, Hassard S,

Ranawaka GR, Sinden RE. (2001) Knockout of the rodent malaria parasite

chitinase pbCHT1 reduces infectivity to mosquitoes. Infection and Immunology, 69:

4041–7.

225

Diep DB, Håvarstein LS, Nes IF. (1996) Characterization of the locus responsible

for the bacteriocin production in Lactobacillus plantarum C11. Journal of

Bacteriology, 178: 4472-83.

Dillon RJ, Dillon VM. (2004) Gut bacteria of insects. Nonpathogenic interactions.

Annual Reviews of Entomology, 49: 71–92.

Diop MB, Dubois-Dauphin R, Tine E, Ngom A, Destain J, Thonart P. (2007)

Bacteriocin producers from traditional food products. Biotechnology, Agronomy,

Society and Environment, 11: 275–81.

Downie MJ, Kirk K, Mamoun CB. (2008) Purine salvage pathways in the

intraerythrocytic malaria parasite Plasmodium falciparum. Eukaryotic Cell, 7(8):

1231–7.

Drider D, Fimland G, Hechard Y, McMullen L, Prevost H. (2006) The continuing

story of class IIa bacteriocin. Microbiology and Molecular Biology Review, 70: 564-

82.

Dufes C, Uchegbu IF, Schatzlein AG. (2005) Dendrimers in gene delivery.

Advanced Drug Delivery Reviews, 57: 2177 –202.

Duquesne S, Petit V, Peduzzi J, Rebuffat S. (2007) Structural and functional

diversity of microcins, gene-encoded antibacterial peptides from Enterobacteria.

Journal of Molecular Microbiology and Biotechnology, 13(4): 200-9.

Ehrmann MA, Remiger A, Eijsink VGH, Vogel RF. (2000) A gene cluster

encoding plantaricin 1.25L and other bacteriocin-like peptides in Lactobacillus

plantarum TMW1.25 Biochimica et Biophysica Acta, 1490: 355-61.

226

Eijsink VGH, Axelsson L, Diep DB, Håvarstein LS, Holo H, Nes IF. (2002)

Production of class II bacteriocins by lactic acid bacteria; an example of biological

warfare and communication. Antonie van Leeuwenhoek, 81: 639–54.

Eijsink VGH, Skeie M, Middelhoven PH, Brurberg MB, Nes IF. (1998)

Comparative studies of class IIa bacteriocins of lactic acid bacteria. Applied and

Environmental Microbiology, 64(9): 3275-81.

Ekkelenkamp MB, Hanssen M, Hsu S-TD, de Jong A, Milatovic D, Verhoef J,

van Nuland NAJ. (2005) Isolation and structural characterization of epilancin 15X, a

novel lantibiotic from a clinical strain of Staphylococcus epidermidis. FEBS Letters,

579: 1917–22.

Enan G, el Essawy AA, Uyttcndacle M, Debevere J. (1996) Antimicrobial activity

of Lactobacillus plantarum UG1 isolated from dry sausage: characterization

production and bactericidal action of plantaricin UG1. International Journal of Food

Microbiology 30: 189-215.

Ennahar S, Sashihara T, Sonomoto K, Ishizaki A. (2000) Class IIa bacteriocins:

biosynthesis, structure and activity. FEMS Microbiology Review, 24: 85-106.

Enouf V, Langella P, Commissaire J, Cohen J, Corthier G. (2001) Bovine

rotavirus nonstructural protein 4 produced by Lactococcus lactis is antigenic and

immunogenic. Applied and Environmental Microbiology, 67: 1423-8.

Ercolini D, Moschetti G, Blaiotta G, Coppola S. (2001) The potential of a

polyphasic PCR-dGGE approach in evaluating microbial diversity of natural whey

cultures for water-buffalo mozzarella cheese production: bias of culture-dependent

and culture-independent analyses. Systematic and Applied Microbiology, 24: 610-7.

Espitia PJP, Soares NFF, Coimbra JSR, de Andrade NJ, Cruz RS, Medeiros

EAA. (2012) Bioactive peptides: synthesis, properties, and applications in the

227

packaging and preservation of food. Comprehensive Reviews in Food Science and

Food Safety, 11(2): 187–204.

Farias ME, Farias RN, de Ruiz Holgado AP, Sesma F. (1996) Purification and N-

terminal amino acid sequence of Enterocin CRL35, a ‗pediocin-like‘ bacteriocin

produced by Enterococcus faecium CRL35. Letters in Applied Microbiology, 22:

417–9.

FDA. (1988) Federal Register, Nisin preparation: Affirmation of GRAS status as a

direct human food ingredient. 21 CFR Part 184, Federal Register, 53:11247-51.

Floriano B, Ruiz-Barba JL, Jiménez-Díaz R. (1998) Purification and genetic

characterization of enterocin I from Enterococcus faecium 6T1a, a novel antilisterial

plasmid-encoded bacteriocin which does not belong to the pediocin family of

bacteriocins. Applied and Environmental Microbiology, 64: 4883–90.

Flynn S, van Sinderen D, Thornton GM, Holo H, Nes IF, Collins JK. (2002)

Characterization of the genetic locus responsible for the production of ABP-118, a

novel bacteriocin produced by the probiotic bacterium Lactobacillus salivarius subsp.

salivarius UCC118. Microbiology, 148: 973–84.

Fooks LJ, Fuller R, Gibson GR. (1999) Prebiotics, probiotics and human gut

microbiology. International Dairy Journal, 9: 53-61.

Frazer AC, Sharratt M, Hickman JR. (1962) The biological effect of food

additives–nisin. Journal of Sciences. Food Agriculture, 13: 32- 42.

Galvez A, Gimenez-Gallego G, Maqueda M, Valdivia E. (1989) Purification and

amino acid composition of peptide antibiotic AS-48 produced by Streptococcus

(Enterococcus) faecalis subsp. liquefaciens S-48. Antimicrobial Agents and

Chemotherapy, 33: 437–41.

228

Gálvez A, Abriouel H, López RL, Omar NB. (2007) Bacteriocin-based strategies

for food biopreservation. International Journal of Food Microbiology, 120: 51–70.

Garde S, Ávila M, Arias R, Gaya P, Nuñez M. (2011) Outgrowth inhibition of

Clostridium beijerinckii spores by a bacteriocin-producing lactic culture in ovine milk

cheese. International Journal of Food Microbiology, 150: 59–65.

Gardiner GE, Rea MC, O‟Riordan B, O‟Connor P, Morgan SM, Lawlor PG,

Lynch PB, Cronin M, Ross RP, Hill C. (2007) Fate of the two-component

lantibiotic lacticin 3147 in the gastrointestinal tract. Applied and Environmental

Microbiology, 73(21): 7103-9.

Gelhaus C, Jacobs T, Andra J, Leippe M. (2008) The Antimicrobial peptide NK-2,

the core region of mammalian NK-lysin, kills intraerythrocytic Plasmodium

falciparum. Antimicrobial Agents and Chemotherapy, 52: 1713–20.

Gerez CL, Torino MI, Rollán G, de Valdez GF. (2009) Prevention of bread mould

spoilage by using lactic acid bacteria with antifungal properties. Food Control, 20:

144–8.

Gevers D, Huys G, Swings J. (2001) Applicability of rep-PCR fingerprinting for

identification of Lactobacillus species. FEMS Microbiology Letters, 205: 31-6.

Ghalfi H, Benkerroum N, Ongena M, Bensaid M, Thonart P. (2010) Production

of three anti-listerial peptides by Lactobacillus curvatus in MRS broth. Food

Research International, 43: 33–9.

Ghosh JK, Shaool D, Guillaud P, Ciceron L, Mazier D, Kustanovich I, Shai Y,

Mor A. (1997) Selective cytotoxicity of dermaseptin S3 toward intraerythrocytic

Plasmodium falciparum and the underlying molecular basis. Journal of Biological

Chemistry, 272: 31609-16.

229

Ghosh N, Kumar M, Tiwari SK, Srivastava S. (2008) Probiotic potential of two

environmental isolates of lactic acid bacteria, Lactobacillus plantarum LR/14 and

Enterococcus faecium LR/6. International Journal of Probiotics & Prebiotics, 3(4):

199-206.

Gillor O, Etzion A, Riley MA. (2008) The dual role of bacteriocins as anti- and

probiotics. Applied Microbiology and Biotechnology, 81(4): 591–606.

Gillor O, Kirkup BC, Riley MA. (2004) Colicins and microcins: the next generation

antimicrobials. Advances in Applied Microbiology, 54: 129–46.

Gong HS, Meng XC, Wang H. (2010) Mode of action of plantaricin MG, a

bacteriocin active against Salmonella typhimurium. Journal of Basic Microbiology,

50: S37-S45.

Gonzaleź B, Arca P, Mayo B, Suarez JE. (1994) Detection, purification, and partial

characterization of plantaricin C, a bacteriocin produced by a Lactobacillus

plantarum strain of dairy origin. Applied and Environmental Microbiology, 60(6):

2158-63.

Graf U, Schaik NV, Wurgler FE. (1992) Drosophila Genetics - A Practical Course.

Springer Verlag, Berlin.

Grangette C, Müller-Alouf H, Goudercourt D, Geoffroy MC, Turneer M,

Mercenier A. (2001) Mucosal immune responses and protection against tetanus toxin

after intranasal immunization with recombinant Lactobacillus plantarum. Infection

and Immunity, 69: 1547-53.

Grant WF. (1978) Chromosome aberrations in plants as a monitoring system.

Environmental Health Perspectives, 27: 37-43.

230

Guani-Guerra E, Santos-Mendoza T, Lugo-Reyes SO, Teran LM. (2010)

Antimicrobial peptides: general overview and clinical implications in human health

and disease. Clinical Immunology, 135: 1-11.

Gupta SC, Siddique HR, Mathur N, Mishra RK, Mitra K, Saxena DK,

Chowdhuri DK. (2008) Adverse effect of organophosphate compounds, dichlorvos

and chlorpyrifos in the reproductive tissues of transgenic Drosophila melanogaster :

70kDa heat shock protein as a marker of cellular damage. Toxicology. 238: 1-14.

Gupta SM, Aranha CC, Reddy KVR. (2008) Evaluation of developmental toxicity

of microbicide nisin in rats. Food and Chemical Toxicology, 46: 598–603.

Gut IM, Blanke SR, van der Donk WA. (2011) Mechanism of inhibition of Bacillus

anthracis spore outgrowth by the lantibiotic nisin. ACS Chemical Biology, 6: 744–52.

Gut IM, Prouty AM, Ballard JD, van der Donk WA, Blanke SR. (2008)

Inhibition of Bacillus anthracis spore outgrowth by nisin. Antimicrobial Agents and

Chemotherapy, 52(12): 4281–8.

Guyonnet, D, Fremaux, C, Cenatiempo Y, Berjeaud, JM. (2000) Method for rapid

purification of class IIa bacteriocins and comparison of their activities. Applied and

Environmental Microbiology, 66: 1744-8.

Halliwell B. (1994) Free radicals and antioxidants: a personal view. Nutrition

Reviews 52: 253-65.

Halliwell B, Gutteridge JMC. (1999) Free radicals in Biology and Medicine.

Clarendon Press.

Hancock REW, Chapple DS. (1999) Peptide antibiotics. Antimicrobial Agents and

Chemotherapy, 43(6): 1317–23.

231

Hara S, Yakazu K, Nakakawaji K, Takeuchi T, Kobayashi T, Sata M, Imai Z,

Shibuya T. (1962) An investigation of toxicity of nisin. Journal of Tokyo Medical

University, 20: 176.

Hartmann HA, Wilke T, Erdmann R. (2011) Efficacy of bacteriocin-containing

cell-free culture supernatants from lactic acid bacteria to control Listeria

monocytogenes in food. International Journal of Food Microbiology, 146: 192–9.

Hasper HE, Kramer NE, Smith JL, Hillman JD, Zachariah C, Kuipers OP, de

Kruijff B, Breukink E. (2006) An alternative bactericidal mechanism of action for

lantibiotic peptides that target lipid II. Science, 313(5793): 1636-7.

Hassan M, Diep DB, Javadzadeh Y, Dastmalchi S, Nes IF, Sharifi Y, Yari S,

Farajnia S, Lotfipour F. (2012) Prevalence of bacteriocin activities and bacteriocin-

encoding genes in Enterococcal clinical isolates in Iran. Canadian Journal of

Microbiology, 58(4): 359-68.

Hassan YI, Bullerman LB. (2008) Antifungal activity of Lactobacillus paracasei

ssp. tolerans isolated from a sourdough bread culture. International Journal of Food

Microbiology, 121(1): 112-5.

Hastings JW, Sailer M, Johnson K, Roy KL, Vederas JC, Stiles ME. (1991)

Characterization of leucocin A-UAL 187 and cloning of the bacteriocin gene from

Leuconostoc gelidum. Journal of Bacteriology, 173: 7491–500.

Héchard Y, Derijard B, Letellier F, Cenatiempo Y. (1992) Characterization and

purification of mesentericin Y105, an anti-Listeria bacteriocin from Leuconostoc

mesenteroides. Journal of General Microbiology, 138: 2725-31.

Heidrich C, Pag U, Josten M, Metzger J, Jack RW, Bierbaum G, Jung G, Sahl

HG. (1998) Isolation, characterization, and heterologous expression of the novel

232

lantibiotic epicidin 280 and analysis of its biosynthetic gene cluster. Applied and

Environmental Microbiology, 64: 3140–6.

Heinonen JK, Lahti RJ. (1981) A new and convenient colorimetric determination of

inorganic orthophosphate and its application to the assay of inorganic pyrophosphate.

Analytical Biochemistry, 113: 313-7.

Hernández D, Cardell E, Zárate V. (2005) Antimicrobial activity of lactic acid

bacteria isolated from Tenerife cheese: initial characterization of plantaricin TF711, a

bacteriocin-like substance produced by Lactobacillus plantarum TF711. Journal of

Applied Microbiology, 99: 77–84.

Herranz C, Chen Y, Chung HJ Cintas LM, Hernández PE, Montville

TJ, Chikindas ML. (2001) Enterocin P selectively dissipates the membrane potential

of Enterococcus faecium T136. Applied and Environmental Microbiology, 67(4):

1689–92.

Hillman JD. (2002) Genetically modified Streptococcus mutans for the prevention of

dental caries. Anotonie van Leeuwenhoek, 82: 361-6.

Hodgson E. (2004) A Textbook of Modern Toxicology. John Wiley & Sons, Inc,

Publication, Hoboken, New Jersey.

Holtsmark I, Mantzilas D, Eijsink VG, Brurberg MB. (2006) Purification,

characterization, and gene sequence of michiganin A, an actagardine-like lantibiotic

produced by the tomato pathogen Clavibacter michiganensis subsp. michiganensis.

Applied and Environmental Microbiology, 72: 5814–21.

Holzapfel WH, Haberer P, Geisen R, Björkroth J, Schillinger U. (2001)

Taxonomy and important features of probiotic microorganisms in food nutrition.

American Journal of Clinical Nutrition, 73: 365-73.

233

Hsu S-TD, Breukink E, Bierbaum G, Sahl HG, de Kruijff B, Kaptein R, van

Nuland NAJ, Bonvin AMJJ. (2003) NMR study of mersacidin and lipid II

interaction in dodecylphosphocholine micelles. Conformational changes are a key to

antimicrobial activity. Journal of Biological Chemistry, 278: 13110–7.

Hu C-B, Malaphan W, Zendo T, Nakayama J, Sonomoto K. (2010) Enterocin X, a

novel two-peptide bacteriocin from Enterococcus faecium KU-B5, has an

antibacterial spectrum entirely different from those of its component peptides.

Applied and Environmental Microbiology, 76(13): 4542–5.

Hurdle JG, O‟Neill AJ, Chopra I, Lee RE. (2011) Targeting bacterial membrane

function: An underexploited mechanism for treating persistent infections. Nature

Review Microbiology, 9: 62-75.

Hyde AJ, Parisot J, McNichol A, Bonev BB. (2006) Nisin-induced changes in

Bacillus morphology suggest a paradigm of antibiotic action. Proceedings National

Academy of Sciences, USA, 103(52): 19896–901.

Ianella P, Azeredo-Oliveira MTV, Itoyama MM. (2008) Programmed cell death in

salivary glands of Drosophila arizonae and Drosophila mulleri. Genetics and

Molecular Research, 7: 476-86.

Isolauri E. (2001) Probiotics in human‘s disease. American Journal of Clinical

Nutrition, 73: 1142-6.

Ivanova I, Miteva V, Stefanova TS. (1998) Characterization of a bacteriocin

produced by Streptococcus thermophilus 81. International Journal of Food

Microbiology, 42: 147-58.

Jack RW, Tagg JR, Ray B. (1995) Bacteriocins of Gram-positive bacteria.

Microbiological Review, 59: 171-200.

234

Jack RW, Wan J, Gordon J, Harmark K, Davidson BE, Hillier AJ, Wettenhall

RE, Hickey MW, Coventry MJ. (1996) Characterization of the chemical and

antimicrobial properties of piscicolin 126, a bacteriocin produced by Carnobacterium

piscicola JG126. Applied and Environmental Microbiology, 62: 2897–903.

Janiszewska J, Urbanczyk-Lipkowska Z. (2007) Amphiphilic dendrimeric peptides

as model non- sequential pharmacophores with antimicrobial properties. Journal of

Molecular Microbiology and Biotechnology, 13: 220–5.

Jasniewski J, Cailliez-Grimal C, Chevalot I, Millière J. (2009) Interactions

between two carnobacteriocins Cbn BM1 and Cbn B2 from Carnobacterium

maltaromaticum CP5 on target bacteria and Caco-2 cells. Food and Chemical

Toxicology, 47: 893–7.

Jay JM. (2000) Fermentation and fermented dairy products, In: Modern Food

Microbiology, (6th

edition), Aspen Publishers, Inc. Gaithersburg, USA. pp. 113-30.

Jimenez-Diaz R, Ruiz-Barba JL, Cathcart DP, Holo H, Nes IF, Sletten KH,

Warner PJ. (1995) Purification and partial amino acid sequence of plantaricin S, a

bacteriocin produced by Lactobacillus plantarum LPCO10, the activity of which

depends on the complementary action of two peptides. Applied and Environmental

Microbiology, 61: 4459–63.

Kaizu H, Sasaki M, Nakajima H, Suzuki Y. (1993) Effect of antioxidative lactic

acid bacteria on rats fed a diet deficient in vitamin E. Journal of Dairy Science, 76:

2493-9.

Kalmokoff ML, Teather RM. (1997) Isolation and characterization of a bacteriocin

(Butyrivibriocin AR10) from the ruminal anaerobe Butyrivibrio fibrisolvens AR10:

evidence in support of the widespread occurrence of bacteriocin-like activity among

235

ruminal isolates of B. fibrisolvens. Applied and Environmental Microbiology, 63:

394–402.

Kaminski HM, Feix JB. (2011) Effects of D-lysine substitutions on the activity and

selectivity of antimicrobial peptide CM15. Polymers, 3: 2088-106.

Kamoun F, Mejdoub H, Aouissaoui H, Reinbolt J, Hammami A, Jaoua S. (2005)

Purification, amino acid sequence and characterization of Bacthuricin F4, a new

bacteriocin produced by Bacillus thuringiensis. Journal of Applied Microbiology, 98:

881–8.

Karatas A, Bahceci Z. (2009) Effect of cypermethrin on some developmental stages

of Drosophila melanogaster. Bulletin of Environmental Contamination and

Toxicology, 82: 738-42.

Kaur K, Andrew LC, Wishart DS, Vederas JC. (2004) Dynamic relationships

among type IIa bacteriocins: temperature effects on antimicrobial activity and on

structure of the C-terminal amphipathic alpha helix as a receptor-binding region.

Biochemistry, 43: 9009–20.

Kaur B, Balgir P, Mittu B, Chauhan A, Kumar B. (2013) Purification and

physicochemical characterization of anti-Gardnerella vaginalis bacteriocin HV6b

produced by Lactobacillus fermentum isolate from human vaginal ecosystem.

American Journal of Biochemistry and Molecular Biology, 3(1): 91-100.

Kaushik NK, Sharma J, Sahal D. (2012) Anti-plasmodial action of de novo-

designed, cationic, lysine-branched, amphipathic, helical peptides Malaria Journal,

11: 256.

Kawai Y, Kemperman R, Kok J, Saito T. (2004) The circular bacteriocins

gassericin A and circularin A. Current Protein Peptide Science, 5: 393–8.

236

Kawamoto S, Shima J, Sato R, Eguchi T, Ohmomo S, Shibato J, Horikoshi N,

Takeshita K, Sameshima T. (2002) Biochemical and genetic characterization of

mundticin KS, an antilisterial peptide produced by Enterococcus mundtii NFRI 7393.

Applied and Environmental Microbiology, 68: 3830–40.

Kemperman R, Kuipers A, Karsens H, Nauta A, Kuipers O, Kok J. (2003)

Identification and characterization of two novel Clostridial bacteriocins, circularin A

and closticin 574. Applied and Environmental Microbiology, 69: 1589–97.

Khalil R, Elbahloul Y, Djadouni F, Omar S. (2009) Isolation and partial

characterization of a bacteriocin produced by a newly isolated Bacillus megaterium

19 strain. Pakistan Journal of Nutrition 8(3): 242-50.

Kjos M, Borrero J, Opsata M, Birri DJ, Holo H, Cintas LM, Snipen L,

Herna´ndez PE, Nes IF, Diep DB. (2011) Target recognition, resistance, immunity

and genome mining of class II bacteriocins from Gram-positive bacteria.

Microbiology, 157: 3256-67.

Kjos M, Snipen L, Salehian Z, Nes IF, Diep DB. (2010) The Abi proteins and their

involvement in bacteriocin self-immunity. Journal of Bacteriology, 192: 2068–76.

Korpela RK, Lähteenmäki PT, Sievi E, Saxelin M, Vapaatalo H. (1997)

Lactobacillus rhamnosus GG shows antioxidative properties in vascular endothelial

cell culture. Milchwissenschaft, 52: 503-5.

Kuipers OP, Buist G, Kok J. (2000) Current strategies for improving food bacteria.

Research in Microbiology, 151: 815-22.

Kumar AS, Krishna RS, Pavithra V, Hemalatha V, Ingale P. (2011) Production

and antibacterial activity of bacteriocin by Lactobacillus paracasei isolated from

donkey milk. International Journal of Current Science, 1: 109-15.

237

Kumar B, Balgir PP, Kaur B, Mittu B, Garg N. (2012) Antimicrobial and

spermicidal activity of native and recombinant pediocin CP2: a comparative

evaluation. Archives of Clinical Microbiology, 3(2).

Kumar M, Hora R, Kostrzynska M, Waites WM, Warriner K. (2006)

Inactivation of Escherichia coli O157:H7 and Salmonella on mung beans, alfalfa, and

other seed types destined for sprout production by using an oxychloro-based sanitizer.

Journal of Food Protection, 69(7): 1571–8.

Kumar M, Srivastava S. (2011) Effect of calcium and magnesium on the

antimicrobial action of enterocin LR/6 produced from Enterococcus faecium LR/6.

International Journal of Antimicrobial Agents, 37(6): 572-5.

Kumar M, Tiwari SK, Srivastava S. (2010) Purification and characterization of

enterocin LR/6, a bacteriocin from Enterococcus faecium LR/6. Applied Biochemistry

and Biotechnology, 160(1): 40-9.

Laitila A, Alakomi H-L, Raaska L, Mattila-Sandholm T, Haikara A. (2002)

Antifungal activities of two Lactobacillus plantarum strains against Fusarium moulds

in vitro and in malting of barley. Journal of Applied Microbiology, 93: 566–76.

Lappe R, Motta AS, Sant'Anna V. (2009) Inhibition of Salmonella enteritidis by

cerein 8A, EDTA and sodium lactate. International Journal of Food Microbiology,

135: 312–6.

Lavermicocca P, Valerio F, Evidente A, Lazzaroni S, Corsetti A, Gobbetti M.

(2000) Purification and characterization of novel antifungal compounds from the

sourdough Lactobacillus plantarum strain 21B. Applied and Environmental

Microbiology, 66(9): 4084–90.

238

Lee CH, An DS, Lee SC, Park HJ, Lee DS. (2004) A coating for use as an

antimicrobial and antioxidative packaging material incorporating nisin and α-

tocopherol. Journal of Food Engineering, 62: 323–9.

Lee SB, Kim S, Lee J, Park J, Lee G, Kim Y, Kim J, Chung J. (2007) ATG1, an

autophagy regulator, inhibits cell growth by negatively regulating S6 kinase EMBO

reports, 8: 360–5.

Leventis PA, Da Sylva TR, Rajwans N, Wasiak S, McPherson PS, Boulianne GL.

(2011) Liquid facets-related (lqfR) is required for egg chamber morphogenesis

during Drosophila oogenesis. PLoS ONE, 6(10): e25466.

Lew RR. (2011) How does a hypha grow? The biophysics of pressurized growth in

fungi. Nature Reviews Microbiology, 9: 509-18.

Li J, Aroutcheva AA, Faro S, Chikindas ML. (2005) Mode of action of lactocin

160, a bacteriocin from vaginal Lactobacillus rhamnosus. Infectious Diseases in

Obstetrics and Gynecology, 13(3): 135-40.

Lins L, Ducarme P, Breukink E, Brasseur R. (1999) Computational study of nisin

interaction with model membrane. Biochimica Biophysica Acta, 420:111–20.

Liu SQ. (2003) Practical implications of lactate and pyruvate metabolism by lactic

acid bacteria in food and beverage fermentations. International Journal of Food

Microbiology, 83: 115-31.

Liu W, Hansen JN. (1990) Some chemical and physical properties of nisin, a small-

protein antibiotic produced by Lactococcus lactis. Applied and Environmental

Microbiology, 56: 2551–8.

239

Liu X, Vinson D, Abt D, Hurt RH, Rand DM. (2009) Differential toxicity of

carbon nanomaterials in Drosophila: Larval dietary uptake is benign, but adult

exposure causes locomotor impairment and mortality. Environmental Science and

Technology, 43: 6357–63.

Liu Z, Brady A, Young A, Rasimick B, Chen K, Zhou C, Kallenbach NR. (2007)

Length effects in antimicrobial peptides of the (RW)n series. Antimicrobial Agents

and Chemotherapy, 51(2): 597–603.

Lohans CT, Vederas JC. (2012) Development of class IIa bacteriocins as

therapeutic agents. International Journal of Microbiology, 386410: 13.

Lohner K. (2009) New strategies for novel antibiotics: peptides targeting bacterial

cell membranes. General Physiology and Biophysics, 28(2): 105-16.

Loper JE, Hassan KA, Mavrodi DV, Davis EWII, Lim CK, Shaffer BT,

Elbourne LDH, Stockwell VO, Hartney SL, Breakwell K, Henkels MD, Tetu SG,

Rangel LI, Kidarsa TA, Wilson NL, van de Mortel JE, Song C, Blumhagen R,

Radune D, Hostetler JB, Brinkac LM, Durkin AS, Kluepfel DA, Wechter WP,

Anderson AJ, Kim YC, Pierson LS III, Pierson EA, Lindow SE, Kobayashi DY,

Raaijmakers JM, Weller DM, Thomashow LS, Allen AE, Paulsen IT. (2012)

Comparative genomics of plant-associated Pseudomonas spp.: insights into diversity

and inheritance of traits involved in multitrophic interactions. PLoS Genetics, 8(7):

e1002784.

Lu R, Fasano S, Madayiputhiya N, Morin NP, Nataro J, Fasano A. (2009)

Isolation, identification, and characterization of small bioactive peptides from

Lactobacillus GG conditional media that exert both anti- Gram-negative and-Gram-

positive bactericidal activity. Journal of Pediatric Gastroenterology and Nutrition,

49: 23–30.

240

Luoma S, Peltoniemi K, Joutsjoki K, Rantanen T, Tamminen M, Heikkinen I,

Palva A. (2001) Expression of six peptidases from Lactobacillus helveticus in

Lactococcus lactis. Applied and Environmental Microbiology, 67: 1232-8.

Macwana S, Muriana PM. (2012) Spontaneous bacteriocin resistance in Listeria

monocytogenes as a susceptibility screen for identifying different mechanisms of

resistance and modes of action by bacteriocins of lactic acid bacteria. Journal of

Microbiological Methods, 88: 7–13.

Mader JS, Hoskin DW. (2006) Cationic antimicrobial peptides as novel cytotoxic

agents for cancer treatment. 15(8): 933-46.

Magnusson J, Schnürer J. (2001) Lactobacillus coryniformis subsp. coryniformis

strain Si3 produces a broad-spectrum proteinaceous antifungal compound. Applied

and Environmental Microbiology, 67(1): 1–5.

Magnusson J, Strom K, Roos S, Sjogren J, Schnurer J. (2003) Broad and complex

antifungal activity among environmental isolates of lactic acid bacteria. FEMS

Microbiology Letters, 219: 129-35.

Maher S, McClean S. (2006) Investigation of the cytotoxicity of eukaryotic and

prokaryotic antimicrobial peptides in intestinal epithelial cells in vitro. Biochemical

Pharmacology, 71: 1289-98.

Maldonado A, Ruiz-Barba JL, Jimenez-Diaz R. (2003) Purification and genetic

characterization of plantaricin NC8, a novel coculture-inducible two-peptide

bacteriocin from Lactobacillus plantarum NC8. Applied and Environmental

Microbiology, 69: 383–9.

Maldonado-Barragan A, Caballero-Guerrero B, Jimenez E, Jimenez-Diaz R,

Ruiz-Barba JL, Rodriguez JM. (2009) Enterocin C, a class IIb bacteriocin produced

241

by E. faecalis C901, a strain isolated from human colostrum. International Journal of

Food Microbiology, 133: 105–12.

Mantovani HC, Russell JB. (2003) Inhibition of Listeria monocytogenes by bovicin

HC5, a bacteriocin produced by Streptococcus bovis HC5. International Journal of

Food Microbiology, 89: 77– 83.

Marciset O, Jeronimus-Stratingh MC, Mollet B, Poolman B. (1997) Thermophilin

13, a nontypical antilisterial poration complex bacteriocin, that functions without a

receptor. Journal of Biological Chemistry, 272: 14277–84.

Marteau PR, de Vrese M, Cellier CJ, Schrezenmeir J. (2001) Protection from

gastro-intestinal diseases with the use of probiotics. American Journal of Clinical

Nutrition, 73: 4305-65.

Martín R, Langa S, Reviriego C, Jimínez E, Marín ML, Xaus J, Fernández

L, Rodríguez JM. (2003) Human milk is a source of lactic acid bacteria for the

infant gut. The Journal of Pediatrics, 143(6): 754–8.

Martin-Visscher LA, van Belkum MJ, Garneau-Tsodikova S, Whittal RM,

Zheng J, McMullen LM, Vederas JC. (2008) Isolation and characterization of

carnocyclin a, a novel circular bacteriocin produced by Carnobacterium

maltaromaticum UAL307. Applied and Environmental Microbiology, 74: 4756–63.

Martinez B, Rodriguez A, Suarez JE. (2000) Lactococcin 972, a bacteriocin that

inhibits septum formation in lactococci. Microbiology, 146: 949–55.

Martínez JM, Martínez MI, Herranz C, Suárez A, Fernández MF, Cintas LM,

Rodríguez JM, Hernández PE (1999). Antibodies to a synthetic 1–9-N-terminal

amino acid fragment of mature pediocin PA-1: sensitivity and specificity for pediocin

PA-1 and cross-reactivity against Class IIa bacteriocins. Microbiology, 145: 2777–87.

242

Martínez JM, Martínez MI, Suárez AM, Herranz C, Casaus P, Cintas LM,

Rodríguez JM, Hernández PE. (1998) Generation of polyclonal antibodies of

predetermined specificity against pediocin PA-1. Applied and Environmental

Microbiology, 4536–45.

Masdea L, Kulik EM, Hauser-Gerspach I, Ramseier AM, Filippi A, Waltimo T.

(2012) Antimicrobial activity of Streptococcus salivarius K12 on bacteria involved in

oral malodour. Archives of Oral Biology, 2765: 7.

Mason AJ, Moussaoui W, Abdelrahman T, Boukhari A, Bertani P, Marquette A,

Shooshtarizaheh P, Moulay G, Boehm N, Guerold B, Sawers RJH, Kichler A,

Metz-Boutigue M-H, Candolfi E, Prévost G, Bechinger B. (2009) Structural

determinants of antimicrobial and antiplasmodial activity and selectivity in histidine-

rich amphipathic cationic peptides. The Journal of Biological Chemistry, 284(1):

119–33.

Matsumoto ST, Mantovani MS, Malaguttii MIA, Dias AL, Fonseca IC, Marin-

Morales MA. (2006) Genotoxicity and mutagenicity of water contaminated with

tannery effluents, as evaluated by the micronucleus test and comet assay using the

fish Oreochromis niloticus and chromosome aberrations in onion root-tips. Genetics

and Molecular Biology, 29(1): 148-58.

McAuliffe O, Ryan MP, Ross RP, Hill C, Breeuwer P, Abee T. (1998) Lacticin

3147, a broad-spectrum bacteriocin which selectively dissipates the membrane

potential. Applied and Environmental Microbiology, 64: 439-45.

McCormick JK, Poon A, Sailer M, Gao Y, Roy KL, McMullen LM, Vederas JC,

Stiles ME, Van Belkum MJ. (1998) Genetic characterization and heterologous

expression of brochocin-C, an antibotulinal, two-peptide bacteriocin produced by

Brochothrix campestris ATCC 43754. Applied and Environmental Microbiology, 64:

4757–66.

243

Memmi BK, Atli E. (2011) Positive correlation between malathion resistance and

fecundity within natural populations of Drosophila melanogaster. Turkish Journal of

Biology, 35: 153-9.

Messi P, Bondi M, Sabia C, Battini R, Manicardi G. (2001) Detection and

preliminary characterization of a bacteriocin (plantaricin 35d) produced by a

Lactobacillus plantarum strain. International Journal of Food Microbiology, 64(1-2):

193-8.

Misselwitz B, Schmitt-Willich H, Ebert W, Frenzel T, Weinmann HJ. (2001)

Pharmacokinetics of Gadomer-17, a new dendritic magnetic resonance contrast agent.

Magnetic Resonance Materials in Physics, Biology and Medicine (MAGMA), 12(2-3):

128-34.

Mohandas N, Gallagher PG. (2008) Red cell membrane: past, present, and future.

Blood, 112(10): 3939-48.

Mohle-Boetani JC, Farrar J, Bradley P, Barak JD, Miller M, Mandrell R, Mead

P, Keene WE, Cummings K, Abbott S, Werner SB. (2009) Salmonella infections

associated with mung bean sprouts: epidemiological and environmental

investigations. Epidemiology Infections, 137: 357–66.

Moineau S. (1999) Applications of phage resistance in lactic acid bacteria. Antonie

van Leeuwenhoek, 76: 377-82.

Moll GN, Konings WN, Driessen AJM. (1999) Bacteriocins: mechanism of

membrane insertion and pore formation. Antonie van Leeuwenhoek, 76: 185-98.

Montville TJ, Bruno EMC. (1994) Evidence that dissipation of proton motive force

is a common mechanism of action for bacteriocins and other antimicrobial proteins.

International Journal of Food Microbiology, 24: 53-74.

244

Montville TJ, Chung H-J, Chikindas ML, Chen Y. (1999) Nisin A depletes

intracellular ATP and acts in bactericidal manner against Mycobacterium smegmatis.

Letters in Applied Microbiology, 28: 189-93.

Morgan SM, Galvin M, Delly J, Ross RP, Hill C. (1999) Development of a lacticin

3147-enriched whey powder with inhibition activity against food-borne pathogens.

Journal of Food Protection, 62: 1011-6.

Motta AS, Flores FS, Souto AA, Brandelli A. (2008) Antibacterial activity of a

bacteriocin-like substance produced by Bacillus sp. P34 that targets the bacterial cell

envelope. Antonie Van Leeuwenhoek, 93: 275–84.

Mukhopadhyay I, Nazir A, Saxena DK, Chowdhuri DK. (2002) Toxicity of

cypermethrin: hsp70 as a biomarker of response in transgenic Drosophila.

Biomarkers, 7: 501-10.

Muriana PM, Klaenhammer TR. (1991) Purification and partial characterization of

lactacin F, a bacteriocin produced by Lactobacillus acidophilus 11088. Applied and

Environmental Microbiology, 57: 114–21.

Murinda SE, Rashid KA, Roberts RF. (2003) In vitro assessment of the

cytotoxicity of nisin, pediocin, and selected colicins on Simian Virus 40–transfected

human colon and vero monkey kidney cells with trypan blue staining viability assays.

Journal of Food Protection, 66(5): 847-53.

Mustafa GH, Garg N, Dogra E, Surolia R, Ghosh PC. (2011) Inhibition of the

growth of Plasmodium falciparum in culture by stearylamine-phosphatidylcholine

liposomes. Journal of Parasitology Research, 120462: 9.

Nadda G, Saxena PN, Srivastava G. (2005) Effects of beta-cyfluthrin on white and

sepia mutants of Drosophila melanogaster. Journal of Environmental Biology, 26:

363-7.

245

Naghmouchi K, Drider D, Hammami R, Fliss I. (2008) Effect of antimicrobial

peptides divergicin M35 and nisin A on Listeria monocytogenes LSD530 potassium

channels. Current Microbiology, 56: 609-12.

Naidu Y, Meon S, Kadir J, Siddiqui Y. (2010) Microbial starter for the

enhancement of biological activity of compost tea. International Journal of

Agriculture and Biology, 12: 51–6.

Nawaz SK, Riaz S, Riaz S, Hasnain S. (2009) Screening for anti-methicillin

resistant Staphylococcus aureus (MRSA) bacteriocin producing bacteria. African

Journal of Biotechnology, 8: 365–8.

Nes IF, Yoon S-S, Diep DB. (2007) Ribosomally synthesized antimicrobial peptides

(bacteriocins) in lactic acid bacteria: a review. Food Science and Biotechnology, 16:

675–90.

Neysens P, Messens W, De Vuyst L. (2003) Effect of sodium chloride on growth

and bacteriocin production by Lactobacillus amylovorus DCE 471. International

Journal of Food Microbiology, 88: 29–39.

Nicolas G, Morency H, LaPointe G, Lavoie MC. (2006) Mutacin H-29B is

identical to mutacin II (J-T8). BMC Microbiology, 6: 36.

Nissen-Meyer J, Holo H, Havarstein LS, Sletten K, Nes IF. (1992) A novel

lactococcal bacteriocin whose activity depends on the complementary action of two

peptides. Journal of Bacteriology, 174: 5686–92.

Nissen-Meyer J, Rogne P, Oppegård C, Haugen HS, Kristiansen PE. (2009)

Structure-function relationships of the non-lanthionine-containing peptide (class II)

bacteriocins produced by gram-positive bacteria. Current Pharmaceutical

Biotechnology, 10(1): 19-37.

246

O‟Shea EF, O‟Connor PM, Raftis EJ, O‟Toole PW, Stanton C, Cotter PD, Ross

RP, Hill C. (2011) Production of multiple bacteriocins from a single locus by

gastrointestinal strains of Lactobacillus salivarius. Journal of Bacteriology, 193(24):

6973–82.

O‟Sullivan L, Ross RP and Hill C. (2002) Potential of bacteriocin-producing lactic

acid bacteria for improvements in food safety and quality. Biochimie, 84: 593–604.

Ogunbanwo ST, Sanni AI, Onilude AA. (2003) Characterization of bacteriocin

produced by Lactobacillus plantarum F1 and Lactobacillus brevis OG1. African

Journal of Biotechnology, 2: 219-27.

Ogunshe AAO, Omotoso MA, Adeyeye JA. (2007) In vitro antimicrobial

characteristics of bacteriocin producing Lactobacillus strains from Nigerian

indigenous fermented foods. African Journal of Biotechnology, 6(4): 445-53.

Okkers DJ, Dicks LMT, Silvester M, Joubert JJ, Odendaal HJ. (1999)

Characterization of pentocin TV35b, a bacteriocin-like peptide isolated from

Lactobacillus pentosus with a fungistatic effect on Candida albicans. Journal of

Applied Microbiology, 87: 726–34.

Olcott MH, Henkels MD, Rosen KL, Walker FL, Sneh B, Loper JE, Taylor BJ.

(2010) Lethality and developmental delay in Drosophila melanogaster larvae after

ingestion of selected Pseudomonas fluorescens strains. PLoS ONE, 5(9): e12504.

Oman TJ, Boettcher JM, Wang H, Okalibe XN, van der Donk WA. (2011)

Sublancin is not a lantibiotic but an S-linked glycopeptide. Nature Chemical Biology,

7: 78–80.

247

Opinion of the Scientific Panel on Food Additives, Flavourings, Processing Aids and

Materials in Contact with Food on a request from the Commission related to : The use

of nisin (E 234) as a food additive. The EFSA Journal (2006) 314: 1-16.

Oppegård C, Emanuelsen L, Thorbek L, Fimland G, Nissen-Meyer J. (2010) The

Lactococcin G immunity protein recognizes specific regions in both peptides

constituting the two-peptide bacteriocin lactococcin G. Applied and Environmental

Microbiology, 76(4): 1267–3.

Overbye KM, Barrett JF. (2005) Antibiotics: where did we go wrong? Drug

Discovery Today, 10(1): 45-52.

Paiva AD, de Oliveira MD, de Paula SO, Baracat-Pereira MC, Breukink E,

Mantovani HC. (2012). Toxicity of bovicin HC5 against mammalian cell lines and

the role of cholesterol in bacteriocin activity. Microbiology, 158(11): 2851-8.

Palacios J, Vignolo G, Farias ME, de Ruiz Holgado AP, Oliver G, Sesma F.

(1999) Purification and amino acid sequence of lactocin 705, a bacteriocin produced

by Lactobacillus casei CRL 705. Microbiology Research, 154: 199–204.

Panacek A, Prucek R, Safarova D, Dittrich M, Richtrova J, Benickova K, Zboril

R, Kvitek L. (2011) Acute and chronic toxicity effects of silver nanoparticles (NPs)

on Drosophila melanogaster. Environmental Science and Technology, 45: 4974–9.

Pandey UB, Nichols CD. (2011) Human disease models in Drosophila melanogaster

and the role of the fly in therapeutic drug discovery. Pharmacological Reviews, 63(2):

411-36.

Pantev A, Kabadjova P, Dalgalarrondo M, Haertlé T, Ivanova I, Dousset X,

Prévost H, Chobert JM. (2002) Isolation and partial characterization of an

antibacterial substance produced by Enterococcus faecium. Folia Microbiology

(Praha), 47(4): 391-400.

248

Papagianni M. (2003) Ribosomally synthesized peptides with antimicrobial

properties: biosynthesis, structure, function, and applications. Biotechnology

Advances, 21: 465–99.

Papathanasopoulos MA, Dykes GA, Revol-Junelles AM, Delfour A, von Holy A,

Hastings JW. (1998) Sequence and structural relationships of leucocins A-, B- and

C-TA33a from Leuconostoc mesenteroides TA33a. Microbiology, 144: 1343-8.

Papathanasopoulos MA, Krier F, Revol-Junelles A-M, Lefebvre G, Le Caer JP,

von Holy A, Hastings JW. (1997) Multiple bacteriocin production by Leuconostoc

mesenteroides TA33a and other Leuconostoc/Weissella strains. Current

Microbiology, 35: 331–5.

Parada JL, Caron CR, Medeiros ABP, Soccol CR. (2007) Bacteriocins from lactic

acid bacteria: purification, properties, and use as biopreservatives. Brazilian Archives

of Biology and Technology, 50: 521-42.

Parente E, Ricciardi A. (1999) Production, recovery and purification of bacteriocins

from lactic acid bacteria. Applied Microbiology and Biotechnology, 52: 628–38.

Parisot J, Carey S, Breukink E, Chan WC, Narbad A, Bonev B. (2008) Molecular

mechanism of target recognition by subtilin, a class I lanthionine antibiotic.

Antimicrobial Agents and Chemotherapy, 52: 612–8.

Park SH, Itoh K, Fujisawa T. (2003) Characteristics and identification of enterocins

produced by Enterococcus faecium JCM 5804. Journal of Applied Microbiology, 95:

294-300.

Pérez-Picaso L, Velasco-Bejarano B, Aguilar-Guadarrama AB, Argotte-Ramos

R, Rios MY. (2009) Antimalarial activity of ultra-short peptides. Molecules, 14:

5103-14.

249

Pitt JI, Hocking AD. (1999) Fungi and Food Spoilage. Second edition. Aspen

Publishers, Inc. Gaithersburg, Maryland.

Piard JC, Muriana PM, Desmazeaud MJ, Klaenhammer TR. (1992) Purification

and partial characterization of lacticin 481, a lanthionine-containing bacteriocin

produced by Lactococcus lactis subsp. lactis CNRZ 481. Applied and Environmental

Microbiology, 58: 279–84.

Piva' A, Headon DR. (1994) Pediocin A, a bacteriocin produced by Pediococcus

pentosaceus FBB61. Microbiology, 140: 697-702.

Ponce AG, Moreira MR, del Valle CE, Roura SI. (2008) Preliminary

characterization of bacteriocin-like substances from lactic acid bacteria isolated from

organic leafy vegetables. LWT-Food Science and Technology, 41: 432–41.

Prakash A. (2001) Medallion Laboratories Analytical Program 19, 1.

Prioult G, Turcotte C, Labarre L, Lacroix C, Fliss I. (2000) Rapid purification of

nisin Z using specific monoclonal antibody-coated magnetic beads. International

Dairy Journal, 10(9): 627–33.

Qi F, Chen P, Caufield PW. (2001) The group I strain of Streptococcus mutans,

UA140, produces both the lantibiotic mutacin I and a nonlantibiotic bacteriocin,

mutacin IV. Applied and Environmental Microbiology, 67: 1,5–21.

Qiu XQ, Wang H, Lu XF, Zhang J, Li SF, Cheng G, Wan L, Yang L, Zuo JY,

Zhou YQ, Wang HY, Cheng X, Zhang SH, Ou ZR, Zhong ZC, Cheng JQ, Li YP,

Wu GY. (2003) An engineered multidomain bactericidal peptide as a model for

targeted antibiotics against specific bacteria. Nature Biotechnology, 21: 1480–5.

250

Ramshaw JA, Werkmeister JA, Glattauer V. (1996) Collagen-based biomaterials.

Biotechnology and Genetic Engineering Reviews, 13: 335–82.

Rekhif N, Atrim A, Lefebvre G. (1994) Characterization and partial purification of

plantaricin LC74, a bacteriocin produced by Lactobacillus plantarum LC74.

Biotechnology letters, 16(8): 771-6.

Riley MA, Wertz JE. (2002) Bacteriocin: ecology, evolution, and application.

Annual Review of Microbiology, 56: 117-37.

Remiger A, Eijsink VGH, Ehrmann MA, Sletten K, Nes IF, Vogel RF. (1999)

Purification and partial amino acid sequence of plantaricin 1.25α and 1.25β, two

bacteriocins produced by Lactobacillus plantarum TMW 1.25. Journal of Applied

Microbiology, 86: 1053-8.

Renault P. (2002) Genetically modified lactic acid bacteria: applications to food or

health and risk assessment. Biochimie, 84: 1073-87.

Risso A, Zanetti M, Gennaro R. (1998) Cytotoxicity and apoptosis mediated by two

peptides of innate immunity. Cellular Immunology, 189: 107–15.

Ross KF, Ronson CW, Tagg JR. (1993) Isolation and characterization of the

lantibiotic salivaricin A and its structural gene salA from Streptococcus salivarius

20P3. Applied and Environmental Microbiology, 59: 2014–21.

Rossi LM, Rangasamy P, Zhang J, Qiu XQ, Wu GY. (2008) Research advances in

the development of peptide antibiotics. Journal of Pharmaceutical Sciences, 97:

1060–70.

Rouse S, Canchaya C, van Sinderen D. (2008) Lactobacillus hordei sp. nov., a

bacteriocinogenic strain isolated from malted barley. International Journal of

Systematic and Evolutionary Microbiology, 58: 2013–7.

251

Ryan LAM, Bello FD, Arendt EK. (2008) The use of sourdough fermented by

antifungal LAB to reduce the amount of calcium propionate in bread. International

Journal of Food Microbiology, 125: 274–8.

Saavedra L, Castellano P, Sesma F. (2004) Purification of bacteriocins produced by

lactic acid bacteria. Methods in Molecular Biology, 268: 331–6.

Saavedra L, Sesma F. (2011) From Genes to Applications, Purification Techniques

of Bacteriocins from Lactic Acid Bacteria and Other Gram-Positive Bacteria: 99-113

In Prokaryotic Antimicrobial Peptides. Djamel Drider and Sylvie Rebuffat (Eds).

Springer DOI 10.1007/978-1-4419-7692-5.

Saidi N, Hadadji M, Guessas B. (2011) Screening of bacteriocin-producing lactic

acid bacteria isolated from west Algerian goat‘s milk. Global Journal of

Biotechnology & Biochemistry, 6 (3): 154-61.

Sandiford S, Upton M. (2012) Identification, characterization, and recombinant

expression of epidermicin NI01, a novel unmodified bacteriocin produced by

Staphylococcus epidermidis that displays potent activity against Staphylococci.

Antimicrobial Agents and Chemotherapy, 56(3): 1539-47.

Sant'Anna V, Utpott M, Cladera-Olivera F, Brandelli AJ. (2011) Influence of pH

and sodium chloride on kinetics of thermal inactivation of the bacteriocin-like

substance P34. Applied Microbiology, 110(1): 156-62.

Santiago-Silva P, Soares NFF, Nóbrega JE, Júnior MAW, Barbosa KBF, Volp

ACP, Zerdas ERMA, Würlitzer NJ. (2009) Antimicrobial efficiency of film

incorporated with pediocin (ALTA 2351) on preservation of sliced ham. Food

Control, 20: 85–9.

252

Sathe SJ, Nawani NN, Dhakephalkar PK, Kapadnis BP. (2007) Antifungal lactic

acid bacteria with potential to prolong shelf-life of fresh vegetables. Journal of

Applied Microbiology, 103: 2622–8.

Sathe M, Thavaselvam D, Srivastava AK, Kaushik MP. (2008) Synthesis and

antimalarial evaluation of cyclic β-amino acid-containing dipeptides. Molecules, 13:

432-43.

Sawa N, Zendo T, Kiyofuji J, Fujita K, Himeno K, Nakayama J, Sonomoto K.

(2009) Identification and characterization of lactocyclicin Q, a novel cyclic

bacteriocin produced by Lactococcus sp. strain QU 12. Applied and Environmental

Microbiology, 75: 1552–8.

Scannell AG, Hill C, Ross RP, Marx S, Hartmeier W, Elke, Arendt K. (2000)

Development of bioactive food packaging materials using immobilised bacteriocins

lacticin 3147 and nisaplin. International Journal of Food Microbiology, 60: 241–9.

SCF. (1992) Opinions of the Scientific Committee for Food 26th series. Commission

of the European Communities, Luxembourg.

Schneider D. (2004) Using Drosophila as a model insect. Nature Reviews, 1: 218-26.

Schnürer J, Magnusson J. (2005) Antifungal lactic acid bacteria as

biopreservatives. Trends in Food Science & Technology, 16: 70–8.

Settanni L, Corsetti A. (2008) Application of bacteriocins in vegetable food

biopreservation. International Journal of Food Microbiology, 121: 123–38.

Shin SC, Kim S-H, You H, Kim B, Kim AC, Lee K-A, Yoon J-H, Ryu J-H, Lee

W-J. (2011) Drosophila microbiome modulates host developmental and metabolic

homeostasis via insulin signaling. Science, 334: 670-4.

253

Sinha KK, Sinha AK. (1992) Impact of stored grain pests on seed deterioration

and aflatoxin contamination in maize. Journal of Stored Products Research, 28(3):

211-19.

Skaugen M, Cintas LM, Nes IF. (2001) Genetics of bacteriocin production in lactic

acid bacteria. In: Genetics of Lactic Acid Bacteria. Wood B.J.B. and Warner P. (Eds),

Vol. III. Aspen Publishers, Inc, Gaithersburg, MD.

Slawecki RA, Ryan EP, Young DH. (2002) Novel fungitoxicity assays for inhibition

of germination-associated adhesion of Botrytis cinerea and Puccinia recondita

spores. Applied and Environmental Microbiology, 68(2): 597–601.

Smaoui S, Elleuch L, Bejar W, Karray-Rebai I, Ayadi I, Jaouadi B, Mathieu F,

Chouayekh H, Bejar S, Mellouli L. (2009) Inhibition of fungi and Gram-negative

bacteria by bacteriocin BacTN635 produced by Lactobacillus plantarum sp. TN635.

Applied Biochemisty and Biotechnology, 162: 1132–46.

Smith L, Hillman J. (2008) Therapeutic potential of type A (I) lantibiotics, a group

of cationic peptide antibiotics. Current Opinion in Microbiology, 11: 401–8.

Soliman W, Wang L, Bhattacharjee S, Kaur K. (2011) Structure-activity

relationships of an antimicrobial peptide plantaricin S from two-peptide class IIb

bacteriocins. Journal of Medicinal Chemistry, 54(7): 2399-408.

Soomro AH, Masud T, Anwaar K. (2002) Role of lactic acid bacteria (LAB) in

food preservation and human health- A Review. Pakistan Journal of Nutrition, 1: 20-

4.

Sosunov V, Mischenko V, Eruslanov B, Svetoch E, Shakina Y, Stern N, Majorov

K, Sorokoumova G, Selishcheva A, Apt A. (2007) Antimycobacterial activity of

bacteriocins and their complexes with liposomes. Journal of Antimicrobial

Chemotherapy, 59: 919– 25.

254

Stamps JA, Yang LH, Morales VM, Boundy-Mills KL. (2012) Drosophila regulate

yeast density and increase yeast community similarity in a natural substrate. PLoS

ONE, 7(7): e42238.

Steidler L. (2002) In situ delivery of cytokines by genetically engineered

Lactobacillus lactis. Antonie van Leeuwenhoek, 8: 323-31.

Stepper J, Shastri S, Loo TS, Preston JC, Novak P, Man P, Moore CH, Havlicek

V, Patchett ML, Norris GE. (2011) Cysteine S-glycosylation, a new post-

translational modification found in glycopeptide bacteriocins. FEBS Letters, 585:

645–50.

Stoffels G, Sahl HG, Gudmundsdottir Á. (1993) Carnocin UI49, a potential

biopreservative produced by Carnobacterium piscicola: large scale purification and

activity against various Gram-positive bacteria including Listeria sp. International

Journal of Food Microbiology, 20: 199-210.

Strahl H, Hamoen LW. (2010) Membrane potential is important for bacterial cell

division. Proceedings National Academy of Sciences, USA 107(27): 12281–6.

Suarez AM, Azcona JI, Rodriguez JM, Sanz B, Hernandez PE. (1997) One-step

purification of nisin A by immunoaffinity chromatography. Applied and

Environmental Microbiology, 63: 4990–2.

Suárez AM, Rodríguez JM, Hernández PE, Azcona-Olivera JI. (1996) Generation

of polyclonal antibodies against nisin: immunization strategies and immunoassay

development. Applied and Environmental Microbiology, 62(6): 2117-21.

Suzuki M, Yamamoto T, Kawai Y, Inoue N, Yamazaki K. (2005) Mode of action

of piscicocin CS526 produced by Carnobacterium piscicola CS526. Journal of

Applied Microbiology, 98: 1146–51.

255

Swe PM, Cook GM, Tagg JR, Jack RW. (2009) Mode of action of dysgalacticin: a

large heat-labile bacteriocin. Journal of Antimicrobial Chemotherapy, 63: 679-86.

Tagg JR, Dajani AS, Wannamaker LW. (1976) Bacteriocins of gram-positive

bacteria. Bacteriological Reviews, 40: 722-56.

Thankappan UP, Madhusudana SN, Desai A, Jayamurugan G, Rajesh YB,

Jayaraman N. (2011) Dendritic poly(ether imine) based gene delivery vector.

Bioconjugate Chemistry, 22: 115–9.

Tiwari SK, Srivastava S. (2008a) Characterization of a bacteriocin from

Lactobacillus plantarum strain LR/14. Food Biotechnology, 22(3): 247-61.

Tiwari SK, Srivastava S. (2008b) Purification and characterization of plantaricin

LR14: a novel bacteriocin produced by Lactobacillus plantarum LR/14. Applied

Microbiology and Biotechnology, 79:759–67.

Tiwari SK, Srivastava S. (2008c). Statistical optimization of culture components for

enhanced bacteriocin production by Lactobacillus plantarum LR/14. Food

Biotechnology, 22(1): 64-77.

Todorov SD. (2009) Bacteriocins from Lactobacillus plantarum – production,

genetic organization and mode of action. Brazilian Journal of Microbiology, 40: 209-

21.

Todorov SD. (2008) Bacteriocin production by Lactobacillus plantarum AMA-K

isolated from Amasi, a Zimbabwean fermented milk product and study of the

adsorption of bacteriocin AMA-K to Listeria sp. Brazilian Journal of Microbiology,

39: 178-87.

256

Todorov SD, Dicks LM. (2004) Influence of growth conditions on the production of

a bacteriocin by Lactococcus lactis subsp. lactis ST34BR, a strain isolated from

barley beer. Journal of Basic Microbiology, 44(4): 305-16.

Todorov SD, Dicks LMT. (2005) Lactobacillus plantarum isolated from molasses

produces bacteriocins active against Gram-negative bacteria. Enzyme and Microbial

Technology, 36: 318-26.

Todorov SD, Nyati H, Meincken M, Dicks LMT. (2007) Partial characterization of

bacteriocin AMA-K, produced by Lactobacillus plantarum AMA-K isolated from

naturally fermented milk from Zimbabwe. Food Control, 18: 656–64.

Tsukamoto T, Ishikawa Y, Miyazawa M. (2005) Larvicidal and adulticidal activity

of alkylphthalide derivatives from rhizome of Cnidium officinale against Drosophila

melanogaster. Journal of Agricultural and Food Chemistry, 53: 5549-53.

Udhayashree N, Senbagam D, Senthilkumar B, Nithya K, Gurusamy R. (2012)

Production of bacteriocin and their application in food products. Asian Pacific

Journal of Tropical Biomedicine, S406-S10.

Upton M, Cotter P, Tagg J. (2012) Antimicrobial peptides as therapeutic agents.

International Journal of Microbiology, 326503: 2.

Van Belkum MJ, Kok J, Venema G, Holo H, Nes IF, Konings WN, Abee, T.

(1991) The bacteriocin lactococcin A specifically increases permeability of

lactococcal cytoplasmatic membranes in a voltage-independent, protein-mediated

manner. Journal of Bacteriology, 173: 7934-41.

Van Reenen CA, Dicks LMT, Chikindas ML. (1998) Isolation, purification and

partial characterization of plantaricin 423, a bacteriocin produced by Lactobacillus

plantarum. Journal of Applied Microbiology, 84: 1131-7.

257

Vaucher RA, da Motta A, Brandelli A, Revol-Junelles A-M. (2010) Evaluation of

the in vitro cytotoxicity of the antimicrobial peptide P34. Cell Biology International,

34: 317–23.

Vaucher RA, Gewehr CCV, Correa APF, Sant„Anna V, Ferreira J, Brandelli A.

(2011) Evaluation of the immunogenicity and in vivo toxicity of the antimicrobial

peptide P34. International Journal of Pharmaceutics, 421: 94– 8.

Venema K, Chikindas ML, Seegers JFML, Haandrikman AJ, Leenhouts KJ,

Venema G, Kok J. (1997) Rapid and efficient purification method for small,

hydrophobic, cationic bacteriocins: purification of lactococcin B and pediocin PA- 1.

Applied and Environmental Microbiology, 63: 305-9.

Venema K, Kok J, Marugg JD, Toonen MY, Ledeboer AM, Venema G,

Chikindas ML. (1995) Functional analysis of the pediocin operon of Pediococcus

acidilactici PAC1.0: PedB is the immunity protein and Ped D is the precursor

processing enzyme. Molecular Microbiology, 17: 515-22.

Wallace JM, Fox PF. (1997) Effect of adding free amino acids to cheddar cheese

curd on proteolysis, flavour and texture development. International Dairy Journal, 7:

157–67.

Wang Y-Q, Sun Y-E, Chu X-Y, Dai W-M, Yang B, Zhao M. (2012) The diagnosis

and surgical treatment of pulmonary fungal infections. African Journal of

Microbiology Research, 6(11): 2667-73.

Wiedemann I, Breukink E, van Kraaij C, Kuipers OP, Bierbaum G, de Kruijff

B, Sahl H-G. (2001) Specific binding of nisin to the peptidoglycan precursor lipid II

combines pore formation and inhibition of cell wall biosynthesis for potent antibiotic

activity. Journal of Biological Chemistry, 276(1): 1772–9.

258

Wirawan RE, Swanson KM, Kleffmann T, Jack RW, Tagg JR. (2007)

Uberolysin: a novel cyclic bacteriocin produced by Streptococcus uberis.

Microbiology, 153: 1619–30.

Worobo RW, Henkel T, Sailer M, Roy KL, Vederas JC, Stiles ME. (1994)

Characteristics and genetic determinant of a hydrophobic peptide bacteriocin,

carnobacteriocin A, produced by Carnobacterium piscicola LV17A. Microbiology,

140: 517–26.

Wu TK, Huang CY, Ko CY, Chang CH, Chen YJ, Liao HK. (2004) Purification,

tandem mass characterization, and inhibition studies of oxidosqualene-lanosterol

cyclase enzyme from bovine liver. Archives of Biochemistry and Biophysics, 421: 42–

53.

Xiao H, Chen X, Chen M, Tang S, Zhao X, Huan L. (2004) Bovicin HJ50, a novel

lantibiotic produced by Streptococcus bovis HJ50. Microbiology, 150: 103–8.

Yamazaki K, Suzuki M, Kawai Y, Inoue N, Montville TJ. (2005) Purification and

characterization of a novel class IIa bacteriocin, piscicocin CS526, from surimi-

associated Carnobacterium piscicola CS526. Applied and Environmental

Microbiology, 71: 554–7.

Yang R, Johnson MC, Ray B. (1992) Novel method to extract large amounts of

bacteriocins from lactic acid bacteria. Applied and Environmental Microbiology, 58:

3355–9.

Yang VW, Clausen CA. (2005) Determining the suitability of lactobacilli antifungal

metabolites for inhibiting mould growth. World Journal of Microbiology &

Biotechnology, 21: 977-81.

259

Yildirim Z, Winters DK, Johnson MG. (1999) Purification, amino acid sequence

and mode of action of bifidocin B produced by Bifidobacterium bifidum NCFB 1454.

Journal of Applied Microbiology, 86:45–54.

Yoneyama F, Imura Y, Ohno K, Zendo T, Nakayama J, Matsuzaki K, Sonomoto

K. (2009) Peptide-lipid huge toroidal pore, a new antimicrobial mechanism mediated

by a lactococcal bacteriocin, lacticin Q. Antimicrobial Agents and Chemotherapy, 53:

3211–7.

Yoneyama F, Ohno K, Imura Y, Li M, Zendo T, Nakayama J, Matsuzaki K,

Sonomoto K. (2011) Lacticin Q-mediated selective toxicity depending on physico-

chemical features of membrane components. Antimicrobial Agents and

Chemotherapy, 55(5): 2446–50.

Zendo T, Fukao M, Ueda K, Higuchi T, Nakayama J, Sonomoto K. (2003)

Identification of the lantibiotic nisin Q, a new natural nisin variant produced by

Lactococcus lactis 61-14 isolated from a river in Japan. Bioscience Biotechnology

and Biochemistry, 67: 1616–9.

Zendo T, Koga S, Shigeri Y, Nakayama J, Sonomoto K. (2006) Lactococcin Q, a

novel two-peptide bacteriocin produced by Lactococcus lactis QU 4. Applied and

Environmental Microbiology, 72: 3383–9.

Zheng G, Slavik MF. (1999) Isolation, partial purification and characterization of a

bacteriocin produced by a newly isolated Bacillus subtilis strain. Letters in Applied

Microbiology, 28: 363–7.

Ziegler U, Groscurth P. (2004) Morphological features of cell death. News in

Physiological Sciences, 19: 124-8.

260

Zhou K, Zhou W, Li P, Liu G, Zhang J, Dai J. (2008) Mode of action of pentocin

31-1: An antilisteria bacteriocin produced by Lactobacillus pentosus from Chinese

traditional ham. Food Control, 19: 817-22.