References

1. P Rance. The Great British Cheese Book. London: Macmillan, 1982.

2. International Dairy Federation Bulletin, No 359. The World Market for Cheese 1990-1999. International Dairy Federation, Brussels, Belgium, 2001.

3. JM Banks. Cheddar type cheeses. In: H Roginski, PF Fox, JW Fuquay. ed. Encyclopedia for Dairy Sciences. London: Academic Press, 2002.

4. PF Fox. Cheese, An Overview. In: PF Fox. ed. Cheese: Chemistry, Physics and Microbiology, Vol 1, General Aspects. London: Chapman and Hall, 1996, pp 1-36.

MC. Broome, GKY Limsowtin. Starter peptidase activity in maturing cheese. Aust J Dairy Technol 53:79-82, 1998.

JM Banks. The quality of milk in relation to cheese manufacture. J Soc Dairy Technol 43:3539, 1990.

BA Law, ME Sharpe, HR Chapman. The effect of lipolytic Gram negative psychrotrophs in stored milk on the development of rancidity in Cheddar cheese. J Dairy Res 43:459-468, 1976.

PF Fox. Proteolysis in cheese during ripening. In: AT Andrews, J Varley. ed. Biochemistry of Milk Products. Cambridge: Royal Society of Chemistry, 1993, pp 1-31. RC Lawrence. Cheese Yield Potential of Milk. International Dairy Federation Special Issue No 9301, 1991, pp 109-120.

PF Fox, PLH Mc Sweeney. Rennets: their role in milk coagulation and cheese ripening. In: BA Law, ed. Microbiology and Biochemistry of Cheese and Fermented Milk (2nd ed.). London: Blackie Academic & Professional, 1997, pp 1-40.

DG Dalgleish. Cheddar Cheese and Related Dry Salted Varieties. In: PF Fox. ed. Cheese: Chemistry, Physics and Microbiology: Volume 2, Major Cheese Groups (2nd ed.). London: Chapman & Hall, 1993, pp 1-39.

G Bylund. Dairy Processing Handbook, Tetra Pak Processing Systems AB, Lund, Sweden. RC Lawrence, J Gilles, LK Creamer. Cheddar Cheese and Related Dry Salted Varieties. In: PF Fox. ed. Cheese: Chemistry, Physics and Microbiology: Volume 2, Major Cheese Groups (2nd ed.). London: Chapman & Hall, 1993, pp 1-39.

TM Dodds, SP Gregory, SL Greenwood. Aust J Dairy Technol 57:164, 2002.

MJ Sousa, Y Ardo, PLH Mc Sweeney. Advances in the study of proteolysis during cheese ripening. Int Dairy J 11:327-345, 2001.

PF Fox, J Wallace. Formation of flavour compounds in cheese. Adv Appl Microbiol 45:1785, 1997.

G Urbach. Contribution of lactic acid bacteria to flavour compound formation in dairy products. Int Dairy J 5: 877-903, 1995.

M Yvon, L Rijnen. Cheese flavour formation by amino acid catabolism. Int Dairy J 11:185201, 2001.

JM Banks, M Yvon, JC Gripon, M de la Fuente, EY Brechany, AG Williams, DD Muir. Enhancement of amino acid catabolism in Cheddar cheese using a-ketglutarate: amino acid degradation in relation to volatile compounds and aroma character. Int Dairy J 11: 235-243, 2001.

HA Heap. Optimising starter culture performance in NZ cheese plants. Aust J Dairy Technol 53: 74-78, 1998.

TM Cogan, J-P Accolas. Dairy Starter Cultures. New York: VCH Publishers, 1995. TM Cogan, J-P Accolas. Starter cultures: types, metabolism and bacteriophages. In: RK Robinson. ed. Dairy Microbiology Volume 1. 2nd ed. London: Elsevier Applied Science, 1990, pp 77-114.

JF Frank, AN Hassan. Starter cultures and their use. In: EH Marth, JL Steele. ed. Applied Dairy Microbiology. New York: Marcel Dekker, 1998, pp 131-172.

MA El Soda. The role of lactic acid bacteria in accelerated cheese ripening. FEMS Microbiol Rev 12:239-252, 1993.

PF Fox, JM Wallace, S Morgan, CM Lynch, EJ Niland, J Tobin. Acceleration of cheese ripening. Antonie van Leeuwenhoek 70:271-297, 1996.

PF Fox, PLH McSweeney, CM Lynch. Significance of non-starter lactic acid bacteria in cheese. Aust J Dairy Technol 53:83-89, 1998.

N Klein, S Lortal. Attenuated starters: an efficient means to influence cheese ripening—a review. Int Dairy J 9:751-762, 1999.

G Trepanier, M El Abboudi, BH Lee, RE Simard. Accelerated maturation of Cheddar cheese: microbiology of cheeses supplemented with Lactobacillus casei subsp. casei L2A. J Food Sci 57:345-349, 1992.

JA Johnson, MR Etzel, CM Chen, ME Johnson. Accelerated ripening of reduced-fat Cheddar cheese using four attenuated Lactobacillus helveticus CNRZ-32 adjuncts. J Dairy Sci 78:769776, 1995.

SA Madkor, PS Tong, M El Soda. Ripening of Cheddar cheese with attenuated adjunct cultures of lactobacilli. J Dairy Sci 83:1684-1691, 2000.

M El Soda, SA Madkor, PS Tong. Adjunct cultures: recent developments and potential significance to the cheese industry. J Dairy Sci 83:609-619, 2000.

MA Drake, TD Boylston, KD Spence, BG Swanson. Chemical and sensory effects of Lactobacillus adjunct in Cheddar cheese. Food Res Int 29:381-387, 1996.

MA Drake, TD Boylston, KD Spence, BG Swanson. Improvement of sensory quality of reduced fat Cheddar cheese by a Lactobacillus adjunct. Food Res Int 30:35-40, 1997. B Reiter, TF Fryer, A Pickering, HR Chapman, RC Lawrence, ME Sharpe. The effect of the microbial flora on the flavour and free fatty acid composition of Cheddar cheese. J Dairy Res 34:257-272, 1967.

BA Law, M Castanon, ME Sharpe. The effect of non-starter bacteria on the chemical composition and the flavour of Cheddar cheese. J Dairy Res 43:117-125, 1976. R. Puchades, L Lemieux, RE Simard. Evolution of free amino acids during the ripening of Cheddar cheese containing added Lactobacillus strains. J Food Sci 54:885-888, 1989. MC Broome, DA Krause, MW Hickey. The use of non-starter lactobacilli in Cheddar cheese manufacture. Aust J Dairy Technol 45:67-73, 1990.

BH Lee, LC Laleye, RE Simard, RA Holley, DB Emmons, RN Giroux. Influence of homo-fermentative lactobacilli on physicochemical and sensory properties of Cheddar cheese. J Food Sci 55:386-390, 1990.

BH Lee, LC Laleye, RE Simard, M-H Munsch, RA Holley. Influence of homofermentative lactobacilli on the microflora and soluble nitrogen components in Cheddar cheese. J Food Sci 55:391-397, 1990.

G Trepanier, RE Simard, BH Lee. Lactic acid bacteria relation to accelerated maturation of Cheddar cheese. J Food Sci 56:1238-1242, 1991.

PLH McSweeney, EM Walsh, PF Fox, TM Cogan, FD Drinan, MC Castelo-Gonzalez. A procedure for the manufacture of Cheddar cheese under controlled bacteriological conditions and the effect of adjunct lactobacilli on cheese quality. Irish J Agric Food Res 33:183-192, 1994.

DD Muir, JM Banks, EA Hunter. Sensory properties of Cheddar cheese: Effect of starter type and adjunct. Int Dairy J 6:407-423, 1996.

CN Lane, PF Fox. Contribution of starter and adjunct lactobacilli to proteolysis in Cheddar cheese during ripening. Int Dairy J 6:715-728, 1996.

CM Lynch, PLH McSweeney, PF Fox, TM Cogan, FD Drinan. Manufacture of Cheddar cheese with and without adjunct lactobacilli under controlled microbiological conditions. Int Dairy J 6:851-867, 1996.

CM Lynch, PLH McSweeney, PF Fox, TM Cogan, FD Drinan. Contribution of starter lactococci and non-starter lactobacilli to proteolysis in Cheddar cheese with a controlled microflora. Lait 77:441-459, 1997.

CM Lynch, DD Muir, JM Banks, PLH McSweeney, PF Fox. Influence of adjunct cultures of Lactobacillus paracasei ssp. paracasei or Lactobacillus plantarum on Cheddar cheese ripening. J Dairy Sci 82:1618-1628, 1999.

V Crow, B Curry, M Hayes. The ecology of non-starter lactic acid bacteria (NSLAB) and their use as adjuncts in New Zealand Cheddar. Int Dairy J 11:275-283, 2001. S Morgan, RP Ross, C Hill. Increased starter cell lysis in Cheddar cheese using a bacteriocin-producing adjunct. J Dairy Sci 80:1-10, 1997.

C Stanton, G Gardiner, PB Lynch, JK Collins, G Fitzgerald, RP Ross. Probiotic cheese. Int Dairy J 8:491-496, 1998.

JTM Wouters, EHE Ayad, J Hugenholtz, G Smit. Microbes from raw milk for fermented dairy products. Int Dairy J 12:91-109, 2002.

SD Peterson, RT Marshall. Nonstarter lactobacilli in Cheddar cheese: a review. J Dairy Sci 73:1395-1410, 1990.

NA Fitzsimons, TM Cogan, S Condon, T Beresford. Spatial and temporal distribution of non-starter lactic acid bacteria in Cheddar cheese. J Appl Microbiol 90:600-608, 2001. AG Williams, S-C Choi, JM Banks. Variability of the species and strain phenotype composition of the non-starter lactic acid bacterial population of Cheddar cheese manufactured in a commercial creamery. Food Res Int 35:483-493, 2002.

J Naylor, ME Sharpe. Lactobacilli in Cheddar cheese. II. Duplicate cheeses. J Dairy Res 25:92-103, 1958.

Shakeel-Ur-Rehman, PF Fox, PLH McSweeney. Methods used to study non-starter microorganisms in cheese: a review. Int J Dairy Technol 53:113-119, 2000.

TD Thomas, VL Crow. Mechanisms of D-(-)-lactic acid formation in Cheddar cheese. N Z J Dairy Sci Technol 18:131-141, 1983.

LC Laleye, RE Simard, BH Lee, RA Holley, R Giroux. Involvement of heterofermentative lactobacilli in development of open texture in cheeses. J Food Protect 50:1009-1012, 1987. NM Khalid, EH Marth. Lactobacilli—their enzymes and role in ripening and spoilage of cheese: a review. J Dairy Sci 73:2669-2684, 1990.

T Bhowmik, EH Marth. Role of Micrococcus and Pediococcus species in cheese ripening: a review. J Dairy Sci 73:859-866, 1990.

IR Sherwood. The bacterial flora of New Zealand Cheddar cheese. J Dairy Res 8:224-237, 1939.

J Naylor, ME Sharpe. Lactobacilli in Cheddar cheese. I. The use of selective media for isolation and of serological typing of identification. J Dairy Res 25:92-103, 1958. CK Johns, SE Cole. Lactobacilli in Cheddar cheese. J Dairy Res 26:157-161, 1959. MC Broome, DA Krause, MW Hickey. The isolation and characterization of lactobacilli from Cheddar cheese. Aust J Dairy Technol 45:60-66, 1990.

KN Jordan, TM Cogan. Identification and growth of non-starter lactic acid bacteria in Irish Cheddar cheese. Irish J Agric Food Res 32:47-55, 1993.

NA Fitzsimons, TM Cogan, S Condon, T Beresford. Phenotypic and genotypic characterization of non-starter lactic acid bacteria in mature Cheddar cheese. Appl Environ Microbiol 65:3418-3426, 1999.

PA Swearingen, DJ O'Sullivan, JJ Warthesen. Isolation, characterization and influence of native nonstarter lactic acid bacteria on Cheddar cheese quality. J Dairy Sci 84:50-59, 2001.

AG Williams, JM Banks. Proteolytic and other hydrolytic enzyme activities in non-starter lactic acid bacteria (NSLAB) isolated from Cheddar cheese manufactured in the UK. Int Dairy J 7:763-774, 1997.

KW Turner, RC Lawrence, J Lelievre. Microbiological specification for milk for aseptic cheesemaking. N Z J Dairy Sci Technol 21:249-254, 1986.

KN Jordan, TM Cogan. Heat resistance of Lactobacillus spp. isolated from Cheddar cheese. Lett Appl Microbiol 29:136-140, 1999.

FG Martley, VL Crow. Interactions between non-starter microorganisms during cheese manufacture and ripening. Int Dairy J 3:461-483, 1993.

EB Somers, ME Johnson, ACL Wong. Biofilm formation and contamination of cheese by nonstarter lactic acid bacteria in the dairy environment. J Dairy Sci 84:1926-1936, 2001. J Naylor, ME Sharpe. Lactobacilli in Cheddar cheese. III. The source of lactobacilli in cheese. J Dairy Res 25:431-438, 1958.

JD Tammam, AG Williams, J Banks, G Cowie, D Lloyd. Membrane mass spectrometric measurement of O2 and CO2 gradients in cultures of Lactobacillus paracasei and a developing Cheddar cheese ecosystem. Int J Food Microbiol 65:11-22, 2001.

FG Martley, RC Lawrence. Cheddar cheese flavour. 2. Characteristics of single strain starters associated with good or poor flavour development. N Z J Dairy Sci Technol 7:38-44, 1972.

KW Turner, TD Thomas. Lactose fermentation in Cheddar cheese and the effect of salt. N Z J Dairy Sci Technol 15:265-276, 1980.

CJ Pillidge, PSVS Rallabhandi, X-Z Tong, PK Gopal, PC Farley, PA Sullivan. Autolysis of Lactococcus lactis. Int Dairy J 12:133-140, 2002.

C Hill. Bacteriophage and bacteriophage resistance in lactic acid bacteria. FEMS Microbiol Rev 12:87-108, 1993.

CN Lane, PF Fox, EM Walsh, B Folkertsma, PLH McSweeney. Effect of compositional and environmental facters on the growth of indigenous non-starter lactic acid bacteria in Cheddar cheese. Lait 77:561-573, 1997.

B Folkertsma, PF Fox, PLH McSweeney. Accelerated ripening of Cheddar cheese at elevated temperatures. Int Dairy J 6:1117-1134, 1996.

Shakeel-Ur-Rehman, JM Banks, PLH McSweeney, PF Fox. Effect of ripening temperature on the growth and significance of non-starter lactic acid bacteria in Cheddar cheese made from raw or pasteurised milk. Int Dairy J 10:45-53, 2000.

AH Miah, GW Reinbold, JC Hartley, ER Vedmuthu, EG Hammond. Characteristics of Cheddar cheese cooled at different rates during early curing stages. J Milk Food Technol 37:47-54, 1974.

AG Williams, SE Withers, JM Banks. Energy sources of non-starter lactic acid bacteria isolated from Cheddar cheese. Int Dairy J 10:17-23, 2000.

JD Tammam, AG Williams, J Noble, D Lloyd. Amino acid fermentation in non-starter Lactobacillus spp. isolated from Cheddar cheese. Letts Appl Microbiol 30:370-374, 2000. AG Williams, J Noble, JM Banks. Catabolism of amino acids by lactic acid bacteria isolated from Cheddar cheese. Int Dairy J 11:203-215, 2001.

RC Kiernan, TP Beresford, G O'Cuinn, KN Jordan. Autolysis of lactic acid bacteria during Cheddar cheese ripening. Irish J Agric Food Res 39:95-106, 2000.

S Rapposch, F Eliskases-Lechner, W Ginzinger. Growth of facultatively heterofermentative lactobacilli on starter cell suspensions. Appl Environ Microbiol 65:5597-5599, 1999. TD Thomas. Cannibalism among bacteria found in cheese. N Z J Dairy Sci Technol 22:215219, 1987.

VL Crow, T Coolbear, PK Gopal, FG Martley, LL McKay, H Riepe. The role of autolysis of lactic acid bacteria in the ripening of cheese. Int Dairy J 5:855-875, 1995. PA Vandenbergh. Lactic acid bacteria, their metabolic products and interference with micro-bial growth. FEMS Microbiol Rev 12:221-238, 1993.

AC Ouwehand. Antimicrobial components from lactic acid bacteria. In: S Salminen, A von Wright. ed. Lactic Acid Bacteria Microbiology and Functional Aspects. New York: Marcel Dekker, 1998, pp 139-159.

HM Dodd, MJ Gasson. Bacteriocins of lactic acid bacteria. In MJ Gasson, WM De Vos. ed. Genetic and Biotechnology of Lactic Acid Bacteria. London: Blackie Academic and Professional, 1994, pp 211-251.

MP Ryan, MC Rea, C Hill, RP Ross. An application in Cheddar cheese manufacture for a strain of Lactococcus lactis producing a novel broad-spectrum bacteriocin, lacticin. Appl Environ Microbiol 62:612-619, 1996.

N Buyong, J Kok, JB Luchansky. Use of a genetically-enhanced, pediocin-producing starter culture, Lactococcus lactis subsp. lactis MM217, to control Listeria monocytogenes in Cheddar cheese. Apple Environ Microbiol 64:4842-4845, 1998.

MA Fenelon, MP Ryan, MC Rea, TP Guinee, RP Ross, C Hill, D Harrington. Elevated temperature ripening of reduced fat Cheddar made with or without lacticin 3147-producing starter culture. J Dairy Sci 82:10-22, 1999.

L Axelsson. Lactic acid bacteria: classification and physiology. In: S Salminen, A von Wright. ed. Lactic Acid Bacteria Microbiology and Functional Aspects. New York: Marcel Dekker, 1998, pp 1-72.

CMAP Franz, WH Holzapfel, ME Stiles. Enterococci at the crossroads of food safety? Int J Food Microbiol 47:1-24, 1999.

WP Hammes, RH Vogel. The genus Lactobacillus. In: BJB Wood, WH Holzapfel. ed. The Lactic Acid Bacteria, Vol 2: The Genera of Lactic Acid Bacteria. Glasgow: Blackie Academic and Professional, 1995, pp 19-54.

P Vandamme, B Pot, M Gillis, P De Vos, K Kersters, J Swings. Polyphasic taxonomy, a consensus approach to bacterial systematics. Microbiol Rev 60:407-438, 1996. V Monnet, S Condon, TM Cogan, JC Gripon. Metabolism of starter cultures. In: TM Cogan, J-P Accolas. ed. Dairy Starter Cultures. New York: VCH, 1996, pp 47-99. T Palles, T Beresford, S Condon, TM Cogan. Citrate metabolism in Lactobacillus casei and Lactobacillus plantarum. J Appl Microbiol 85:147-154, 1998.

J Hugenholtz. Citrate metabolism in lactic acid bacteria. FEMS Microbiol Rev 12:165-178, 1993.

PF Fox, PLH McSweeney. Proteolysis in cheese during ripening. Food Rev Int 12:457-509, 1996.

ERS Kunji, I Mierau, A Hagting, B Poolman, WN Konings. The proteolytic systems of lactic acid bacteria. Ant Leeuwenhoek 70:187-221, 1996.

J Law, A Haandrikman. Proteolytic enzymes of lactic acid bacteria. Int Dairy J 7:1-11, 1997. JE Christensen, EG Dudley, JA Pederson, JL Steele. Peptidases and amino acid catabolism in lactic acid bacteria. Ant Leeuwenhoek 76:217-246, 1999.

M El Soda, JL Bergere, MJ Desmazeaud. Detection and localisation of peptide hydrolases in Lactobacillus casei. J Dairy Res 45:519-524, 1978.

AG Williams, X Felipe, JM Banks. Aminopeptidase and dipeptidyl peptidase activity of Lactobacillus spp. and non-starter lactic acid bacteria (NSLAB) isolated from Cheddar cheese. Int Dairy J 8:255-266, 1998.

CM Lynch, PLH McSweeney, PF Fox, TM Cogan, FD Drinan. Contribution of starter lactococci and non-starter lactobacilli to proteolysis in Cheddar cheese with a controlled microflora. Lait 77:441-459, 1997.

PLH McSweeney, MJ Sousa. Biochemical pathways for the production of flavour compounds in cheese during ripening: a review. Lait 80:392-324, 2000.

D Hemme, C Bouillanne, C Metro, MJ Desmazeuad. Microbial catabolism of amino acids during cheese ripening. Sci Aliments 2:113-122, 1982.

B Weimer, K Seefeltd, B Dias. Sulfur metabolism in bacteria associated with cheese. Ant Leeuwenhoek 76:247-261, 1999.

BV Hansen, U Houlberg, Y Ardo. Transamination of branched-chain amino acids by a cheese related Lactobacillus paracasei strain. Int Dairy J 11:225-233, 2001.

S Gummalla, JR Broadbent. Tryptophan catabolism by Lactobacillus casei and Lactobacillus helveticus cheese flavor adjuncts. J Dairy Sci 82:2070-2077, 1999.

S Gummalla, JR Broadbent. Tyrosine and phenylalanine catabolism by Lactobacillus cheese flavor adjuncts. J Dairy Sci 84:1011-1019, 2001.

B Dias, B Weimer. Conversion of methionine to thiols by lactococci, lactobacilli and brevi-bacteria. Appl Environ Microbiol 64:3320-3326, 1998.

F Amarita, T Requena, G Taborda, L Amigo, C Pelaez. Lactobacillus casei and Lactobacillus plantarum initiate catabolism of methionine by transamination. J Appl Microbiol 90:971-978, 2001.

AC Curtin, M De Angelis, M Cipriani, MR Corbo, PLH McSweeney, M Gobbetti. Amino acid catabolism in cheese-related bacteria: selection and study of the effects of pH, temperature and NaCl by quadratic response surface methodology. J Appl Microbiol 91:312-321, 2001. AG Williams, J Noble, J Tammam, D Lloyd, JM Banks. Factors affecting the activity of enzymes involved in peptide and amino acid catabolism in non-starter lactic acid bacteria isolated from Cheddar cheese. Int Dairy J 12:841-852, 2002.

E Smacchi, M Gobbetti. Purification and characterization of cystathionine-g-lyase from lac-tobacillus fermentum DT41. FEMS Microbiol Letts 166:197-202, 1998. HMLJ Joosten, MD Northolt. Detection, growth and amine-producing capacity of lactoba-cilli in cheese. Appl Environ Microbiol 55:2356-2359, 1989.

121. WCD Livera, K Ando. Studies on lipolysis in lactic acid bacteria used in the cheese industry. Part 1. Lipolytic activity of lactic acid bacteria. J Rakuno Gakuen Univ 16:65-72, 1991.

122. SA Meyers, SL Cuppett, RW Hutkins. Lipase production by lactic acid bacteria and activity on butter oil. Food Microbiol 13:383-389, 1996.

123. M Gobbetti, PF Fox, L Stepaniak. Esterolytic and lipolytic activities of mesophilic and thermophilic lactobacilli. Ital J Food Sci 2:127-135, 1996.

124. M El Soda, S Fathallah, N Ezzat, MJ Desmazeaud, S Abou Donia. The esterolytic and lipolytic activities of lactobacilli. Detection of the esterase systems of Lactobacillus casei, Lactobacillus plantarum, Lactobacillus brevis and Lactobacillus fermentum. Sci Aliments 6:545-557, 1986.

125. M El Soda, N Ezzat. Peptidase and esterase activities from mutant strains of Lactobacillus casei. Die Nahrung 4:321-327, 1993.

126. M El Soda, HA El Wahab, N Ezzat, MJ Desmazeaud, A Ismail. The esterolytic and lipolytic activities of lactobacilli. II. Detection of the esterase system of Lactobacillus helveticus, Lac-tobacillus bulgaricus, Lactobacillus lactis and Lactobacillus acidophilus. Lait 66:431-443, 1986.

127. NM Khalid, M El Soda, EH Marth. Esterases of Lactobacillus helveticus, and Lactobacillus delbrueckii spp. bulgaricus. J Dairy Sci 73:2711-2719, 1990.

128. M Gobbetti, PF Fox, E Smacchi, L Stepaniak, P Damiani. Purification and characterization of a lipase from Lactobacillus plantarum 2739. Food Biochem 20:227-246, 1996.

129. R Holland, T Coolbear. Purification of tributyrin esterase from Lactococcus lactis subsp. cremoris E8. J Dairy Res 63:131-140.

130. J-F Chich, K Marchesseau, J-C Gripon. Intracellular esterase from Lactococcus lactis subsp. lactis NCDO 763: purification and characterization. Int Dairy J 7:169-174, 1997.

131. L Fernandez, MM Beerthuyzen, J Brown, RJ Siezen, T Coolbear, R Holland, OP Kuipers. Cloning, characterization, controlled overexpression and inactivation of the major tributyrin esterase gene of Lactococcus lactis. Appl Environ Microbiol 66:1360-1368, 2000.

132. HJ Andersen, H 0stdal, H Blom. Partial purification and characterization of a lipase from Lactobacillus plantarum MF32. Food Chem 53:369-373, 1995.

133. M Gobbetti, PF Fox, L Stepaniak. Isolation and characterization of a tributyrin esterase from Lactobacillus plantarum 2739. J Dairy Sci 80:3099-3106, 1997.

134. I Castillo, T Requena, P Fernandez de Palencia, J Fontecha, M Gobbetti. Isolation and characterization of an intracellular esterase from Lactobacillus casei subsp. casei IFPL731. J Appl Microbiol 86:653-659, 1999.

135. M Gobbetti, E Smacchi, A Corsetti. Purification and characterization of a cell surface-associated esterase from Lactobacillus fermentum DT41. Int Dairy J 7:13-21, 1997.

136. KM Fenster, KL Parkin, JL Steele. Characterization of an arylesterase from Lactobacillus helveticus CNRZ32. J Appl Microbiol 88:572-583, 2000.

137. M Gobbetti, R Lanciotti, M de Angelis, MR Corbo, R Massini, P Fox. Study of the effects of temperature, pH, NaCl and aw on the proteolytic and lipolytic activities of cheese-related lactic acid bacteria by quadratic response surface methodology. Enz Microb Technol 25:795809, 1999.

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