Short Communication: Impact of pH and Temperature on the Acidifying Activity of Carnobacterium maltaromaticum

The acidifying activity of Carnobacterium maltaromaticum LMA28, a strain isolated from French soft cheese, was studied in trypticase soy broth with yeast extract (TSB-YE) medium and in milk. In TSB-YE supplemented with lactose, glucose, or galactose, lactose and glucose were metabolized with a maxim...

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Veröffentlicht in:	Journal of dairy science 2008-10, Vol.91 (10), p.3806-3813
Hauptverfasser:	Edima, H.C., Cailliez-Grimal, C., Revol-Junelles, A.-M., Rondags, E., Millière, J.-B.
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Sprache:	eng
Schlagworte:	acid treatment acidification acidifying activity Animal productions Animals Biological and medical sciences Carnobacterium Carnobacterium maltaromaticum Cheese cheese manufacturing cheese ripening food analysis food composition Food industries Food Microbiology Food Technology Fundamental and applied biological sciences. Psychology Hydrogen-Ion Concentration Kinetics lactic acid Lactobacillaceae - metabolism Milk - chemistry Milk - metabolism Milk and cheese industries. Ice creams response surface methodology soft cheeses Temperature Terrestrial animal productions Time Factors Vertebrates yeast extract
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creator	Edima, H.C. Cailliez-Grimal, C. Revol-Junelles, A.-M. Rondags, E. Millière, J.-B.
description	The acidifying activity of Carnobacterium maltaromaticum LMA28, a strain isolated from French soft cheese, was studied in trypticase soy broth with yeast extract (TSB-YE) medium and in milk. In TSB-YE supplemented with lactose, glucose, or galactose, lactose and glucose were metabolized with a maximum growth rate of 0.32h−1 and galactose was not metabolized. During hydrolysis of lactose, the galactose moiety was not excreted. The major product was l(+) lactic acid, with no significant difference in the lactic acid yield. Glucose was not completely metabolized because cell growth stopped when pH values reached an average of 5.0. In sterilized UHT milk, the addition of 1g/L of YE enhanced its coagulation. Compared with commercial starter lactic acid bacteria such as Lactococcus lactis DSMZ 20481 or Streptococcus thermophilus INRA 302, Carnobacterium maltaromaticum LMA 28 was shown to be a slow acidifying strain. However, in spite of this weak acidifying ability, C. maltaromaticum LMA 28 can sustain low pH values in coculture with Lc. lactis DSMZ 20481 or S. thermophilus INRA 302. The individual and interactive effects of initial pH values (5.2 to 8.0) and incubation temperatures (23 to 37°C) on acidifying activity were studied by response surface methodology. The 3 strains displayed different behaviors depending on pH and temperature. The psychrotrophic lactic acid strain C. maltaromaticum LMA 28 was able to grow at alkaline pH values and during storage conditions. It could be used as a potential ripening flora in soft cheese.
doi_str_mv	10.3168/jds.2007-0878
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The individual and interactive effects of initial pH values (5.2 to 8.0) and incubation temperatures (23 to 37°C) on acidifying activity were studied by response surface methodology. The 3 strains displayed different behaviors depending on pH and temperature. The psychrotrophic lactic acid strain C. maltaromaticum LMA 28 was able to grow at alkaline pH values and during storage conditions. 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In TSB-YE supplemented with lactose, glucose, or galactose, lactose and glucose were metabolized with a maximum growth rate of 0.32h−1 and galactose was not metabolized. During hydrolysis of lactose, the galactose moiety was not excreted. The major product was l(+) lactic acid, with no significant difference in the lactic acid yield. Glucose was not completely metabolized because cell growth stopped when pH values reached an average of 5.0. In sterilized UHT milk, the addition of 1g/L of YE enhanced its coagulation. Compared with commercial starter lactic acid bacteria such as Lactococcus lactis DSMZ 20481 or Streptococcus thermophilus INRA 302, Carnobacterium maltaromaticum LMA 28 was shown to be a slow acidifying strain. However, in spite of this weak acidifying ability, C. maltaromaticum LMA 28 can sustain low pH values in coculture with Lc. lactis DSMZ 20481 or S. thermophilus INRA 302. The individual and interactive effects of initial pH values (5.2 to 8.0) and incubation temperatures (23 to 37°C) on acidifying activity were studied by response surface methodology. The 3 strains displayed different behaviors depending on pH and temperature. The psychrotrophic lactic acid strain C. maltaromaticum LMA 28 was able to grow at alkaline pH values and during storage conditions. It could be used as a potential ripening flora in soft cheese.</description><subject>acid treatment</subject><subject>acidification</subject><subject>acidifying activity</subject><subject>Animal productions</subject><subject>Animals</subject><subject>Biological and medical sciences</subject><subject>Carnobacterium</subject><subject>Carnobacterium maltaromaticum</subject><subject>Cheese</subject><subject>cheese manufacturing</subject><subject>cheese ripening</subject><subject>food analysis</subject><subject>food composition</subject><subject>Food industries</subject><subject>Food Microbiology</subject><subject>Food Technology</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Hydrogen-Ion Concentration</subject><subject>Kinetics</subject><subject>lactic acid</subject><subject>Lactobacillaceae - metabolism</subject><subject>Milk - chemistry</subject><subject>Milk - metabolism</subject><subject>Milk and cheese industries. 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In TSB-YE supplemented with lactose, glucose, or galactose, lactose and glucose were metabolized with a maximum growth rate of 0.32h−1 and galactose was not metabolized. During hydrolysis of lactose, the galactose moiety was not excreted. The major product was l(+) lactic acid, with no significant difference in the lactic acid yield. Glucose was not completely metabolized because cell growth stopped when pH values reached an average of 5.0. In sterilized UHT milk, the addition of 1g/L of YE enhanced its coagulation. Compared with commercial starter lactic acid bacteria such as Lactococcus lactis DSMZ 20481 or Streptococcus thermophilus INRA 302, Carnobacterium maltaromaticum LMA 28 was shown to be a slow acidifying strain. However, in spite of this weak acidifying ability, C. maltaromaticum LMA 28 can sustain low pH values in coculture with Lc. lactis DSMZ 20481 or S. thermophilus INRA 302. The individual and interactive effects of initial pH values (5.2 to 8.0) and incubation temperatures (23 to 37°C) on acidifying activity were studied by response surface methodology. The 3 strains displayed different behaviors depending on pH and temperature. The psychrotrophic lactic acid strain C. maltaromaticum LMA 28 was able to grow at alkaline pH values and during storage conditions. It could be used as a potential ripening flora in soft cheese.</abstract><cop>Savoy, IL</cop><pub>Elsevier Inc</pub><pmid>18832202</pmid><doi>10.3168/jds.2007-0878</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	acid treatment acidification acidifying activity Animal productions Animals Biological and medical sciences Carnobacterium Carnobacterium maltaromaticum Cheese cheese manufacturing cheese ripening food analysis food composition Food industries Food Microbiology Food Technology Fundamental and applied biological sciences. Psychology Hydrogen-Ion Concentration Kinetics lactic acid Lactobacillaceae - metabolism Milk - chemistry Milk - metabolism Milk and cheese industries. Ice creams response surface methodology soft cheeses Temperature Terrestrial animal productions Time Factors Vertebrates yeast extract
title	Short Communication: Impact of pH and Temperature on the Acidifying Activity of Carnobacterium maltaromaticum
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