Strains of Lactococcus lactis ssp. lactis and Lactococcus lactis ssp. cremoris with
potential use in the food industry which had been previously isolated from nature using
16S rRNA probes were characterized for unique identifying traits and for attributes
important for potential use in cheese manufacture. Strains of Lc. cremoris which showed
desirable characteristics for cheesemaking were selected for Cheddar cheese making trials
where they were used first as single strains then in combination.
Biochemical testing included lithium chloride sensitivity using Alsan medium.
Strains of Lc. cremoris showed greater sensitivity to lithium chloride than Lc. lactis.
strains. however sensitivity was generally indicated by reduced colony size rather than
absence of growth as predicted for Lc. cremoris. strains. Strains of both Lc. lactis and Lc.
cremoris produced blue colonies on Alsan medium indicating citrate utilization. Citrate
utilization could not be confirmed by other traditional methods. Carbohydrate utilization
using API 50 test kits revealed no pattern which could definitively differentiate strains of
Lc. lactis from Lc.
cremoris. It was found that all strains fermented galactose, D-glucose. D-fructose. D-mannose. N-acetyl glucosamine and lactose. Regardless of
genotype. strains which were shown to be phenotypically Lc. lactis generally fermented
additional carbohydrates. whereas Lc. cremoris phenotype strains did not. Only one
probe-isolated strain of Lc. lactis fermented D-xylose.
Tests to identify potential Cheddar cheese starter strains were performed on all
environmental isolates. All strains which were phenotypically identified as Lc. lactis
were rejected as potential starters because they railed to coagulate milk after 15 to 18
hours or they developed undesirable flavors in milk. Nine of twenty strains that were
both phenotypically and genotypically Lc. cremoris were identified as having good
potential for use as Cheddar cheese starter cultures. Four strains (MS-9, MS-23, MS-24,
MS-51) were selected for Cheddar cheesemaking trials. Twenty small vats of cheese
were made using each of the four strains individually then in every possible combination.
In each case the experimental strains showed good functional characteristics with no
sensitivity to bacteriophage present in the manufacturing environment. Five commercial
scale cheese trials (53,500 lbs of milk) with automated equipment were also undertaken.
Each strain was used first individually then in combination. Starter activity in the
automated system using the experimental strains was sufficient to allow a 14% reduction
in starter usage and still obtain good acid development. Flavor development of the cheese
was monitored for one year of aging. Single strains varied in flavor development, with
bitter notes being the most prominent off flavor detected. For some strains the bitter
flavor was transitory and varied in intensity. Cheese produced from the four combined
strains never developed the bitter defect, indicating that proteolysis of the combined
strains was sufficient to degrade the bitter peptides as they were produced. / Graduation date: 1999
Identifer | oai:union.ndltd.org:ORGSU/oai:ir.library.oregonstate.edu:1957/33628 |
Date | 07 December 1998 |
Creators | Daniels, Brent E. |
Contributors | Sandine, William E. |
Source Sets | Oregon State University |
Language | en_US |
Detected Language | English |
Type | Thesis/Dissertation |
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