dc.description.abstract |
Traditional fermented milk products are characterized by the presence of complex
microbial communities. It has been well established that quality, safety and sensorial
attributes of these products are related with type and succession of microbiota. Dahi is
widely known for unique organoleptic, nutritional and therapeutic attributes. However, the
quality of the product is highly variable due to undefined starter cultures and poor control
over safety. Therefore, present study was aimed to understand the complex microbial
diversity of Dahi and its impact on product quality. Selected bacterial strains were
characterized for technological properties and genetic potential. Moreover, impact of
selected Dahi strains was analyzed in milk ecosystem in comparison to commercial starter
cultures.
In first phase of study microbial diversity of Dahi was determined by using culture
dependent and metagenomic approach and its effect on physiochemical, nutritional and
organoleptic properties of the product was analyzed. Lactic acid bacteria were found to be
dominating with up to 7 logs/gram including species of Lactobacillus, Streptococcus and
Enterococcus, while fungal community was represented by Geotrichum candidum and
other yeasts species with a relative abundance of nearly 3 logs/gram. Similarly, Gram
negative count was also nearly 3 logs/gram. Culture independent metagenomic based
diversity analysis had shown the presence of 146 bacterial and 56 fungal species.
Dominating microbial species include Lactobacillus delbrueckii (53%), Streptococcus
thermophilus (28%), Kluyveromyces marxianus (22%) and Torulaspora delbrueckii (14%)
on average in representative Dahi samples. Potential pathogens including Gram negatives
were also present relatively at low level; Pseudomonas syringe (1.9%), P. cinnamophila
(0.8%), Klebsiella pneumoniae, (0.3%), Escherichia coli (3.6 %) and Staphylococcus
aureus (0.15%). Microbial and nutritional profiling of Dahi was found to be comparable to
many traditional cheeses and fermented milks. Average pH was 3.8 having strong
correlation with lactic acid bacteria, however change in pH during storage was correlated
with presence of higher fungal count. The nutritional profiling illustrated the nutraceutical
importance of the product. The average fat and protein (crude) content was 3.29 and 4.82
respectively while ash content was up to 0.78% containing significant concentration of
essential minerals including iron (Fe), magnesium (Mg) calcium (Ca), potassium (K) zinc
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(Zn) and sodium (Na). Detailed lipid analysis revealed the higher HDL to LDL ratio. The
organoleptic properties had shown the richness of flavoring compounds that was also
confirmed by consumer’s acceptability.
In second phase of study it was found that isolated lactic acid bacteria by culturing in
previous phase; were mostly thermophilic having higher rate of acid production and
variable salt tolerance. All lactic acid bacteria shown strong proteolytic and lipolytic
activities and few also showed biogenic amine production at ambient temperature.
Moreover, de-acidification ability of various G. candidum strains was analysed out of these
G. candidum QAUGc01 showed optimum results. G. candidum QAUGc01 also showed
remarkable antimicrobial potential against several pathogens. The consistent presence of
Enterococcus spp. provoked the genome sequencing of E. mundtii QAUEM2808. Genomic
analysis revealed that this bacterium had Mundaticin and Enterocin genes, while no
putative genes for pathogenicity, virulence and antibiotic resistance were present which
excludes the safety concerns about enterococci in Dahi.
In last phase of the study milk fermentation performance of Streptococcus thermophilus
QauSt1 and Lactobacillus bulgaricus QauLb01 co-culture was evaluated. Comparatively,
physiochemical, nutritional and sensorial properties of fermented milk product were
equally good to a commercial starter culture fermentation. In another experiment, use of
G. candidum QAUGc01 was found to have a positive influence on the stability and quality
of the fermented milk due to less variation in product pH, increase in solid content and
decrease in syneresis.
In conclusion, the present study highlighted high microbial diversity of Dahi. It also
demonstrates a strong correlation of microbial diversity with physiochemical, nutritional
and sensorial attributes of the product. |
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