G. Sreeramulu scite author profile

Kombucha was prepared in a tea broth (0.5% w/v) supplemented with sucrose (10% w/v) by using a commercially available starter culture. The pH decreased steadily from 5 to 2.5 during the fermentation while the weight of the "tea fungus" and the OD of the tea broth increased through 4 days of the fermentation and remained fairly constant thereafter. The counts of acetic acid-producing bacteria and yeasts in the broth increased up to 4 days of fermentation and decreased afterward. The antimicrobial activity of Kombucha was investigated against a number of pathogenic microorganisms. Staphylococcus aureus, Shigella sonnei, Escherichia coli, Aeromonas hydrophila, Yersinia enterolitica, Pseudomonas aeruginosa, Enterobacter cloacae, Staphylococcus epidermis, Campylobacter jejuni, Salmonella enteritidis, Salmonella typhimurium, Bacillus cereus, Helicobacterpylori, and Listeria monocytogenes were found to be sensitive to Kombucha. According to the literature on Kombucha, acetic acid is considered to be responsible for the inhibitory effect toward a number of microbes tested, and this is also valid in the present study. However, in this study, Kombucha proved to exert antimicrobial activities against E. coli, Sh. sonnei, Sal. typhimurium, Sal. enteritidis, and Cm. jejuni, even at neutral pH and after thermal denaturation. This finding suggests the presence of antimicrobial compounds other than acetic acid and large proteins in Kombucha.

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Lactobacillus amylovorus as a phytase producer in submerged culture

Sreeramulu

Srinivasa

Nand

et al. 1996

Lett Appl Microbiol

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Nineteen strains of lactic acid producing bacteria of the genera Lactobacillus and Streptococcus collected from different culture collections were screened for the production of extracellular phytase. A number of them exhibited the enzyme activity in the fermentation medium but Lactobacillus amylovorus B4552 produced the maximum amounts of phytase ranging from 125 to 146 units ml‐1 extracellularly under the submerged cultivation conditions. The optimum glucose and inorganic phosphate levels for highest phytase production were found to be 1% and 24% mg, respectively. Lactobacillus amylovorus has potential in improving nutritional qualities of cereal and pulse‐based food fermentations.

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Characterization of Antimicrobial Activity in Kombucha Fermentation

Sreeramulu¹,

Zhu²,

Knol³

2001

Acta Biotechnol.

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Fermented tea drink, Kombucha, can inhibit the growth of Shigella sonnei, Escherichia coli, Salmonella enteritidis and Salmonella typhimurium. Several metabolites were analyzed every two days during a 14-day Kombucha fermentation. Levels of acetic acid and gluconic acid were found to increase with fermentation time. No lactic acid or ethanol was detected. Systematic investigation of the antimicrobial activity in Kombucha revealed the presence of antimicrobial compounds other than organic acids or proteins (enzymes) produced during fermentation or the tannins originally present in the tea broth.

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Destaining of Coomassie Brilliant Blue R‐250‐stained polyacrylamide gels with sodium chloride solutions

Sreeramulu

Singh

1995

Electrophoresis

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A novel method for destaining of polyacrylamide gels, stained with Coomassie Brilliant Blue R-250, is described, based on the use of 0.5 M NaCl in water as the destainer, requiring only 2-3 h. Concentrated (> 2 M) or dilute (< 0.1 M) salt solutions were unsuitable. The method affords the advantage that expensive organic solvents, such as methanol, acetic acid or trichloroacetic acid, are not needed. Furthermore, salt destaining results in darker purple-blue protein bands as compared to the pale blue color with e.g. methanol/acetic acid destaining.

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Genetic and biochemical characterization of novel low molecular weight glutenin subunits in wheat (Triticum aestivumL.)

Sreeramulu¹,

Singh²

1997

Genome

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Two novel low molecular weight subunits of glutenin with relative molecular mass (M(r) values) of 30 and 32 kDa were isolated from the seeds of hexaploid wheat and characterized at genetic and biochemical levels. Among 115 Indian bread wheat cultivars analysed, 40 had a narrow doublet of the new protein bands, 69 had a wide doublet, 3 had only the faster moving band of the doublet, and the remaining 3 cultivars had only the slower moving band. These subunits could be seen in the alkylated glutenin preparations only and the genes for the faster (designated Glu-D4) and slower (designated Glu-D5) moving protein bands of the doublet were located on chromosomes 1D and 7D, respectively. Amino acid composition of the two new subunits was quite different from those of the other well-characterized gluten proteins, as the new subunits have lower amounts of proline and relatively higher amounts of glycine, aspartic acid-asparagine, cysteine, and lysine. Polyclonal antibodies raised against these polypeptides cross-reacted strongly with the major low molecular weight subunits of wheat glutenin (Glu-3 subunits), but did not cross-react with the high molecular weight glutenin subunits or monomeric gliadins. Furthermore, preliminary results on the N-terminal amino acid sequences of the new subunits show homology with the major low molecular weight glutenin subunits, suggesting an evolutionary link between the two.

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G. Sreeramulu

Kombucha Fermentation and Its Antimicrobial Activity

Lactobacillus amylovorus as a phytase producer in submerged culture

Characterization of Antimicrobial Activity in Kombucha Fermentation

Destaining of Coomassie Brilliant Blue R‐250‐stained polyacrylamide gels with sodium chloride solutions

Genetic and biochemical characterization of novel low molecular weight glutenin subunits in wheat (Triticum aestivumL.)

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