This article needs attention from an expert in Microbiology. The specific problem is: "Uses" mentions no strains that can be confidently identified as L. casei in the current sense. Not bold enough to move everything out. See the
talk page for details.WikiProject Microbiology may be able to help recruit an expert.(December 2023)
Lactobacillus casei (Orla-Jensen 1916) Hansen and Lessel 1971 (Approved Lists 1980)
Lacticaseibacillus casei is an organism that belongs to the largest genus in the family Lactobacillaceae, a
lactic acid bacteria (LAB), that was previously classified as Lactobacillus casei.[1] This bacteria has been identified as
facultatively anaerobic or microaerophilic, acid-tolerant, non-spore-forming bacteria.
This species is a non-sporing, rod-shaped, gram positive microorganism that can be found within the reproductive and digestive tract of the human body.[2] Since L. casei can survive in a variety of environmental habitats, it has and continues to be extensively studied by health scientists. Commercially, L. casei is used in fermenting dairy products and its application as a
probiotic.[3]
Taxonomy
The taxonomy of the L. casei group has been debated for several years because researchers struggled to differentiate between the strains of L. casei and L. paracasei using methods of traditional bacteriology, i.e. phenotypic, physiological, and biochemical similarities. In the 1990s, researchers began to realize that the
type strain for L. casei, ATCC 393, does not quite match most other strains classified as "L. casei" by then. To solve this discrapency, Dellaglio et al. argued to simply replace the type with ATCC 334, which is closer to these "other strains", and to bury the name "L. paracasei". This argument was not accepted by the
ICSP, which ruled in 1994[4] and 2008 that the type strain should not be changed. ICSP also mentions that ATCC 334 is a strain of L. paracasei, meaning that it's the aforementioned "other strains" that need to be moved to paracasei.[5]
The next major event in taxonomic revision came with Zheng et al. 2020, which split Lactobacillus into several genera on phylogenomic grounds. L. casei was made the
type species of Lacticaseibacillus, containing more than 20 species.[2]
As of December 2023, the accepted taxonomy under the
species complex is as follows:[6][7]
Lactobacillus casei subsp. pseudoplantarumAbo-Elnaga and Kandler 1965 (Approved Lists 1980) was not adjusted by Zheng, but remains valid. It is, however, phylogenomically problematic: the type strain is classified by ATCC, JCM, and BCCM as L. paracasei subsp. paracasei.[8]
The most common application of L. casei is industrial, specifically for
dairy production.[citation needed]
Lacticaseibacillus casei is typically the dominant species of nonstarter lactic acid bacteria (i.e. contaminant bacteria[9]) present in ripening
cheddar cheese, and, recently, the complete genome sequence of L. caseiATCC 334 has become available.[dubious –
discuss]L. casei is also the dominant species in naturally fermented Sicilian
green olives.[10]
Medical
A commercial beverage containing L. casei strain Shirota has been shown to inhibit the in vivo growth of Helicobacter pylori, but when the same beverage was consumed by humans in a small trial, H. pylori colonization decreased only slightly, and the trend was not statistically significant.[11] Some L. casei strains are considered to be
probiotic, and may be effective in alleviation of gastrointestinal pathogenic bacterial diseases. According to
World Health Organization, those properties have to be demonstrated on each specific strain—including human clinical studies—to be valid.[12]L. casei has been combined with other probiotic strains of bacteria in randomized trials studying its effects in preventing
antibiotic-associated diarrhea (AAD) and Clostridium difficile infections (CDI), and patients in the trials who were not given the placebo had significantly lower rates of AAD or CDI (depending on the trial) with no adverse effects reported.[13] Additionally, trials have shown significantly shorter recovery times in children suffering from acute diarrhea (primarily caused by rotavirus) when given different L. casei treatments when compared to placebo.[14] Studies suggest that
lactobacilli are a safe and effective treatment for acute and infectious diarrhea.[15]
In the preparation of food, L. casei bacteria can be used in the natural
fermentation of beans to lower levels of the compounds causing flatulence upon digestion.[16]
Another strain that has been studied is "01", also known as "Lc-01" or Lacticaseibacillus casei-01.[17]
Commercial probiotic
Among the best-documented probiotic strains of L. casei, L. casei DN-114001 (
Actimel/DanActive) and L. casei Shirota (
Yakult) have been extensively studied[18] and are widely available as
functional foods.
The genomes of these two strains have been sequenced from commercial yogurt, re-designated "LcA" and "LcY" respectively. They were found to be extremely closely related.[19]
Others
In the past few years, many studies have been conducted in the decolorization of
azo dyes by lactic acid bacteria such as L. casei TISTR 1500, L. paracasei, Oenococcus oeni, etc. With the
azoreductase activity, mono- and diazo bonds are degraded completely, and generate other aromatic compounds as intermediates.[20]
Characteristics of Lactocaseibacillus casei
The following table includes the colony, morphological, physiological, and biochemical characteristics of L. casei.[21][22][23]
Test type
Test
Characteristics
Colony characteristics
Type
Smooth
Color
Opaque without pigment
Shape
Convex
Morphological characteristics
Arrangement
Short chains
Size
0.7-1.1 x 2.0-4.0 mm
Shape
Rod
Gram stain
+
Spores
-
Physiological characteristics
Motility
-
Growth on 4% NaCl
+
Growth on 6.5% NaCl
-
Biochemical characteristics
Oxidase
-
Catalase
-
Glucose
-
Lactose
+
Sucrose
+
Mannitol
+
Starch
+
Liquid hydrolysis
+
Indole
-
Methyl red
-
Voges-Proskauer
-
Citrate
+
Nitrate reduction
-
Urease
-
Hydrolysis of
Galactose
+
Casein
+
Utilization of
Glycerol
+
Galactose
+
D-Glucose
+
D-Fructose
+
D-Mannose
+
Mannitol
+
Transformation
Lactic acid bacteria (LAB) is widely exploited for its probiotic and fermenting properties, so understanding how its genetic material is exchanged was crucial for researchers. A wide variety of comparative analyses were used to determine that
horizontal gene transfer (HGT) influenced the evolution of the Lactobacillus genus.[24] HGT in L. casei includes
transformation,
conjugation, and
transduction. The mobile genetic elements found within the genome, known as
mobilomes, play an important role in Lactobacillaceae transfer. This includes
insertion sequences,
bacteriophages,
integrons,
plasmids,
genomic islands, and
transposons.[25] Within LAB, they are responsible for metabolizing different molecules, hydrolyzing proteins, resisting antibiotics, DNA, and phages, and modifying genetic elements.[26]
The first form of gene transfer used by Lactobacillus is transformation. This includes the uptake of naked DNA by a recipient bacterial cell to gain the genetic information of a donor cell.[27] This occurs after a donor bacterium has undergone
autolysis and its DNA fragments are left within the free extracellular fluid.[28] The recipient bacterium will then ingest the DNA fragments and will result in either a bacterial cell with a plasmid or recombination of the recipient DNA will transpire within the chromosome.
The next form of transfer is conjugation, a process that involves the transfer of DNA from a Lactobacillus donor to a recipient via cell-to-cell contact or direct cytoplasmic contact.[29] In this process, the recipient cell is known as the
transconjugant.[30] Once the cells come together, fragments of DNA are directly transferred from the donor to the transconjugant. This is mediated by pheromone-induced cell aggregation and mobilization proteins since many of the plasmids are unable to transfer on their own.[24] Afterward, the mating cells will separate and a recombinant cell will be produced after homologous recombination.[citation needed]
Finally, transduction in Lactobacillus cells is a bacteriophage-mediated transfer of plasmid or chromosomal genetic information.[31] To initiate this process, a bacteriophage must first infect the donor cell so that
lysis of the cell will occur. At this point, the cell lysate will be filled with phages that carry donated genome fragments and the recipient cell will be injected with abnormal phage. This will result in a recombination cell whether the cell is infected after homologous recombination or after the infection occurs by bacteriophage integrase.[24]
^Banks JM, Williams AG (2004). "The role of the nonstarter lactic acid bacteria in Cheddar cheese ripening". International Journal of Dairy Technology. 57 (2–3): 145–152.
doi:
10.1111/j.1471-0307.2004.00150.x.
^Randazzo CL, Restuccia C, Romano AD, Caggia C (January 2004). "Lactobacillus casei, dominant species in naturally fermented Sicilian green olives". International Journal of Food Microbiology. 90 (1): 9–14.
doi:
10.1016/S0168-1605(03)00159-4.
PMID14672826.
^Cats A, Kuipers EJ, Bosschaert MA, Pot RG, Vandenbroucke-Grauls CM, Kusters JG (February 2003). "Effect of frequent consumption of a Lactobacillus casei-containing milk drink in Helicobacter pylori-colonized subjects". Alimentary Pharmacology & Therapeutics. 17 (3): 429–35.
doi:
10.1046/j.1365-2036.2003.01452.x.
PMID12562457.
S2CID11364078.
^Marisela Granito; Glenda Álvarez (June 2006). "Lactic acid fermentation of black beans (Phaseolus vulgaris): Microbiological and chemical characterization". Journal of the Science of Food and Agriculture. 86 (8): 1164–1171.
Bibcode:
2006JSFA...86.1164G.
doi:
10.1002/jsfa.2490.