Your search keyword '"Koryszewska-Bagińska A"' showing total 7 results

1. Adaptative potential of the Lactococcus lactis IL594 strain encoded in its 7 plasmids.

Author

Górecki RK, Koryszewska-Bagińska A, Gołębiewski M, Żylińska J, Grynberg M, and Bardowski JK

Subjects

Bacterial Proteins, Base Sequence, Carbohydrate Metabolism, Carboxylic Acids metabolism, Conjugation, Genetic, DNA Damage genetics, DNA Repair genetics, DNA Replication genetics, DNA Restriction-Modification Enzymes genetics, Genes, Bacterial, Hydrogen-Ion Concentration, Lactococcus lactis enzymology, Molecular Sequence Data, Physical Chromosome Mapping, Sequence Alignment, Adaptation, Physiological genetics, Lactococcus lactis genetics, Plasmids genetics

Abstract

The extrachromosomal gene pool plays a significant role both in evolution and in the environmental adaptation of bacteria. The L. lactis subsp. lactis IL594 strain contains seven plasmids, named pIL1 to pIL7, and is the parental strain of the plasmid-free L. lactis IL1403, which is one of the best characterized lactococcal strains of LAB. Complete nucleotide sequences of pIL1 (6,382 bp), pIL2 (8,277 bp), pIL3 (19,244 bp), pIL4 (48,979), pIL5 (23,395), pIL6 (28,435 bp) and pIL7 (28,546) were established and deposited in the generally accessible database (GeneBank). Nine highly homologous repB-containing replicons, belonging to the lactococcal theta-type replicons, have been identified on the seven plasmids. Moreover, a putative region involved in conjugative plasmid mobilization was found on four plasmids, through identification of the presence of mob genes and/or oriT sequences. Detailed bioinformatic analysis of the plasmid nucleotide sequences provided new insight into the repertoire of plasmid-encoded functions in L. lactis, and indicated that plasmid genes from IL594 strain can be important for L. lactis adaptation to specific environmental conditions (e.g. genes coding for proteins involved in DNA repair or cold shock response) as well as for technological processes (e.g. genes encoding citrate and lactose utilization, oligopeptide transport, restriction-modification system). Moreover, global gene analysis indicated cooperation between plasmid- and chromosome-encoded metabolic pathways.

Published

2011

2. Control of Bacterial Phenotype and Chromosomal Gene Expression by Single Plasmids of Lactococcus lactis IL594.

Author

Kosiorek, Katarzyna, Koryszewska-Bagińska, Anna, Skoneczny, Marek, and Aleksandrzak-Piekarczyk, Tamara

Subjects

*LACTOCOCCUS lactis, *GENE expression, *PLASMIDS, *PHENOTYPES, *LACTIC acid bacteria, *GENETIC regulation

Abstract

Plasmid-free Lactococcus lactis IL1403 is one of the best-characterized representatives of lactic acid bacteria (LAB), intensively used in broad microbiology worldwide. Its parent strain, L. lactis IL594, contains seven plasmids (pIL1–pIL7) with resolved DNA sequences and an indicated role for overall plasmid load in enhancing host-adaptive potential. To determine how individual plasmids manipulate the expression of phenotypes and chromosomal genes, we conducted global comparative phenotypic analyses combined with transcriptomic studies in plasmid-free L. lactis IL1403, multiplasmid L. lactis IL594, and its single-plasmid derivatives. The presence of pIL2, pIL4, and pIL5 led to the most pronounced phenotypic differences in the metabolism of several carbon sources, including some β-glycosides and organic acids. The pIL5 plasmid also contributed to increased tolerance to some antimicrobial compounds and heavy metal ions, especially those in the toxic cation group. Comparative transcriptomics showed significant variation in the expression levels of up to 189 chromosomal genes due to the presence of single plasmids and 435 unique chromosomal genes that were resultant of the activity of all plasmids, which may suggest that the observed phenotypic changes are not only the result of a direct action of their own genes but also originate from indirect actions through crosstalk between plasmids and the chromosome. The data obtained here indicate that plasmid maintenance leads to the development of important mechanisms of global gene regulation that provide changes in the central metabolic pathways and adaptive properties of L. lactis and suggest the possibility of a similar phenomenon among other groups of bacteria. [ABSTRACT FROM AUTHOR]

Published

2023

3. The Presence of Plasmids in Lactococcus lactis IL594 Determines Changes in the Host Phenotype and Expression of Chromosomal Genes.

Author

Kosiorek, Katarzyna, Koryszewska-Bagińska, Anna, Skoneczny, Marek, Stasiak-Różańska, Lidia, and Aleksandrzak-Piekarczyk, Tamara

Subjects

*LACTOCOCCUS lactis, *GENE expression, *PHENOTYPIC plasticity, *PLASMIDS, *GENETIC regulation, *LACTIC acid bacteria

Abstract

The L. lactis IL594 strain contains seven plasmids (pIL1 to pIL7) and is the parental strain of the plasmid-free L. lactis IL1403, one of the most studied lactic acid bacteria (LAB) strain. The genetic sequences of pIL1 to pIL7 plasmids have been recently described, however the knowledge of global changes in host phenotype and transcriptome remains poor. In the present study, global phenotypic analyses were combined with transcriptomic studies to evaluate a potential influence of plasmidic genes on overall gene expression in industrially important L. lactis strains. High-throughput screening of phenotypes differences revealed pronounced phenotypic differences in favor of IL594 during the metabolism of some C-sources, including lactose and β-glucosides. A plasmids-bearing strain presented increased resistance to unfavorable growth conditions, including the presence of heavy metal ions and antimicrobial compounds. Global comparative transcriptomic study of L. lactis strains revealed variation in the expression of over 370 of chromosomal genes caused by plasmids presence. The general trend presented upregulated energy metabolism and biosynthetic genes, differentially expressed regulators, prophages and cell resistance proteins. Our findings suggest that plasmids maintenance leads to significant perturbation in global gene regulation that provides change in central metabolic pathways and adaptive properties of the IL594 cells. [ABSTRACT FROM AUTHOR]

Published

2023

4. Comparative genomics and functional analysis of a highly adhesive dairy Lactobacillus paracasei subsp. paracasei IBB3423 strain

Author

Marcin Grynberg, Tamara Aleksandrzak-Piekarczyk, Adriana Nowak, Jan Gawor, and Anna Koryszewska-Bagińska

Subjects

Lactobacillus paracasei, In silico, Inulin, Biology, Applied Microbiology and Biotechnology, Bacterial Adhesion, Microbiology, law.invention, 03 medical and health sciences, chemistry.chemical_compound, Probiotic, Plasmid, law, Lactic acid bacteria, Animals, Gene, Applied Genetics and Molecular Biotechnology, 030304 developmental biology, Comparative genomics, 0303 health sciences, Citizen Science, 030306 microbiology, Probiotics, food and beverages, Genomics, Lacticaseibacillus paracasei, General Medicine, biology.organism_classification, Milk, chemistry, Interaction with host, Fimbriae, Bacterial, Multigene Family, Adhesion, Carbohydrate Metabolism, spaCBA pilus genes cluster, Genome, Bacterial, Plasmids, Biotechnology

Abstract

Various Lactobacillus paracasei strains are found in diverse environments, including dairy and plant materials and the intestinal tract of humans and animals, and are also used in the food industry or as probiotics. In this study, we have isolated a new strain L. paracasei subsp. paracasei IBB3423 from samples of raw cow milk collected in a citizen science project. IBB3423 showed some desired probiotic features such as high adhesion capacity and ability to metabolize inulin. Its complete genome sequence comprising the chromosome of 3,183,386 bp and two plasmids of 5986 bp and 51,211 bp was determined. In silico analysis revealed numerous genes encoding proteins involved in carbohydrate metabolism and of extracellular localization likely supporting interaction with host tissues. In vitro tests confirmed the high adhesion capacity of IBB3423 and showed that it even exceeds that of the highly adhesive L. rhamnosus GG. Curing of the larger plasmid indicated that the adhesive properties depend on the plasmid and thus could be determined by its pilus-encoding spaCBA genes. Electronic supplementary material The online version of this article (10.1007/s00253-019-10010-1) contains supplementary material, which is available to authorized users.

Published

2019

5. Genomic and Functional Characterization of the Unusual pLOCK 0919 Plasmid Harboring the spaCBA Pili Cluster in Lactobacillus casei LOCK 0919

Author

Hana Kozakova, Bożena Cukrowska, Anna Koryszewska-Bagińska, Marcin Grynberg, Tamara Aleksandrzak-Piekarczyk, Adriana Nowak, and Jacek Bardowski

Subjects

0301 basic medicine, Lactobacillus casei, Lactobacillus paracasei, 030106 microbiology, Molecular Sequence Data, Transposases, Pilus, Microbiology, 03 medical and health sciences, Plasmid, Lactobacillus rhamnosus, in silico analyses, Bacterial Proteins, Lactobacillus, plasmid, probiotic properties, Gene cluster, Genetics, Amino Acid Sequence, Gene, Ecology, Evolution, Behavior and Systematics, biology, food and beverages, spaCBA pilus cluster, Membrane Proteins, biology.organism_classification, Aminoacyltransferases, adhesion, Cysteine Endopeptidases, Lacticaseibacillus casei, Fimbriae, Bacterial, Multigene Family, Genome, Bacterial, Research Article, Plasmids

Abstract

Here, we report the extensive bioinformatic and functional analyses of the unusual pLOCK 0919, a plasmid originating from the probiotic Lactobacillus casei LOCK 0919 strain. This plasmid is atypical because it harbors the spaCBA-srtC gene cluster encoding SpaCBA pili. We show that all other spaCBA-srtC sequences of the Lactobacillus genus that have been previously described and deposited in GenBank are present in the chromosomal DNA. Another important observation for pLOCK 0919 is that the spaCBA-srtC gene cluster and its surrounding genes are highly similar to the respective DNA region that is present in the most well-known and active SpaCBA pili producer, the probiotic Lactobacillus rhamnosus GG strain. Our results demonstrate that the spaCBA-srtC clusters of pLOCK 0919 and L. rhamnosus GG are genealogically similar, located in DNA regions that are rich in transposase genes and are poorly conserved among the publicly available sequences of Lactobacillus sp. In contrast to chromosomally localized pilus gene clusters from L. casei and Lactobacillus paracasei, the plasmidic spaC of L. casei LOCK 0919 is expressed and undergoes a slight glucose-induced repression. Moreover, results of series of in vitro tests demonstrate that L. casei LOCK 0919 has an adhesion potential, which is largely determined by the presence of the pLOCK 0919 plasmid. In particular, the plasmid occurrence positively influenced the hydrophobicity and aggregation abilities of L. casei LOCK 0919. Moreover, in vivo studies indicate that among the three Lactobacillus strains used to colonize the gastrointestinal tract of germ-free mice, already after 2 days of colonization, L. casei LOCK 0919 became the dominant strain and persisted there for at least 48 days.

Published

2015

6. Adaptative Potential of the Lactococcus Lactis IL594 Strain Encoded in Its 7 Plasmids

Author

Jacek Bardowski, Joanna Żylińska, Roman Krzysztof Górecki, Anna Koryszewska-Bagińska, Marcin Grynberg, and Marcin Gołębiewski

Subjects

DNA Replication, DNA Repair, Applied Microbiology, Science, Molecular Sequence Data, Carboxylic Acids, Sequence alignment, Biology, Oligopeptide transport, Biochemistry, Microbiology, plasmid gene pool, Plasmid, Bacterial Proteins, Nucleic Acids, Extrachromosomal DNA, DNA Restriction-Modification Enzymes, Genome Sequencing, Replicon, Gene, Genetics, Multidisciplinary, Base Sequence, Lactococcus lactis, Bacteriology, systems biology, DNA, Genomics, Hydrogen-Ion Concentration, Physical Chromosome Mapping, biology.organism_classification, Adaptation, Physiological, lactic acid bacteria, Genes, Bacterial, Conjugation, Genetic, Carbohydrate Metabolism, Medicine, Gene pool, Sequence Alignment, DNA Damage, Plasmids, Research Article, Biotechnology

Abstract

The extrachromosomal gene pool plays a significant role both in evolution and in the environmental adaptation of bacteria. The L. lactis subsp. lactis IL594 strain contains seven plasmids, named pIL1 to pIL7, and is the parental strain of the plasmid-free L. lactis IL1403, which is one of the best characterized lactococcal strains of LAB. Complete nucleotide sequences of pIL1 (6,382 bp), pIL2 (8,277 bp), pIL3 (19,244 bp), pIL4 (48,979), pIL5 (23,395), pIL6 (28,435 bp) and pIL7 (28,546) were established and deposited in the generally accessible database (GeneBank). Nine highly homologous repB-containing replicons, belonging to the lactococcal theta-type replicons, have been identified on the seven plasmids. Moreover, a putative region involved in conjugative plasmid mobilization was found on four plasmids, through identification of the presence of mob genes and/or oriT sequences. Detailed bioinformatic analysis of the plasmid nucleotide sequences provided new insight into the repertoire of plasmid-encoded functions in L. lactis, and indicated that plasmid genes from IL594 strain can be important for L. lactis adaptation to specific environmental conditions (e.g. genes coding for proteins involved in DNA repair or cold shock response) as well as for technological processes (e.g. genes encoding citrate and lactose utilization, oligopeptide transport, restriction-modification system). Moreover, global gene analysis indicated cooperation between plasmid- and chromosome-encoded metabolic pathways.

Published

2011

7. Genomic and Functional Characterization of the Unusual pLOCK 0919 Plasmid Harboring the spaCBA Pili Cluster in Lactobacillus casei LOCK 0919.

Author

Aleksandrzak-Piekarczyk, Tamara, Koryszewska-Bagińska, Anna, Grynberg, Marcin, Nowak, Adriana, Cukrowska, Bożena, Kozakova, Hana, and Bardowski, Jacek

Subjects

*PLASMIDS, *LACTOBACILLUS casei, *BIOINFORMATICS, *DNA, *PROBIOTICS

Abstract

Here, we report the extensive bioinformatic and functional analyses of the unusual pLOCK 0919, a plasmid originating from the probiotic Lactobacillus casei LOCK 0919 strain. This plasmid is atypical because it harbors the spaCBA-srtCgene cluster encoding SpaCBA pili. We show that all other spaCBA-srtC sequences of the Lactobacillus genus that have been previously described and deposited in GenBank are present in the chromosomal DNA. Another important observation for pLOC K 0919 is that the spaCBA-srtC gene cluster and its surrounding genes are highly similar to the respective DNA region that is present in the most well-known and active SpaCBA pili producer, the probiotic Lactobacillus rhamnosus GG strain. Our results demonstrate that the spaCBA-srtC clusters of pLOCK 0919 and L rhamnosus GG are genealogically similar, located in DNA regions that are rich in transposase genes and are poorly conserved among the publicly available sequences of Lactobacillus sp. In contrast to chromosomally localized pilus gene clusters from L. casei and Lactobacillus paracasei, the plasmidic spaC of L. casei LOCK 0919 is expressed and undergoes a slight glucose-induced repression. Moreover, results of series of in vitro tests demonstrate that L. casei LOCK 0919 has an adhesion potential, which is largely determined by the presence of the pLOCK0919 plasmid. In particular, the plasmid occurrence positively influenced the hydrophobicity and aggregation abilities of L casei LOCK 0919. Moreover, in vivo studies indicate that among the three Lactobacillus strains used to colonize the gastrointestinal tract of germ-free mice, already after 2 days of colonization, L casei LOCK 0919 became the dominant strain and persisted there for at least 48 days. [ABSTRACT FROM AUTHOR]

Published

2016