P. D. Kuchur scite author profile

Many animal phyla have no representatives within the catalog of whole metazoan genome sequences. This dataset fills in one gap in the genome knowledge of animal phyla with a draft genome of Bugula neritina (phylum Bryozoa). Interest in this species spans ecology and biomedical sciences because B. neritina is the natural source of bioactive compounds called bryostatins. Here we present a draft assembly of the B. neritina genome obtained from PacBio and Illumina HiSeq data, as well as genes and proteins predicted de novo and verified using transcriptome data, along with the functional annotation. These sequences will permit a better understanding of host-symbiont interactions at the genomic level, and also contribute additional phylogenomic markers to evaluate Lophophorate or Lophotrochozoa phylogenetic relationships. The effort also fits well with plans to ultimately sequence all orders of the Metazoa.

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Structural and genetic characterization of the colitose-containing O-specific polysaccharide from the lipopolysaccharide of Herbaspirillum frisingense GSF30T

Velichko

Kokoulin

Sigida

et al. 2020

International Journal of Biological Macromolecules

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Unique or not unique? Comparative genetic analysis of bacterial O-antigens from the Oxalobacteraceae family

2023

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Many plants and animals have symbiotic relationships with microorganisms, including bacteria. The interactions between bacteria and their hosts result in different outcomes for the host organism. The outcome can be neutral, harmful or have beneficial effects for participants. Remarkably, these relationships are not static, as they change throughout an organism’s lifetime and on an evolutionary scale. One of the structures responsible for relationships in bacteria is O-antigen. Depending on the characteristics of its components, the bacteria can avoid the host’s immune response or establish a mutualistic relationship with it. O-antigen is a key component in Gram-negative bacteria’s outer membrane. This component facilitates interaction between the bacteria and host immune system or phages. The variability of the physical structure is caused by the genomic variability of genes encoding O-antigen synthesis components. The genes and pathways of O-polysaccharide (OPS) synthesis were intensively investigated mostly for Enterobacteriaceae species. Considering high genetic and molecular diversity of this structure even between strains, these findings may not have caught the entire variety possibly presented in non-model species. The current study presents a comparative analysis of genes associated with O-antigen synthesis in bacteria of the Oxalobacteraceae family. In contrast to existing studies based on PCR methods, we use a bioinformatics approach and compare O- anti gens at the level of clusters rather than individual genes. We found that the O-antigen genes of these bacteria are represented by several clusters located at a distance from each other. The greatest similarity of the clusters is observed within individual bacterial genera, which is explained by the high variability of O-antigens. The study describes similarities of OPS genes inherent to the family as a whole and also considers individual unique cases of O-antigen genetic variability inherent to individual bacteria.

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Differential Regulation of BBC3/PUMA and PMAIP1/Noxa in Ionizing Radiation: the Role of p53

Kuchur

Kuzmina

et al. 2021

Cell Tiss. Biol.

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P. D. Kuchur

Macrophage-derived cytokines in pneumonia: Linking cellular immunology and genetics

Draft genome of Bugula neritina, a colonial animal packing powerful symbionts and potential medicines

Structural and genetic characterization of the colitose-containing O-specific polysaccharide from the lipopolysaccharide of Herbaspirillum frisingense GSF30T

Unique or not unique? Comparative genetic analysis of bacterial O-antigens from the Oxalobacteraceae family

Differential Regulation of BBC3/PUMA and PMAIP1/Noxa in Ionizing Radiation: the Role of p53

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