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- Behra, Phani Rama Krishna, et al.
(author)
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Comparative genome analysis of Mycobacteria focusing on tRNA and non-coding RNA
- 2022
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In: BMC Genomics. - : BioMed Central (BMC). - 1471-2164. ; 23
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Journal article (peer-reviewed)abstract
- Background: The Mycobacterium genus encompasses at least 192 named species, many of which cause severe diseases such as tuberculosis. Non-tuberculosis mycobacteria (NTM) can also infect humans and animals. Some are of emerging concern because they show high resistance to commonly used antibiotics while others are used and evaluated in bioremediation or included in anticancer vaccines.Results: We provide the genome sequences for 114 mycobacterial type strains and together with 130 available mycobacterial genomes we generated a phylogenetic tree based on 387 core genes and supported by average nucleotide identity (ANI) data. The 244 genome sequences cover most of the species constituting the Mycobacterium genus. The genome sizes ranged from 3.2 to 8.1 Mb with an average of 5.7 Mb, and we identified 14 new plasmids. Moreover, mycobacterial genomes consisted of phage-like sequences ranging between 0 and 4.64% dependent on mycobacteria while the number of IS elements varied between 1 and 290. Our data also revealed that, depending on the mycobacteria, the number of tRNA and non-coding (nc) RNA genes differ and that their positions on the chromosome varied. We identified a conserved core set of 12 ncRNAs, 43 tRNAs and 18 aminoacyl-tRNA synthetases among mycobacteria.Conclusions; Phages, IS elements, tRNA and ncRNAs appear to have contributed to the evolution of the Mycobacterium genus where several tRNA and ncRNA genes have been horizontally transferred. On the basis of our phylogenetic analysis, we identified several isolates of unnamed species as new mycobacterial species or strains of known mycobacteria. The predicted number of coding sequences correlates with genome size while the number of tRNA, rRNA and ncRNA genes does not. Together these findings expand our insight into the evolution of the Mycobacterium genus and as such they establish a platform to understand mycobacterial pathogenicity, their evolution, antibiotic resistance/tolerance as well as the function and evolution of ncRNA among mycobacteria.
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| 2. |
- Behra, Phani Rama Krishna
(author)
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Comparative genomics of the genus Mycobacterium : Genome evolution, phylogeny and diversity
- 2022
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Doctoral thesis (other academic/artistic)abstract
- The genus Mycobacterium includes more than 190 species, and many cause severe diseases such as tuberculosis and leprosy. According to the "World Health Organization", in year 2019 alone, 10 million people developed TB, and 1.4 million died. TB had been in decline in developed countries, but made its reappearance as an opportunistic pathogen targeting immuno-compromised AIDS victims. Also, non-tuberculosis mycobacteria (NTM) infections have emerged as a major infectious agent in recent times. NTM occupy diverse ecological niches and can be isolated from soil, tap water, and groundwater. This thesis has investigated the Mycobacterium species from a genomic perspective, focusing on the biology of virulence factors, mobile genetic elements, tRNAs, and non-coding RNAs and their evolutionary distribution and possible relationship with phenotypic diversity. As part of this study, we have sequenced 153 mycobacterial genomes, including type strains, environmental samples, isolates from hospital patients, infected fish, and outbreak samples in an animal facility at Uppsala University. We have provided a phylogenetic tree based on 387 (and 56) core genes covering most species (244 genomes) constituting the Mycobacterium genus. The core gene phylogeny resulted in 33 clades. Subsequently, we have covered different clade groups, such as, M. marinum, M. mucogenicum, M. chelonae and M. chlorophenolicum and investigated the NTM clade-specific genome diversity and evolution. Our examination of non-coding genes showed that the total number of tRNA genes per species varies between 42 and 90. Among the species with more than 50 tRNAs, additional tRNA genes are likely acquired through horizontal gene transfer (HGT), as supported by the presence of closely linked HNH endonuclease gene and GOLLD RNA. We have explored the presence of selenocysteine utility and the gene for selenoprotein "formate dehydrogenase" among 244 mycobacterial genomes. For the M. chlorophenolicum clade, we have explored genes with a role in the bioremediation process. Comparative genomics of M. marinum and M. chelonae clade groups suggest new clusters or subspecies. Mutational hotspots are relatively higher in M. marinum compared to that in M. tuberculosis and M. salmoniphilum. Relatively higher number of hotspots in M. marinum is likely related to its ability to occupy different ecological niches. Finally, the thesis uncovered IS elements, phage sequences, plasmids, tRNA, and ncRNA contributing to mycobacterial evolution.
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| 3. |
- Kirsebom, Leif A.
(author)
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Sidney Altman : A brief memoir
- 2022
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In: RNA. - : Cold Spring Harbor Laboratory Press (CSHL). - 1355-8382 .- 1469-9001. ; 28:11, s. 1404-1405
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Journal article (pop. science, debate, etc.)
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| 4. |
- Mao, Guanzhong, 1985-, et al.
(author)
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Importance of residue 248 in Escherichia coli RNase P RNA mediated cleavage
- 2023
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In: Scientific Reports. - : Springer Nature. - 2045-2322. ; 13:1
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Journal article (peer-reviewed)abstract
- tRNA genes are transcribed as precursors and RNase P generates the matured 5' end of tRNAs. It has been suggested that residue − 1 (the residue immediately 5ʹ of the scissile bond) in the pre-tRNA interacts with the well-conserved bacterial RNase P RNA (RPR) residue A248 (Escherichia coli numbering). The way A248 interacts with residue − 1 is not clear. To gain insight into the role of A248, we analyzed cleavage as a function of A248 substitutions and N−1 nucleobase identity by using pre-tRNA and three model substrates. Our findings are consistent with a model where the structural topology of the active site varies and depends on the identity of the nucleobases at, and in proximity to, the cleavage site and their potential to interact. This leads to positioning of Mg2+ that activates the water that acts as the nucleophile resulting in efficient and correct cleavage. We propose that in addition to be involved in anchoring the substrate the role of A248 is to exclude bulk water from access to the amino acid acceptor stem, thereby preventing non-specific hydrolysis of the pre-tRNA. Finally, base stacking is discussed as a way to protect functionally important base-pairing interactions from non-specific hydrolysis, thereby ensuring high fidelity during RNA processing and the decoding of mRNA.
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| 5. |
- Ramesh, Malavika, et al.
(author)
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Intracellular localization of the mycobacterial stressosome complex
- 2021
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In: Scientific Reports. - : Springer Nature. - 2045-2322. ; 11:1
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Journal article (peer-reviewed)abstract
- Microorganisms survive stresses by alternating the expression of genes suitable for surviving the immediate and present danger and eventually adapt to new conditions. Many bacteria have evolved a multiprotein "molecular machinery" designated the "Stressosome" that integrates different stress signals and activates alternative sigma factors for appropriate downstream responses. We and others have identified orthologs of some of the Bacillus subtilis stressosome components, RsbR, RsbS, RsbT and RsbUVW in several mycobacteria and we have previously reported mutual interactions among the stressosome components RsbR, RsbS, RsbT and RsbUVW from Mycobacterium marinum. Here we provide evidence that "STAS" domains of both RsbR and RsbS are important for establishing the interaction and thus critical for stressosome assembly. Fluorescence microscopy further suggested co-localization of RsbR and RsbS in multiprotein complexes visible as co-localized fluorescent foci distributed at scattered locations in the M. marinum cytoplasm; the number, intensity and distribution of such foci changed in cells under stressed conditions. Finally, we provide bioinformatics data that 17 (of 244) mycobacteria, which lack the RsbRST genes, carry homologs of Bacillus cereus genes rsbK and rsbM indicating the existence of alternative σF activation pathways among mycobacteria.
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| 6. |
- Ramesh, Malavika
(author)
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Morphological changes in mycobacteria
- 2021
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Doctoral thesis (other academic/artistic)abstract
- Morphological variations at different stages and conditions of growth has been observed frequently in various mycobacteria. Despite years of research, the molecular basis of such variations is still not clear and requires further elucidation. Owing to the pathogenic significance of mycobacteria, currently, mycobacterial research emphasizes on understanding responses to oxygen deprivation, starvation, various antibiotic treatments, latency and dormancy.In this thesis, change in cell shape from rod to coccoid, occurrence of refractive spore-like phase grey, phase bright bodies and branching are some of the morphological variations discussed. Further, this thesis also discusses microaerobic condition (oxygen deprivation) and the localisation pattern of the stressosome complex.
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