Niketa Bhawsinghka scite author profile

Mycobacteriophage D29 is a lytic phage that infects various species of Mycobacterium including M. tuberculosis. Its genome has 77 genes distributed almost evenly between two converging operons designated as left and right. Transcription of the phage genome is negatively regulated by multiple copies of an operator-like element known as stoperator that acts by binding the phage repressor Gp71. The function of the D29 genes and their expression status are poorly understood and therefore we undertook a transcriptome analysis approach to address these issues. The results indicate that the average transcript intensity of the right arm genes was higher than of those on the left, at the early stage of infection. Moreover, the fold increase from early to the late stage was found to be less for the right arm genes than for the left. Both observations support the prediction that the right arm genes are expressed early whereas the left arm ones are expressed late. The analysis further revealed a break in the continuity of the right arm operon between 89, the first gene in it, and 88, the next. Gene 88 was found to be expressed from a newly identified promoter located between 88 and 89. Another new promoter was found upstream of 89. Thus, the promoter Pleft, identified earlier, is not the only one that drives expression of the right arm genes. All these promoters overlap with stoperators, with which they share a conserved sequence motif, TTGACA, commonly known as the -35 promoter element. We demonstrate mutually exclusive binding of RNA polymerase and Gp71 to the stoperator-promoters and conclude that stoperators can function as -35 promoter elements and that they can control gene expression not only negatively as was believed earlier but in many cases positively as well.

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Gp66, a calcineurin family phosphatase encoded by mycobacteriophage D29, is a 2′, 3′ cyclic nucleotide phosphodiesterase that negatively regulates phage growth

Dutta

Bhawsinghka

Gupta

2014

FEMS Microbiol Lett

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Mycobacteriophage D29 encodes a protein Gp66 which has been predicted to be a calcineurin family phosphoesterase. Phylogenetically Gp66 and related proteins mostly derived from mycobacteriophages form a distinct clade within this family. Interestingly, the presence of gene 66 orthologs can be traced to bacteria of diverse phylogenetic lineages such as Aquifex aeolicus, a deep branching eubacteria and Methanococcus jannaschii, an archaebacteria. The promiscuous nature of gene 66 suggests that it may have been transferred across genus barriers by horizontal gene transfer mechanisms. The biological function of members of this novel clade comprising mostly the mycobacteriophage phosphoesterases have not been elucidated so far. In this investigation, it has been demonstrated for the first time that Gp66, a member of this novel family, is a 2', 3' cyclic phosphodiesterase. The gene is expressed during phage infection and the net result is negative regulation of bacteriophage as well as bacterial growth.

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Mycobacteriophage D29 induced association of Mycobacterial RNA polymerase with ancillary factors leads to increased transcriptional activity

Sengupta

Bhawsinghka

Shaw

et al. 2022

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Mycobacteriophage D29 infects species belonging to the genus Mycobacterium including the deadly pathogen Mycobacterium tuberculosis. D29 is a lytic phage, although, related to the lysogenic mycobacteriophage L5. This phage is unable to lysogenize in mycobacteria as it lacks the gene encoding the phage repressor. Infection by many mycobacteriophages cause various changes in the host that ultimately leads to inactivation of the latter. One of the host targets often modified in the process is RNA polymerase. During our investigations with phage D29 infected Mycobacterium smegmatis (Msm) we observed that the promoters from both phage, and to a lesser extent those of the host were found to be more active in cells that were exposed to D29, as compared to the unexposed. Further experiments indicate that the RNA polymerase purified from phage infected cells possessed higher affinity for promoters particularly those that were phage derived. Comparison of the purified RNA polymerase preparations from infected and uninfected cells showed that several ancillary transcription factors, Sigma factor F, Sigma factor H, CarD and RbpA are prominently associated with the RNA polymerase from infected cells. Based on our observations we conclude that the higher activity of RNA polymerase observed in D29 infected cells is due to its increased association with ancillary transcription factors.

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