Jan-Hendrik Heilers scite author profile

Jan-Hendrik Heilers

2Publications

31Citation Statements Received

384Citation Statements Given

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Affiliations

University of Freiburg

Publications

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Secretion of Chromosomal DNA by the Neisseria gonorrhoeae Type IV Secretion System

Callaghan

Heilers

Does

et al. 2017

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Approximately 80% of Neisseria gonorrhoeae and 17.5% of Neisseria meningitidis clinical isolates carry a ~59 kb genomic island known as the gonococcal genetic island (GGI). About half of the GGI consists of genes encoding a type IV secretion system (T4SS), and most of these genes are clustered in a ~28 kb region at one end of the GGI. Two additional genes (parA and parB) are found at the other end of the island. The remainder of the GGI consists mostly of hypothetical proteins, with several being identified as DNA binding or processing proteins. The T4SS genes show similarity to those of the F-plasmid family of conjugation systems, with similarity in gene order and a low but significant level of sequence identity for the encoded proteins. However, several GGI-encoded proteins are unique from the F-plasmid system, such as AtlA, Yag, and TraA. Interestingly, the gonococcal T4SS does not act as a conjugation system. Instead, this T4SS secretes ssDNA into the extracellular milieu, where it can serve to transform highly competent Neisseria species, thereby increasing the transfer of genetic information. Although many of the T4SS proteins are expressed at low levels, this system has been implicated in several cellular processes. The secreted ssDNA is involved in the initial stages of biofilm formation, and the presence of the T4SS enables TonB-independent intracellular survival of N. gonorrhoeae strains during infection of cervical cells. Other GGI-like T4SS have been identified in several other α-, β- and γ-Proteobacteria, but the function of these GGI-like T4SSs is unknown. Remarkably, the presence of the GGI is related to resistance to several antibiotics. Here we describe our current knowledge about the GGI and its unique ssDNA-secreting T4SS.

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DNA processing by the MOBH family relaxase TraI encoded within the gonococcal genetic island

Heilers

Reiners

Heller³

et al. 2019

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Relaxases of the MOBH family are often found on large plasmids, genetic islands and integrative conjugative elements. Many members of this family contain an N-terminal relaxase domain (TraI_2) followed by a disordered middle part and a C-terminal domain of unknown function (TraI_2_C). The TraI_2 domain contains two putative metal-binding motifs, an HD domain motif and an alternative 3H motif. TraI, encoded within the gonococcal genetic island of Neisseria gonorrhoeae, is the prototype of the MOBH family. SAXS experiments showed that TraI_2 and TraI_2_C form globular structures separated by an extended middle domain. The TraI_2 domain cleaves oriT-ssDNA in a site-specific Mn2+ or Co2+ dependent manner. The minimal oriT encompasses 50 nucleotides, requires an inverted repeat 3′ of the nic-site and several nucleotides around nic for efficient cleavage. Surprisingly, no stable covalent relaxase-DNA intermediate was observed. Mutagenesis of conserved tyrosines showed that cleavage was abolished in the Y212A mutant, whereas the Y212F and Y212H mutants retained residual activity. The HD and the alternative 3H motifs were essential for cleavage and the HD domain residues D162 and D267 for metal ion binding. We propose that the active site binds two metal ions, one in a high-affinity and one in a low-affinity site.

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