Frederick F. Correia scite author profile

Overexpression of the HipA protein of the HipBA toxin/antitoxin module leads to multidrug tolerance in Escherichia coli. HipA is a "toxin" that causes reversible dormancy, whereas HipB is an antitoxin that binds HipA and acts as a transcriptional repressor of the hipBA operon. Comparative sequence analysis shows that HipA is a member of the phosphatidylinositol 3/4-kinase superfamily. The kinase activity of HipA was examined. HipA was autophosphorylated in the presence of ATP in vitro, and the purified protein appeared to carry a single phosphate group on serine 150. Thus, HipA is a serine kinase that is at least partially phosphorylated in vivo. Overexpression of HipA caused inhibition of cell growth and increase in persister formation. Replacing conserved aspartate 309 in the conserved kinase active site or aspartate 332 in the Mg 2؉ -binding site with glutamine produced mutant proteins that lost the ability to stop cellular growth upon overexpression. Replacing serine 150 with alanine yielded a similarly inactive protein. The mutant proteins were then examined for their ability to increase antibiotic tolerance. Cells overexpressing wild-type HipA were highly tolerant to cefotaxime, a cell wall synthesis inhibitor, to ofloxacin, a fluoroquinolone inhibitor of DNA gyrase, and to topoisomerase IV and were almost completely resistant to killing by mitomycin C, which forms DNA adducts. The mutant proteins did not protect cells from cefotaxime or ofloxacin and had an impaired ability to protect from mitomycin C. Taken together, these results suggest that the protein kinase activity of HipA is essential for persister formation.

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Rescue of a foreign gene by Sendai virus.

Park

Huang

Correia

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

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A simple protocol for the rescue of a synthetic genome into a paramyxovirus has been developed. First, a synthetic Sendai virus-like RNA, containing the antisense coding region of the chloramphenicol acetyltransferase gene replacing the coding region of the Sendai virus genome, was transcribed from a cDNA. When introduced into cells that are infected with Sendai virus, this RNA construct was transcribed, replicated, and packaged into infectious virions. The addition of infected cell extract to the RNA prior to transfection markedly enhanced levels of chloramphenicol acetyltransferase expression and rescue. However, this enhancement is not due to encapsidation of the RNA into nucleocapsids as the RNA remains nuclease-sensitive. Uninfected cell extract also enhances expression and rescue efficiency, implying involvement of a cellular factor(s) with the synthetic viral-like RNA construct that allows for enhanced polymerase recognition. This system should allow for the dissection of the various cis-acting RNA signals within the paramyxovirus genome.

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Association of a novel high molecular weight, serine‐rich protein (SrpA) with fibril‐mediated adhesion of the oral biofilm bacterium Streptococcus cristatus

Handley

Correia

Russell

et al. 2005

Oral Microbiology and Immunology

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The surface of the oral plaque bacterium Streptococcus cristatus is decorated with a lateral tuft of fibrils. The fibrillar tuft functions in the adhesion of S. cristatus to heterologous bacterial species in the plaque biofilm. The tuft typically consists of a densely packed fringe of shorter fibrils 238 ± 19 nm long with longer, less abundant fibrils 403 ± 66 nm long projecting through the fringe of short fibrils. The two types of fibrils in the tufts of S. cristatus have been refractory to biochemical separation, complicating their characterization. A hexadecane partition assay was used to enrich for subpopulations of S. cristatus CR311 (type strain NCTC 12479) having distinct fibrillar morphotypes. Negative staining in the TEM revealed that cells of a hydrophobic subpopulation of S. cristatus (CR311var1) carried only the long fibrils (395 ± 32 nm). A hydrophilic subpopulation of S. cristatus (CR311var3) consisted of mixed morphotypes having no fibrils or remnant short fibrils (223 ± 49 nm). No long fibrils were observed on any cells in the CR311var3 subpopulation. The CR311var3 morphotype, unlike the wild-type strain and CR311var1, was not able to form corncobs with either Corynebacterium matruchotii or Fusobacterium nucleatum. Variant CR311var3 did not express the novel gene srpA, which encodes a high molecular weight (321,882 Da) serine-rich protein, SrpA. The SrpA protein contains two extensive repeat motifs of 17 and 71 amino acids and a gram-positive cell wall anchor consensus sequence (LPNTG). The unusual properties of SrpA most closely resemble those of Fap1, the fimbrial-associated adhesin protein of Streptococcus parasanguis. The association of long fibrils, high surface hydrophobicity, ability to form corncob formations, and expression of the srpA gene suggest that SrpA is a long fibril protein in S. cristatus. Keywordscorncobs; fibrils; SrpA; Streptococcus cristatus; tuftsThe surfaces of oral streptococci control the adhesive interactions that determine the specific ecologic niche of these bacteria within the oral cavity. It is believed that many of these interactions are associated with appendages that decorate the bacterial surface. Two classes of these structures, fibrils and fimbriae, have been described on different streptococcal species (11). The majority of the streptococci carry short fibrils (40-400 nm), which are thin Copyright clumped structures that may be peritrichous or localized in tufts (8). A few streptococcal strains carry peritrichous fimbriae, with a width of 3-5 nm, which are longer (1-3 μm) and more flexible than fibrils.The structure and function of one peritrichous fibril component on Streptococcus gordonii DL1 has been studied by McNab et al. (17), who showed that the sparse, peritrichous fibrils (61 nm long) are encoded by the cshA gene (18). The CshA polypeptide (259 kDa) contains 2508 amino acid residues and is apparently not glycosylated. The protein comprises a 41-residue amino-terminal signal sequence, a nonrepetitive region, and an extensive 101 amino ac...

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A 26-base-pair repetitive sequence specific for Neisseria gonorrhoeae and Neisseria meningitidis genomic DNA

Correia¹,

Inouye²,

Inouye³

1986

J Bacteriol

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Two-dimensional heteroduplex mapping of Neisseria gonorrhoeae genomic DNA revealed a number of spots, indicating the existence of repetitive sequences. When one of the spots was extracted and used as a probe for Southern blot analysis, two HindIII bands (11.0 and 3.6 kilobases [kb]) of the genomic digest hybridized with approximately equal intensity. The 3.6-kb fragment was cloned and found to contain two different types of repeated sequence. One type was approximately 1.1 kb in length and was found at least twice in the entire genome. The other consisted of a 26-base-pair family GT(C/A)C(Py)G(Pu)TTTTTGTTAAT(Py)C(Pu)CTATA (Py, pyrimidine; Pu, purine) that was repeated at least 20 times in the entire genome. This repetitive sequence was found also in Neisseria meningitidis but not in various other gram-negative bacteria.

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