Takeyoshi Miki scite author profile

Adherence of enterohemorrhagic Escherichia coli (EHEC) to the intestinal epithelium is critical for initiation of a bacterial infection. An in vitro infection study previously indicated that EHEC bacteria initially adhere diffusely and then proliferate to develop MC, a process that is mediated by various secreted proteins, such as EspA, EspB, EspD, Tir, and intimin, as well as other putative adherence factors. In the present study, we investigated the role of a large 93-kb plasmid (pO157) in the adherence of O157:H7 (O157Sakai) and found the toxB gene to be involved in the full adherence phenotype. A pO157-cured strain of O157Sakai (O157Cu) developed microcolonies on Caco-2 cells; however, the number of microcolonies was lower than that of O157Sakai, as were the production and secretion levels of EspA, EspB, and Tir. Introduction of a mini-pO157 plasmid (pIC37) composed of the toxB and ori regions restored full adherence capacity to O157Cu, including production and secretion of the proteins. In contrast, introduction of a pO157 mutant possessing toxB::Km into O157Cu could not restore the full adherence phenotype. Expression of truncated versions of His-tagged ToxB also promoted EspB production and/or secretion by O157Cu. These results suggest that ToxB contributes to the adherence of EHEC to epithelial cells through promotion of the production and/or secretion of type III secreted proteins.

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Multiple role of hydrophobicity of tryptophan-108 in chicken lysozyme: structural stability, saccharide binding ability, and abnormal pKa of glutamic acid-35

Yamada¹,

Yasukochi²,

Kuroki³

et al. 1992

Biochemistry

103

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Trp108 of chicken lysozyme is in van der Waals contact with Glu35, one of two catalytic carboxyl groups. The role of Trp108 in lysozyme function and stability was investigated by using mutant lysozymes secreted from yeast. By the replacement of Trp108 with less hydrophobic residues, Tyr (W108Y lysozyme) and Gln (W108Q lysozyme), the activity, saccharide binding ability, stability, and pKa of Glu35 were all decreased with a decrease in the hydrophobicity of residue 108. Namely, at pH 5.5 and 40 degrees C, the activities of W108Y and W108Q lysozymes against glycol chitin were 17.3 and 1.6% of that of wild-type lysozyme, and their dissociation constants for the binding of a trimer of N-acetyl-D-glucosamine were 7.4 and 309 times larger than that of wild-type lysozyme, respectively. For the reversible unfolding at pH 3.5 and 30 degrees C, W108Y and W108Q lysozymes were less stable than wild-type lysozyme by 1.4 and 3.6 kcal/mol, respectively. As for the pKa of Glu35, the values for W108Y and W108Q lysozymes were found to be lower than that for wild-type lysozyme by 0.2 and by 0.6 pKa unit, respectively. The pKa of Glu35 in lysozyme was also decreased from 6.1 to 5.4 by the presence of 1-3 M guanidine hydrochloride, or to 5.5 by the substitution of Asn for Asp52, another catalytic carboxyl group. Thus, both the hydrophobicity of Trp108 and the electrostatic interaction with Asp52 are equally responsible for the abnormally high pKa (6.1) of Glu35, compared with that (4.4) of a normal glutamic acid residue.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cloning of replication, incompatibility, and stability functions of R plasmid NR1

Miki¹,

Easton²,

Rownd³

1980

J Bacteriol

151

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The region of R plasmid NR1 that is capable of mediating autonomous replication was cloned by using EcoRI, SalI, and PstI restriction endonucleases. The only EcoRI fragment capable of mediating autonomous replication in either a pol+ or a polA host was fragment B. SalI fragment E joined in native orientation with the part of SalI fragment C that overlapped with EcoRI fragment B, and also two contiguous PstI fragments of sizes 1.6 and 1.1 kilobases from EcoRI fragment B-mediated autonomous replication. When these individual SalI fragments were cloned onto plasmid pBR313 or the individual PstI fragments were cloned onto plasmid pBR322, none of these single fragments could rescue the replication of the ColE1-like vectors in a polA host, even in the presence of a compatible "helper" plasmid derived from a copy mutant of NR1. In contrast to the results reported for closely related R plasmid R6, EcoRI fragment A of NR1 could not rescue the replication of ColE1 derivative RSF2124 in a polA(Am) mutant or in a polA(Ts) mutant at the restrictive temperature. Although capable of autonomous replication, EcoRI fragment B of NR1 (or smaller replicator fragments cloned from it by using other restriction enzymes) was not stably inherited in the absence of selection for the recombinant plasmid. When EcoRI fragment B was ligated to EcoRI fragment A of NR1, the recombinant plasmid was stable. Thus, EcoRI fragment A contained a stability (stb) function. The stb function did not act in trans since EcoRI fragment B was not stably inherited when a ColE1 derivative (RSF2124) ligated to EcoRI fragment A was present in the same cell. A cointegrate plasmid consisting of EcoRI fragment B of NR1 ligated to RSF2124 was also not stably inherited, whereas only EcoRI fragment B was unstable when both RSF2124 and EcoRI fragment B coexisted as autonomous plasmids in the same cell. The incompatibility gene of NR1 was shown to be located within the region of overlap between SalI fragment E and the PstI 1.1-kilobase fragment. A copy mutant of NR1 (called pRR12) was found to have greatly reduced incompatibility with NR1; this Inc- phenotype is cis dominant.

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Classification and Strength Measurement of Stationary-Phase Promoters by Use of a Newly Developed Promoter Cloning Vector

et al. 2004

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When an Escherichia coli culture changes from exponential growth to the stationary phase, expression of growth-related genes levels off, while a number of stationary-phase-specific genes are turned on. To gain insight into the growth phase-dependent global regulation of genome transcription, we analyzed the strength and specificity of promoters associated with the stationary-phase genes. For the in vivo assay of promoter activity, 300-to 500-bp DNA fragments upstream from the translation initiation codon were isolated and inserted into a newly constructed doubly fluorescent protein (DFP) vector. The activity of test promoters was determined by measuring the green fluorescent protein (GFP). To avoid the possible influence of plasmid copy number, the level of transcription of reference promoter lacUV5 on the same plasmid was determined by measuring the red fluorescent protein (RFP). Thus, the activities of test promoters could be easily and accurately determined by determining the GFP/RFP ratio. Analysis of the culture time-dependent variation of 100 test promoters indicated that (i) a major group of the stationary-phase promoters are up-regulated only in the presence of RpoS sigma; (ii) the phase-coupled increase in the activity of some promoters takes place even in the absence of RpoS; and (iii) the activity of some promoters increases in the absence of RpoS. This classification was confirmed by testing in vitro transcription by using reconstituted RpoD and RpoS holoenzymes.The RNA polymerase of Escherichia coli is composed of the core enzyme (subunit composition, ␣ 2 ␤␤Ј) with RNA polymerization catalytic activity and one of seven different species of the sigma subunit, each of which participates in transcription of a specific set of genes (10, 15). The intracellular concentration of RNA polymerase in the steady state of growing E. coli W3350 cells is maintained at a constant level characteristic of the rate of cell growth (16). The total number of core enzymes is not more than the total number of genes on the E. coli genome (1). Thus, the distribution pattern for RNA polymerase genes among about 4,000 genes in the genome should vary depending on the culture conditions (15). This finding accentuates the importance of the need for the RNA polymerase to choose which genes to transcribe and how often they are transcribed. The replacement of one core enzyme-associated sigma subunit by another sigma subunit is the most efficient way to alter the promoter recognition specificity of the transcription apparatus and is thus believed to be the major mechanism for switching of the transcription pattern. Thus, the competition between available sigma subunits should be a key determinant of which group genes are transcribed (8,33). In addition to sigma subunit replacement, the activity and specificity of RNA polymerase is also modulated by interaction with about 300 molecular species of transcription factors (14,15). Most of these accessory transcription factors are DNA-binding proteins and interact with RNA polymerase when ...

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Negative control of DNA replication by hydrolysis of ATP bound to DnaA protein, the initiator of chromosomal DNA replication in Escherichia coli

Mizushima

Nishida

Kurokawa

et al. 1997

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Takeyoshi Miki

toxB Gene on pO157 of Enterohemorrhagic Escherichia coli O157:H7 Is Required for Full Epithelial Cell Adherence Phenotype

Multiple role of hydrophobicity of tryptophan-108 in chicken lysozyme: structural stability, saccharide binding ability, and abnormal pKa of glutamic acid-35

Cloning of replication, incompatibility, and stability functions of R plasmid NR1

Classification and Strength Measurement of Stationary-Phase Promoters by Use of a Newly Developed Promoter Cloning Vector

Negative control of DNA replication by hydrolysis of ATP bound to DnaA protein, the initiator of chromosomal DNA replication in Escherichia coli

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