Base methylations in the double-stranded RNA by a fused methyltransferase bearing unwinding activity

Modifications of rRNAs are clustered in functional regions of the ribosome. In Helix 74 of Escherichia coli 23S rRNA, guanosines at positions 2069 and 2445 are modified to 7-methylguanosine(m7G) and N2-methylguanosine(m2G), respectively. We searched for the gene responsible for m7G2069 formation, and identified rlmL, which encodes the methyltransferase for m2G2445, as responsible for the biogenesis of m7G2069. In vitro methylation of rRNA revealed that rlmL encodes a fused methyltransferase responsible for forming both m7G2069 and m2G2445. We renamed the gene rlmKL. The N-terminal RlmL activity for m2G2445 formation was significantly enhanced by the C-terminal RlmK. Moreover, RlmKL had an unwinding activity of Helix 74, facilitating cooperative methylations of m7G2069 and m2G2445 during biogenesis of 50S subunit. In fact, we observed that RlmKL was involved in the efficient assembly of 50S subunit in a mutant strain lacking an RNA helicase deaD

Tight junction-related protein expression and distribution in human corneal epithelium.

Purpose. To investigate the expression and cellular distribution of the tight junction-related proteins occludin, claudin and ZO-1 in human corneal epithelium. Methods. Light and electron immunohistochemistry was used to determine tissue distribution of occludin, claudin-1 and ZO-1 in the human corneal epithelium. Reverse transcription-polymerase chain reaction was used to reveal claudin mRNA expression in human corneal epithelium. Results. In transverse sections, occludin and ZO-1 were localized at the apical cell–cell junctions between superficial cells in stratified corneal epithelium. Both basal and basolateral membranes of superficial cells were stained by the claudin-1 antibody, but no apical membrane staining was observed. In en face sections, claudin-1 and ZO-1 antibodies showed as bands that corresponded to the junctional complex. Claudin-1 staining of superficial cell cytoplasm was also observed. Occludin staining was seen at the junctional complex, where it was not continuous, but dotted along the cell junctions. The transcripts for claudin-1 and several other claudin isotypes, such as -2, -3, -4, -7, -9 and -14 were identified. Conclusion. Not only occludin, but also some claudins act as integral transmembrane proteins in the corneal epithelium. ZO-1 is a component of the corneal epithelial tight junction, as it is in most epithelial cells

Comparison of ultrastructure, tight junction-related protein expression and barrier function of human corneal epithelial cells with and without air-lifting.

Purpose. To evaluate the usefulness of the air-lifting technique for culturing corneal limbal epithelial cells on amniotic membrane (AM) for use in ocular surface reconstruction. A cultured sheet that has a good barrier function should be better for this purpose. In corneal epithelium, tight junctions (TJ) play a vital role in the barrier function. The TJ complex includes the integral transmembrane proteins occludin and the claudins, and some membrane-associated proteins such as ZO-1. In this paper, we investigated the barrier function and the expression of TJ related proteins. Methods. Corneal limbal epithelium obtained from donor corneas and cultivated on acellular AM was divided into two groups. These were the non-air-lifting (Non-AL) group, which was continuously submerged in medium, and the air-lifting (AL) group, which was submerged in medium for 3 weeks, then exposed to air by lowering the medium level. Morphology and the permeability to horseradish peroxidase (HRP) were determined by electron microscopy. Tight junction (TJ)-related protein and mRNA expression changes were assessed by immunoblotting and reverse transcription-polymerase chain reaction. Results. The cultures of both groups formed 4–5-layer-thick, well-stratified epithelium. The AL cultures had tightly packed epithelial cells with all the HRP/diaminobenzidine (DAB) reaction product accumulated on the apical surface of the superficial cells. The Non-AL culture, by contrast, had more loosely packed epithelial cells with larger intercellular spaces. The HRP/DAB reaction product penetrated the intercellular space to a depth of 3–4 cell layers. Statistically, there was a significant difference in intercellular spaces and desmosome count in the superficial cells between the groups. With AL, TJ-related proteins localized at the apical portion of the lateral membrane. TJ-related protein and mRNA amounts were not changed by AL while claudin subtype expression became more consistent and closer to that of in vivo corneal epithelium. Conclusions. The AL technique reduces intercellular spaces in the superficial cells and promotes the formation of the barrier function. It is useful in culturing corneal epithelial cells for use in ocular surface reconstruction