Visualization of RecA filaments and DNA by fluorescence microscopy

We have developed two experimental methods for observing Escherichia coli RecA-DNA filament under a fluorescence microscope. First, RecA-DNA filaments were visualized by immunofluorescence staining with anti-RecA monoclonal antibody. Although the detailed filament structures below submicron scale were unable to be measured accurately due to optical resolution limit, this method has an advantage to analyse a large number of RecA-DNA filaments in a single experiment. Thus, it provides a reliable statistical distribution of the filament morphology. Moreover, not only RecA filament, but also naked DNA region was visualized separately in combination with immunofluorescence staining using anti-DNA monoclonal antibody. Second, by using cysteine derivative RecA protein, RecA-DNA filament was directly labelled by fluorescent reagent, and was able to observe directly under a fluorescence microscope with its enzymatic activity maintained. We showed that the RecA-DNA filament disassembled in the direction from 5' to 3' of ssDNA as dATP hydrolysis proceeded.     

GATAe-dependent and -independent expressions of genes in the differentiated endodermal midgut of Drosophila

Two sequentially-expressed GATA factor genes, serpent (srp) and GATAe, are essential for development of the Drosophila endoderm. The earliest endodermal GATA gene, srp, has been thought to specify the endodermal fate, activating the second GATA gene GATAe, and the latter continues to be expressed in the endodermal midgut throughout life. Previously, we proposed that GATAe establishes and maintains the state of terminal differentiation of the midgut, since some functional genes in the midgut require GATAe activity for their expression. To obtain further evidence of the role of GATAe, we searched for additional genes that are expressed specifically in the midgut in late stages, and examined responses of a total of selected 15 genes to the depletion and overexpression of GATAe. Ten of the 15 genes failed to be expressed in the embryo deficient for GATAe activity, but, the other five genes did not require GATAe. Instead, srp is required for activating the five genes. These observations indicate that GATAe activates a major subset of genes in the midgut, and some other pathway(s) downstream of srp activates other genes.     

A functionalized 20-residue peptaibol derivative for nucleic acid delivery

Based on the membrane-modifying peptaibol trichocellin-A-I (1) from Trichoderma viride, we designed a vehicle for the cellular delivery of antisense oligodeoxynucleotides by attaching a (Lys)10 stretch to the C-terminus of 1. The resulting transporter peptide 2, prepared by solid-phase synthesis using Fmoc protocol in combination with amino acid fluorides, was found to be mainly alpha-helical in solution, in contrast to its precursors 1 and 3. The uptake of the complex formed between carrier 2 and a fluorescence-tagged oligonucleotide, i.e., 4, was studied at different charge ratios by confocal laser-scanning microscopy, using two different eukaryotic cell lines: mouse embryonal fibroblast (NIH3T3) and human lung carcinoma (A549) cells. Peptide 2 readily translocated 4 into the cytoplasms of NIH3T3 cells. However, the peptide/oligonucleotide complex was accumulated around the plasma membrane of the A549 cells.     

Biochemical characterization and functional analysis of two type II classic cadherins, cadherin-6 and -14, and comparison with E-cadherin

Classic cadherins can be grouped based on their deduced primary structures. Among them the type I cadherins have been well characterized; however, little is known about non-type I cadherins. In this study we characterized two human type II cadherins, cadherin-6 and cadherin-14, using a cDNA transfection system. They were each detected as two bands electrophoretically, were expressed on the external cell surface at cell-cell contact sites, and were associated with caten- ins. Direct sequencing of the N-terminal amino acids showed that the two bands of cadherin-14 corresponded to precursor and mature forms, whereas the two bands of cadherin-6 both had the N-terminal sequence of the mature form. Unlike type I cadherins, both cadherin-6 and -14 were not protected from trypsin degradation by Ca2+. We evaluated their adhesive functions by a long term cell aggregation method. The results suggest that both cadherin-6 and -14 have cell-cell binding strengths virtually equivalent to that of E-cadherin and that their binding specificities are distinct from that of E-cadherin. Cadherin-6 and -14 interacted with each other in an incomplete manner. They have a QAI tripeptide in the first extracellular subdomain instead of the HAV motif that is characteristic of type I cadherins and is intimately involved in the adhesive function. The QAI tripeptide, however, appeared not to be involved in the adhesive functions of cadherin-6 and -14.     

Identification of acetic acid bacteria isolated from Indonesian sources,especially of isolates classified in the genus Gluconobacter

Sixty-four strains of acetic acid bacteria were isolated from Indonesian sources such as fruits, flowers, and fermented foods by the enrichment culture at pH 3.5. Forty-five strains were routinely identified as Acetobacter strains because of their oxidation of acetate and lactate to carbon dioxide and water and their Q-9 isoprenolog, corresponding to 70% of all the 64 acetic acid bacteria isolated. Eight isolates were identified as Gluconacetobacter strains because of their oxidation of acetate and lactate and their Q-10 isoprenolog, occupying 13% of all the isolates. The remaining 11 isolates, accommodated in the genus Gluconobacter because of no oxidation of acetate and lactate and because of their Q-10 isoprenolog, accounted for 17% of all the isolates. They were divided into two groups based on DNA base compositions. One comprised the seven isolates, which had high G1C contents of DNA ranging from 60.3 to 63.5 mol% and of which DNAs hybridized with that of the type strain of Gluconobacter oxydans at values of 64-94% of DNA relatedness. The other comprised the remaining four isolates, which had low G+C contents of DNA ranging from 57.5 to 57.7 mol% and of which DNAs hybridized with that of the type strain of Gluconobacter frateurii at values of 63-77% of DNA relatedness. The high values of DNA relatedness, 84 to 96%, were obtained between the type strains of Gluconobacter cerinus and Gluconobacter asaii.     

Zebrafish serotonin-N-acetyltransferase-2 gene regulation: pineal-restrictive downstream module contains a functional E-box and three photoreceptor conserved elements

Pineal function is defined by a set of very narrowly expressed genes that encode proteins required for photoperiodic transduction and rhythmic melatonin secretion. One of these proteins is serotonin N-acetyltransferase (arylalkylamine N-acetyltransferase, AANAT), which controls the daily rhythm in melatonin production. Here, pineal-specific expression of the zebrafish aanat-2 (zfaanat-2) was studied using in vivo transient expression analyses of promoter-reporter constructs; this revealed that specificity is determined by two regions located 12 kb away from each other. One is the 5'-flanking region, and the other is a 257-bp sequence, located 6 kb downstream of the transcribed region. This 3'-sequence, designated pineal-restrictive downstream module (PRDM), has a dual function: enhancement of pineal expression and inhibition of extrapineal expression. The former is an autonomic property of PRDM whereas the later function requires interaction with the upstream regulatory region of zfaanat-2. Functional analyses of the PRDM sequence revealed that three photoreceptor conserved elements (TAATC) and a single perfect E-box (CACGTG) are crucial for the dual function of PRDM. These results indicate that pineal specificity of zfaanat-2 is determined by the dual functionality of the PRDM and the interaction between upstream regulatory region and downstream photoreceptor conserved elements and E-box element.