Single-tube Multiplex Nested PCR System for Efficient Detection of Pathogenic Microorganisms in SPF Rodents.

PCR testing is increasingly important for microbial control in SPF facilities. However, most current PCR methods are timeconsuming and require compromise between high sensitivity and high multiplexing. We developed a one-tube multiplex nested PCR strategy (MN-PCR) for simultaneous direct (that is, without culturing) detection of multiple pathogens. We first aligned sequences for the 16S rDNA genes of selected target bacteria and a panel of closely related organisms. From these data, we designed a pair of universal primers and multiple sets of species-specific PCR primers to amplify the target sequences; the universal primers were modified to include various degenerate bases and locked nucleic acids. In a single tube, 16S rDNA sequences were amplified by using the nested PCR primers under high temperature (that is, above 65°C) during the first stage of the MN-PCR procedure, when the target-species-specific PCR primers do not support amplification due to their short length. In addition, the concentration of the nested PCR primers during the first stage was adjusted to ensure that they were consumed and did not yield visible bands themselves. During the second stage, the enriched 16S rDNA sequences then served as templates for amplification of the species-specific fragments by using the multiple PCR primers at low annealing temperatures (that is, below 60°C). The results showed that our MN-PCR method detected as little as 1 fg of target bacterial DNA in a 20-µL reaction volume, whereas conventional multiplex PCR detected a minimum of 1 pg only. Compared with traditional multiplex PCR assays, our MN-PCR system is an effective and efficient culture-free process.

The role of Dby mRNA in early development of male mouse zygotes.

Ejaculated mammalian spermatozoa contain a complex yet specific population of mRNA. However, the possible roles that mRNA has in early zygotic and embryonic development remain unclear. We found that Dby mRNA is selectively retained in capacitated mouse spermatozoa, and is transferred into the oocyte during fertilization by reverse transcription-polymerase chain reaction even though no DBY protein expression is detected. The cellular location of Dby mRNA is seen in the post-acrosome region, and it comprises nearly half of the mouse spermatozoa in in situ hybridization. In contrast, transcripts of the control gene, Smcy, are not detected in capacitated mouse spermatozoa, although the H-Y antigen encoded by Smcy is expressed on the surface of the spermatozoa. In our microinjection experiment, the zygotic development rate of the as-Dby male pronucleus injection group was significantly lower than that of the as-Smcy male pronucleus injection group (35.9% vs. 95%, P = 0.001) and the as-Dby female pronucleus injection group (35.9% vs. 93.8%, P = 0.001). The rate of male-developed zygotes was also lower than that of the as-Smcy male pronucleus injection group (17.4% vs. 57.9%, P = 0.002) and the as-Dby female pronucleus injection group (17.4% vs. 54.1%, P = 0.002). Thus, we conclude that Dby mRNA is selectively retained in capacitated mouse spermatozoa, and it has an important role in the early zygotic development of male mouse zygotes. This might imply that spermatozoa mRNA is involved in early zygotic and embryonic stages of reproduction.

Nicotine induces cyclooxygenase-2 and prostaglandin E(2) expression in human umbilical vein endothelial cells.

Nicotine is a major component of cigarette smoking which may be involved in the progress of atherogenesis. In order to explain the mechanism of nicotine-induced endothelium dysfunction, we investigated the effects of nicotine on cyclooxygenase-2 (COX-2) and intercellular adhesion molecule-1 (ICAM-1) expression in human umbilical vein endothelial cells (HUVECs). Nicotine treatment increased the expressions of COX-2 at mRNA and protein level in a dose-dependent manner, following prostaglandin E(2) (PGE(2)) release enhancement. Pyrrolidine dithiocarbamate (PDTC, NF-kappaB inhibitor) and alpha-Bungarotoxin (alpha-Btx, nicotinic acetylcholine receptor antagonist) attenuated the nicotine-induced COX-2 expression and PGE(2) production. Furthermore, nicotine-induced ICAM-1 expression was reduced by NS-398 (selective COX-2 inhibitor). Taken together, the present study demonstrated that nicotine-induced COX-2 expression through NF-kappaB activation which mediated by nicotinic acetylcholine receptor and the induction of COX-2 was related to ICAM-1 expression.

Modified PCR methods for 3' end amplification from serial analysis of gene expression (SAGE) tags.

Serial analysis of gene expression (SAGE) is a powerful technique to study gene expression at the genome level. However, a disadvantage of the shortness of SAGE tags is that it prevents further study of SAGE library data, thus limiting extensive application of the SAGE method in gene expression studies. However, this problem can be solved by extension of the SAGE tags to 3' cDNAs. Therefore, several methods based on PCR have been developed to generate a 3' longer fragment cDNA corresponding to a SAGE tag. The list of modified methods is extensive, and includes rapid RT-PCR analysis of unknown SAGE tags (RAST-PCR), generation of longer cDNA fragments from SAGE tags for gene identification (GLGI), a high-throughput GLGI procedure, reverse SAGE (rSAGE), two-step analysis of unknown SAGE tags (TSAT-PCR), etc. These procedures are constantly being updated because they have characteristics and advantages that can be shared. Development of these methods has promoted the widespread use of the SAGE technique, and has accelerated the speed of studies of large-scale gene expression.

Semi-nested PCR analysis of unknown tags on serial analysis of gene expression.

Serial analysis of gene expression (SAGE) is a powerful technique for studying gene expression at the genome level. However, short SAGE tags limit the further study of related data. In this study, in order to identify a gene, we developed a semi-nested PCR-based method called the two-step analysis of unknown SAGE tags (TSAT-PCR) to generate longer 3'-end cDNA fragments from unknown SAGE tags. In the procedure, a modified lock-docking oligo(dT) with two degenerate nucleotide positions at the 3'-end was used as a reverse primer to synthesize cDNAs. Afterwards, the full-length cDNAs were amplified by PCR based on 5'-RACE and 3'-RACE. The amplified cDNAs were then used for the subsequent two-step PCR of the TSAT-PCR process. The first-step PCR was carried out at an appropriately low annealing temperature; a SAGE tag-specific primer was used as the sense primer, and an 18 bp sequence (universal primer I) located at the 5'-reverse primer end was used as the antisense primer. After 15-20 PCR cycles, the 3'-end cDNA fragments containing the tag could be enriched, and the PCR products could be used as templates for the second-step PCR to obtain the specific products. The second-step PCR was performed with a SAGE tag-specific primer and a 22-bp sequence (universal primer II) upstream of universal primer I at the 5'-reverse primer with a high annealing temperature. With our innovative TSAT-PCR method, we could easily obtain specific PCR products covering SAGE from those transcripts, especially low-abundance transcripts. It can be used as a method to identify genes expressed in different cell types.

Identification of the proteins related to cytochrome P450 induced by fenvalerate in a Trichoplusia ni cell line.

In order to reveal the metabolic reaction to the presence of fenvalerate mediated by P450 in insects, we used the trypan blue exclusion technique and 3-(4,5-dimethylthiazol)-2,5-diphenyltrazolium bromide (MTT) reduction assay to assess the vitality of Trichoplusia ni (Tn) cells treated with fenvalerate, and observed dose- and time-dependent changes in total cellular P450s. In addition, two-dimensional electrophoresis (2-DE) and matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF-MS) were used to identify the proteins involved in the fenvalerate reaction process. Finally, the cDNA of P450 fragments was cloned and real-time RT-PCR was performed. Our data showed that at the 0-15 mumol/L challenge concentration of fenvalerate, at which the vitality of Tn cells was not affected (p > 0.05), there was a tendency toward a dose- and time-response of total cellular P450s, which peaked at the 9 h (p < 0.05) and 12 h (p < 0.01) time points following 12.5 mumol/L stimulation with fenvalerate. The 2-DE assay detected more than 1300 protein spots in each two-dimensional gel, of which 33 spots displayed significant differences. Among the changed spots, three isoforms of P450 were identified. One of the three P450 cDNA fragments (CYP4L4) was cloned and sequenced, and its expression in treated Tn cells increased significantly (p < 0.01). It was found that fenvalerate induced the expression of P450s in insect cells. This suggests that fenvalerate could be metabolized by CYP4L4 through a hydroxylation reaction in insect cells.