Karyotype analysis and ribosomal gene localization of spotted knifejaw Oplegnathus punctatus.

The spotted knifejaw, Oplegnathus punctatus, is an important aquaculture fish species in China. To better understand the chromosomal microstructure and the karyotypic origin of this species, cytogenetic analysis was performed using Giemsa staining to identify metaphase chromosomes, C-banding to detect C-positive heterochromatin, silver staining to identify the nucleolus organizer regions (Ag-NORs), and fluorescence in situ hybridization (FISH) for physical mapping of the major (18S rDNA) and minor (5S rDNA) ribosomal genes. The species showed a karyotype of 2n = 48 for females, composed of 2 submetacentric and 46 telocentric chromosomes, with a fundamental number (FN) = 50, while the karyotype of males was 2n = 47, composed of 1 exclusive large metacentric, 2 submetacentric, and 44 telocentric chromosomes, with FN = 50. These karyotype results suggest that O. punctatus might have an X1X1X2X2/X1X2Y multiple sex chromosome system. C-positive heterochromatin was distributed in the centromeres of all chromosomal pairs and in the terminal portions of some chromosomes. A single pair of Ag-positive NORs was found to be localized at the terminal regions of the short arms of the subtelocentric chromosome pair, which was supported by FISH of 18S rDNA. After FISH, 5S rDNA were located on the interstitial regions of the smallest telocentric chromosome pair. This study was the first to identify the karyotype of this species and will facilitate further research on karyotype evolution in the order Perciformes.

Identification of transgenic cloned dairy goats harboring human lactoferrin and methylation status of the imprinted gene IGF2R in their lungs.

Dairy goat is a good model for production of transgenic proteins in milk using somatic cell nuclear transfer (SCNT). However, animals produced from SCNT are often associated with lung deficiencies. We recently produced six transgenic cloned dairy goats harboring the human lactoferrin gene, including three live transgenic clones and three deceased transgenic clones that died from respiratory failure during the perinatal period. Imprinted genes are important regulators of lung growth, and may be subjected to faulty reprogramming. In the present study, first, microsatellite analysis, PCR, and DNA sequence identification were conducted to confirm that these three dead kids were genetically identical to the transgenic donor cells. Second, the CpG island methylation profile of the imprinted insulin-like growth factor receptor (IGF2R) gene was assessed in the lungs of the three dead transgenic kids and the normally produced kids using bisulfite sequencing PCR. In addition, the relative mRNA level of IGF2R was also determined by real-time PCR. Results showed that the IGF2R gene in the lungs of the dead cloned kids showed abnormal hypermethylation and higher mRNA expression levels than the control, indicating that aberrant DNA methylation reprogramming is one of the important factors in the death of transgenic cloned animals.

Source of bacterial RNA in chronic otitis media with effusion.

The purpose of this study was to investigate whether the bacterial RNA detected by polymerase chain reaction (PCR) and reverse transcription (RT)-PCR methods in middle ear effusion (MEE) for pediatric chronic otitis media with effusion (OME) originated from live bacteria. Degradation of RNA was observed by spectroscopic analysis; we also investigated the effect of MEE on the digestive activity of RNase. The optical density of RNA solution was stable within 3 h. MEE could not degrade the RNA, while RNase could rapidly digest the RNA. MEE significantly inhibited the digestive activity of RNase, and the inhibitory effect was correlated with MEE concentration. The bacterial DNA and RNA detected by PCR and RT-PCR methods may not originate from live bacteria, but might instead originate from residues from previous bacterial infection(s). Chronic OME is not an infection of live bacteria, and therefore, antibiotics should be used with caution for clinical treatment of pediatric chronic OME.