Parrots have been threatened by global trade to meet their high demand as pets. Controlling parrot trade is essential because parrots play a vital role in the ecosystem. Accurate species identification is crucial for controlling parrot trade. Parrots have been traded as eggs due to their advantages of lower mortality rates and more accessible transport than live parrots. A molecular method is required to identify parrot eggs because it is difficult to perform identification using morphological features. In this study, DNAs were obtained from 43 unidentified parrot eggs using a non-destructive sampling method. Partial cytochrome b (CYTB ) gene was then successfully amplified using polymerase chain reaction (PCR) and sequenced. Sequences newly obtained in the present study were compared to those available in the GenBank by database searching. In addition, phylogenetic analysis was conducted to identify species using available sequences in GenBank along with sequences reported in previous studies. Finally, the 43 parrot eggs were successfully identified as seven species belonging to two families and seven genera. This non-destructive sampling method for obtaining DNA and molecular identification might help control the trade of parrot eggs and prevent their illegal trade.
Many parrots are considered endangered species due to threats from human activities. Gender determination is of great importance for biological studies and the conservation of endangered parrots. However, like other birds, gender determination in parrots is hindered due to the lack of external dimorphism between males and females. A molecular approach using the chromo-helicase-DNA binding protein 1 (CHD1) gene is commonly used for sexing birds. This study aimed to determine the gender of parrots from Korean zoos based on amplification and visualization of the partial CHD1 gene. The samples of 13 parrot species were collected from three different zoos in Korea and the extracted DNA templates were amplified using CHD1 gene primers. The gender of 27 samples of 13 species was determined by visualizing the PCR products on an agarose gel. While male parrots were indicated by a single band, female parrots were indicated by double bands. The findings provide additional information, which might be helpful for the management and care of parrots in Korean zoos.
Calliphora is a genus from the family Calliphoridae, which includes blow flies and bottle flies. Calliphora flies are one of the most entomologically important fly species because of their relative time of arrival and colonization to animal carcasses. Until now there are only three complete mitochondrial genome recorded from the genus. In this study we added a new complete mitochondrial genome record from the species Calliphora lata. Although genome structures and gene orientations of the four Calliphora flies mitochondrial genome are identical. The size and nucleotide composition of the genomes are slightly different.
Type I clathrate was produced by arc melting and hot pressing and thermoelectric properties were investigated. Negative Seebeck coefficient at all temperatures measured, which means that the majority carriers are electrons. Electrical conductivity decreased by increasing temperature and thermal conductivity was 0.012 W/cmK at room temperature and dimensionless thermoelectric figure of merit (ZT) was 0.01 at 873K.
Ni-doped was prepared by the encapsulated induction melting and hot pressing, and its doping effects on the thermoelectric properties were investigated. Single phase was successfully obtained by the subsequent heat treatment at 773K for 24 hours. Nickel atoms acted as electron donors by substituting cobalt atoms. Thermoelectric properties were remarkably improved by the appropriate doping.
The encapsulated induction melting and hot pressing were employed to prepare Fe-doped skutterudites and their thermoelectric properties were investigated. Single phase was successfully obtained by the subsequent heat treatment at 773K for 24 hours. Iron atoms acted as electron acceptors by substituting cobalt atoms. Thermoelectric properties were remarkably improved by the appropriate doping. was found as an optimum composition for best thermoelectric properties in this work.
Post-translational modifications of nucleosomal core histones play important roles in biological processes via altering chromatin structure and creating target sites for proteins acting on chromatin. Molecular genetic studies with Arabidopsis have verified several epigenetic factors that regulate flowering time. However, the roles of chromatin remodeling factors have not been well explored in rice. Here, we identified chromatin remodeling factors, OsVIL1, 2, and 4 (Oryza sativa VIN3-LIKE) genes, that regulate grain yield. OsVIL proteins contain a plant homeodomain (PHD) finger, which is a conserved motif of histone binding proteins. We showed that plant height and number of spikelets per panicle were increased in the OsVIL2-overexpression (OsVIL2-OX) and osvil4 plants, respectively. Each mutants (OsVIL2-OX and osvil4) exhibited longer internodes and thicker stems than wild type controls. Histochemical analysis revealed that cells are smaller in OsVIL2-OX and osvil4 plants. We performed an RNA-seq using 1st internodes of WT and OsVIL2-OX stems and got the suppressed target genes in the OsVIL2-OX. OsCKX2, which encodes cytokinin oxidase/dehydrogenase is one of the suppressed genes in the OX plants and we verified decrease of that gene using qRT-PCR and closed chromatins of OsCKX2 were enriched in the OX plants by using ChIP. As results of these, cytokinins were enriched in the OX plants. These demonstrate that OsVIL2 and OsVIL4 antagonistically regulate plant height and number of spikelets by controlling cytokinin contents. Like OsVIL2-OX and osvil4 plants, besides, OsVIL1-OX plants were also shown increased plant height and biomass. We propose that OsVILs may be used for improving grain yield by increasing biomass.
The MethioninesulfoxidereductaseB2(MsrB2) gene catalyzes the reduction of free and protein-bound methionine sulfoxide to methionine and is known to provide tolerance to biotic and abiotic environmental stresses. There have yet to be any reports that MsrB2 enhances drought tolerance. Two drought-tolerant transgenic rice lines, L-8 (single copy) and L-23 (two copy), expressing the Capsicum annuum MsrB2 (CaMsrB2) gene were selected for stress tolerance phenotyping under drought stress conditions. CaMsrB2 enhanced relative water content (RWC), maintained substantial quantum yield (Fv/Fm ratio), and subsequently improved photosynthetic pigments. Interestingly, L-23, carrying two-copy T-DNA insertion, showed greater drought tolerance through more effective stomatal regulation, carotenoid concentration, and osmotic potential than the wild type. High-tech infrared technology (FLIR SC620) was used for the selection of stress-tolerant physiotypes. Later, the IR results were correlated with other tested physiological parameters. The IR images, average plant temperature, and physiological parameters of the treated plants were discussed in detail.
Korean Panax ginseng C. A. Meyer (P. ginseng) is a well-known and one of the most important tonic herbs used in traditional Korean medicine. The pharmacological effects of P. ginseng have been reported by many researchers. Nevertheless, little is known between the mechanism of action and the active compounds. In this study, we performed a comprehensive proteomic analysis and protein categorization in order to understand the physiological characteristics of the major components in the adventitious roots of P. ginseng. Whole proteins extracted from the cultured adventitious roots of P. ginseng were separated by two-dimensional polyacrylamide gel electrophoresis (2-DE). Among the 1000 spots which were detected by silver staining, 113 spots were labeled and identified by matrix-assisted laser desorption/ionization-time of flight-mass spectrometry (MALDI-TOF MS). Our results showed that 40 proteins were identified among the 113 spots, with a hit ratio of 35.3%. A number of proteins identified on the 2-DE gels (30%; 16 spots) were involved in energy metabolism. These proteomic data will be helpful to better understand the physiological and pharmacological effects of P. ginseng.
Five constituents were isolated from the stem of Acanthopanax senticosus. Their structures were elucidated as (-)-sesamin (1), iso-fraxidin (2), 5-hydroxymethylfurfural (3), syringin (4) and acanthoside D (5) by spectral analysis. Among these compounds, 5-hydroxymethylfurfural (3) was isolated for the first time from this plant.