The sumac Rhus chinensis Mill. is an economically and ecologically important shrub or tree species in the family of Anacardiaceae with a wide distribution in East to Southeast Asia. We assembled the complete chloroplast genome of 159,187 bp in length and the GC content of 37.8%. The genome encoded 132 genes, including 86 protein-coding genes, 37 tRNA genes, 8 rRNA genes, and 1 pseudogene, and 77 SSRs were identified as well as the interval regions, totaling 46,425 bp in length. The mauve alignment revealed one gene rearrangement among the Rhus species. All the SSRs were divided into five types, most of which consisted of mono- and tri- repeat motifs. Our genome exhibited the longest size and more annotated genes compared to the three other genomes of R. chinensis reported in GenBank. We also discovered some relatively highly variable regions in the complete chloroplast genomes of the Rhus species. The ML phylogenetic analysis of the available chloroplast sequences of the Anacardiaceae well supported the monophyly of each tribe and each genus; the tribe Rhoideae was close to the tribe Anacardiaceae with a high support of 100%, and they then grouped with the tribe Spondiadeae. R. chinensis was sister to R. potaninii, and they then grouped with the species R. typhina.
The main objective of this study is to investigate the role of public service motivation, organization value and reward on performance of public sector employee in the Henan, China. Data is collected from adopted instrument from earlier studies. The researcher has collected data from 396 respondents by using online survey and self-administrative collection method. For analysis of data, SPSS and SmartPLS software were used. It has been concluded that role of organization values does not have a relationship with the performance of employees. The public service motivation and reward expectation plays an important role in employee job performance. The researcher found that earlier researchers’ assumption, the non-monetary benefits in public sector job least important are not valid in context of China Public sector employees. This research concludes that the employees who are working in public sector always look for both monetary and non-monetary benefits.
Dracocephalum heterophyllum (Lamiaceae: tribe Mentheae) is an annual aromatic herb native to East Asia with a long record of human uses, including medicinal, alimentary, and ornamental values. However, no information is available about its molecular biology, and no genomic study has been performed on D. heterophyllum. Here, we report the complete chloroplast (cp) genome of D. heterophyllum and a series of comparative genomic analyses between this and closely related species of Lamiaceae. Results indicated that the cp genome has a typical circular structure of 150,869 bp in length, consisting of a long single-copy (LSC) region with 82,410 bp, a short single-copy (SSC) region with 17,098 bp, and two inverted repeat (IR) regions of 51,350 bp. A total of 133 genes were identified, including 37 tRNA genes, 8 rRNA genes and 88 protein-coding genes, with a GC content of 37.8%. The gene content, organization, and GC values observed here were similar to those of other Dracocephalum species. We detected 99 different simple sequence repeat loci, and the codon usage analysis revealed a preferential use of the Leu codon with an A/U ending. Comparative analysis of cp genome sequences revealed five highly variable regions with remarkably higher Pi values (>0.03). The mean Ka/Ks between D. heterophyllum and three other Dracocephalum species ranged from 0.01079 (psbB) to 1.0497 (ycf2). Two cp genes, ycf2 and rps11, were proven to have high ratios of Ka/Ks, implying that cp genes may had undergone positive selection in the evolutionary history. We performed multiple sequence alignments using the cp genome of 22 species and constructed maximum likelihood (ML) and Bayesian trees, and found that D. heterophyllum were more closely related to D. moldavica and D. palmatum. In addition, the phylogenetic relationships between Dracocephalum and other members of Lamiaceae were consistent with previous results. These results are valuable for further formulating effective strategies of conservation and management for species in Dracocephalum, as well as providing a foundation for future research on the genetic resources of Dracocephalum.
Pistacia chinensis Bunge (Anacardiaceae: Rhoideae) is a rare resource plant that originated in China, and has been widely used in horticultural and production field. In this study, we sequenced the complete chloroplast genome of P. chinensis on the Illumina platform by shotgun genome skimming method. The complete chloroplast genome of P. chinensis was 160,596 bp in length with the GC content 37.9%, which was comprised of a large single copy (LSC) region of 88,310 bp, a small single copy (SSC) region of 19,090bp, and a pair of inverted repeats (IRA/IRB) of 26,598 bp. The chloroplast genome encoded 132 genes including 87 protein-coding genes, 37 tRNA genes and 8 rRNA genes. Phylogenetic analysis constructed using maximum likelihood (ML) method strongly supported the monophyly of each genus used in the family Anacardiaceae, and the genus Pistacia is a sister group to the genus Rhus with 100% bootstrap value. Pistacia chinensis Bunge was sister to P. vera and then grouped with Pistacia weinmaniifolia as a cluster.
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