RESUMO
2-Oxoglutarate/Fe(II)-dependent dioxygenases (2-ODD) play an important role in plant primary and secondary metabolism. Based on the high-throughput sequencing platform Illumina NovaSeq 6000, the transcriptome of Salvia apiana Jepson was sequenced, and the obtained reads were de novo assembled. A total of 38 534 unigenes were obtained from the transcriptome. The assembled unigenes were annotated and 29 982 unigenes were given functional annotations. The 2-ODD genes were identified from the assembled S. apiana transcriptome database by bioinformatics methods, and the genes were analyzed, including the homology of the sequences, physicochemical characteristics, signal peptides, transmembrane domains, subcellular localization, secondary structure and tertiary structure, etc. The evolutionary relationships and the expression patterns of the identified 2-ODD genes were also analyzed. 39 full-length 2-ODD genes were identified from the transcriptome of S. apiana. The average length of these 2-ODD encoding proteins was 320 amino acids, the molecular weight was about 36.00 kDa, and most of them were hydrophilic proteins. Phylogenetic analysis divided these 2-ODD genes into several subfamilies. Gene expression analysis indicated that the 2-ODD genes were expressed in different parts of S. apiana, and the expression level of most genes was much higher in roots than that in leaves. This study can lay a foundation for further study of 2-ODD genes in S. apiana.
RESUMO
<p><b>OBJECTIVE</b>To establish differential proteomics profiles of glioblastoma cell lines from Chinese, and to provide reference for future basic studies.</p><p><b>METHODS</b>Total protein was extracted from 3 glioblastoma cell lines, CHG-5, TJ899 and TJ905. After normalization, the total protein was presented by two-dimensional (2D) electrophoresis, scanned and analyzed. Some of the identified protein spots were verified by immunocytochemistry of cell lines and immunohistochemistry of solid tumors. The glia cells were used as the control throughout the study.</p><p><b>RESULTS</b>A total of 13 differential protein spots were selected, and eventually 10 were identified as unique proteins. These 10 proteins were involved in cytoskeleton forming, cellular metabolism, tumor migration, stress and inflammatory reaction. Immunocytochemistry and immunohistochemistry further confirmed these proteins present in the solid tumors.</p><p><b>CONCLUSION</b>Distinct differential proteomics profiles exist in glioblastoma cell lines and normal glia cells, likely related to the transformation of normal glia to glioma.</p>