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Mcintyre Hewitt posted an update 6 months, 1 week ago
The obtained results indicated significant factors affecting somaclonal variability and the appearance of changes in the genome, and demonstrated a lack of dependence between phenotype and the number of genomic polymorphisms. Leptin has been proved to play critical roles in energy metabolism, body weight regulation, food intake, reproduction and immunity in mammals. However, its roles are still largely unclear in fish. Here, we report two leptin genes (lepA and lepB) from the Northern snakehead (Channa argus) and their transcriptions in response to different feeding status. R428 clinical trial The snakehead lepA is 781 bp in length and contains a 480 bp open reading frame (ORF) encoding a 159-aa protein, while the snakehead lepB is 553 bp in length and contains a 477 bp ORF encoding a 158-aa protein. Multi-sequences alignment, three-dimensional (3D) model prediction, syntenic and genomic comparison, and phylogenetic analysis confirm two leptin genes are widely existing in teleost. Tissue distribution revealed that the two leptin genes exhibit different patterns. In a post-prandial experiment, the hepatic lepA and brain lepB showed a similar transcription pattern. In a long-term (2-week) fasting and refeeding experiment, the hepatic lepA and brain lepB showed a similar transcription change pattern induced by food deprivation stimulation but differential changes after refeeding. These findings suggest snakehead lepA and lepB are differential both in tissue distribution and molecular functions, and they might play as an important regulator in energy metabolism and food intake in fish, respectively. Late embryogenesis abundant (LEA) proteins are involved in plant stress responses and osmotic regulation, and they are accumulated in the late embryonic stage. There have been no previous genome-wide analyses of the LEA gene family members in wheat and its close relatives. In this study, 281, 53, 151, 89, 99, and 99 LEA genes were identified in wheat (Triticum aestivum), Triticum urartu, Triticum dicoccoides, Aegilops tauschii, barley, and Brachypodium distachyon, respectively. The wheat LEA gene family (TaLEA genes) was divided into eight subfamilies according to the conserved domains. All TaLEA genes contain very few introns ( less then 3) and they are unevenly distributed on the 21 chromosomes. We identified 39 pairs of tandem duplication genes and 9 pairs of segmental duplication genes in the wheat LEA gene family. This proved that the tandem duplication and segmental duplication played an important role in the expansion of the TaLEA gene family. According to published transcriptome data and qRT-PCR analysis, the TaLEA genes exhibit different tissue expression patterns and they are regulated by various abiotic stresses, especially salt and cold stress. This study provides a comprehensive understanding of the wheat LEA gene family. The pharmacogenomics has lately become a focal field of research that investigates the influence of genetic variations of drug-metabolizing enzymes and their receptors and downstream proteins on the interindividual variability in response to medications and adverse drug reactions. Therefore, it is significantly important to study and analyze the variations in drug response between different ethnic groups and populations. The current study aimed to detect the distribution of the genotype and allele frequencies in several very important pharmacogenetic (VIP) gene polymorphisms in the Jordanian population of Arab descent. This study involved 500 unrelated Jordanian individuals of Arab descent. A total of 65 VIP variants located within 33 candidate genes were randomly selected from the PharmGKB database and genotyped using the MassARRAY (iPLEX GOLD) system. The chi-square test was used to evaluate the significant differences of minor allele and genotype frequencies between the Jordanian and other populations including CHE, ASW, CEU, CHB, CDX, GIH, GBR, JPT, LWK, MXL, TSI, YRI, CAR, and ACB. This study revealed six variants were not in Hardy Weinberg equilibrium (HWE) (P-value > 0.05) and ten SNPs showed monomorphic features. Most of the remaining forty-nine variant frequencies were significantly different from the compared ethnic groups (P-value less then 0.05). The results of this study may be helpful to develop safer treatment by applying the concept of personalized medicine based on the profile of VIP pharmacogene variants of the Jordanian population of Arab descent. V.Krüppel-like factor13 (klf13), a member of the Krüppel-like factor family, plays a vital role in cell proliferation and differentiation. When sea cucumber Apostichopus japonicus is attacted by predators, it can spit viscera in order to escape attack, and then complete the intestine regeneration process within 15 days. However, the potential role of klf13 from A. japonicus (Aj-klf13) in the intestine regeneration of sea cucumber A. japonicus still remains unknown. In present paper, the full-length cDNA of klf13 gene from A. japonicus was cloned by RACE techniques, and it was composed of 2496 bp, including a 245 bp 5′ UTR, a 1396 bp 3′ UTR and a 855 bp open reading frame, which encoded a polypeptide of 284 amino acids and C2H2 zinc finger domains. The expression level of Aj-klf13 showed an increasing trend in intestine regeneration process of sea cucumber, and it reached the highest at 6 days, returning to the normal at 15 days. By western blot, the expression level of Aj-KLF13 protein was basically consistent with that of Aj-klf13 gene. The expression locations of protein by immunofluorescence indicated that Aj-KLF13 was widely expressed in the normal physiological state and intestine regeneration process of sea cucumbers, which was in the nucleus. There was tissue specificity of the protein, which was mainly distributed in luminal epithelium and coelomic epithelium. These results indicate that Aj-klf13 plays a crucial role in the intestine regeneration process of sea cucumber A. japonicus. Magnoliaceae is a primitive taxon in the angiosperms, comprising approximately 240 species in 2-17 genera. Many of them have been widely cultivated due to their horticultural and medicinal value. However, there are uncertainties and controversies about the delimitation of the genera except Liriodendron L. in this family. The Yulania taxa is also the focus of dispute at the genus and section levels. In this study, we compared ten Yulania plastomes, including the newly sequenced M. polytepala. The plastome-wide comparative analysis demonstrated that 1) Yulania cp genomes were highly conserved, and the majority differences existed in IR regions with the loss/retention of trnV-GAC or ycf15 gene, 2) mutational hotspots with high levels of nucleotide diversity (Pi > 0.02) existed in both coding (rpoA, and ycf1) and no-coding (ccsA-ndhD, ndhE-ndhG, ndhF-rpl32, petA-psbJ, rpl32-trnL, rps3-rps19, and trnH-psbA) regions among the genus Yulania. Combined with other data from Magnoliaceae plastomes, our reconstructed molecular phylogenetic tree revealed that Yulania is monophyletic, separated from the genus Magnolia L.
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