5.9
CiteScore
5.9
Impact Factor

2016 Vol. 43, No. 7

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Original research
Npy deletion in an alcohol non-preferring rat model elicits differential effects on alcohol consumption and body weight
Bin Qiu, Richard L. Bell, Yong Cao, Lingling Zhang, Robert B. Stewart, Tamara Graves, Lawrence Lumeng, Weidong Yong, Tiebing Liang
2016, 43(7): 421-430. doi: 10.1016/j.jgg.2016.04.010
Abstract (64) HTML PDF (1)
Abstract:
Neuropeptide Y (NPY) is widely expressed in the central nervous system and influences many physiological processes. It is located within the rat quantitative trait locus (QTL) for alcohol preference on chromosome 4. Alcohol-nonpreferring (NP) rats consume very little alcohol, but have significantly higher NPY expression in the brain than alcohol-preferring (P) rats. We capitalized on this phenotypic difference by creating an Npy knockout (KO) rat using the inbred NP background to evaluate NPY effects on alcohol consumption. Zinc finger nuclease (ZNF) technology was applied, resulting in a 26-bp deletion in the Npy gene. RT-PCR, Western blotting and immunohistochemistry confirmed the absence of Npy mRNA and protein in KO rats. Alcohol consumption was increased in Npy+/− but not Npy−/− rats, while Npy−/− rats displayed significantly lower body weight when compared to Npy rats. In whole brain tissue, expression levels of Npy-related and other alcohol-associated genes, Npy1r, Npy2r, Npy5r, Agrp, Mc3r, Mc4r, Crh and Crh1r, were significantly greater in Npy−/− rats, whereas Pomc and Crhr2 expressions were highest in Npy+/− rats. These findings suggest that the NPY-system works in close coordination with the melanocortin (MC) and corticotropin-releasing hormone (CRH) systems to modulate alcohol intake and body weight.
The coiled-coil domain containing protein Ccdc136b antagonizes maternal Wnt/β-catenin activity during zebrafish dorsoventral axial patterning
Shi Wei, Hanqiao Shang, Yu Cao, Qiang Wang
2016, 43(7): 431-438. doi: 10.1016/j.jgg.2016.05.003
Abstract (81) HTML PDF (1)
Abstract:
The coiled-coil domain containing protein CCDC136 is a putative tumor suppressor and significantly down-regulated in gastric and colorectal cancer tissues. However, little is known about its biological functions during vertebrate embryo development. Zebrafish has two CCDC136 orthologs, ccdc136a and ccdc136b, but only ccdc136b is highly expressed during early embryonic development. In this study, we demonstrate that ccdc136b is required for dorsal-ventral axial patterning in zebrafish embryos. ccdc136b morphants display strongly dorsalized phenotypes. Loss- and gain-of-function experiments in zebrafish embryos and mammalian cells show that Ccdc136b is a crucial negative regulator of the Wnt/β-catenin signaling pathway, and plays a critical role in the establishment of the dorsal-ventral axis. We further find that Ccdc136b interacts with APC, promotes the binding affinity of APC with β-catenin and then facilitates the turnover of β-catenin. These results provide the first evidence that CCDC136 regulates zebrafish dorsal-ventral patterning by antagonizing Wnt/β-catenin signal transduction and suggest a potential mechanism underlying its suppressive activity in carcinogenesis.
Retarded Embryo Development 1 (RED1) regulates embryo development, seed maturation and plant growth in Arabidopsis
Qian Du, Huanzhong Wang
2016, 43(7): 439-449. doi: 10.1016/j.jgg.2016.04.009
Abstract (89) HTML PDF (8)
Abstract:
Plant seeds accumulate large amounts of protein and carbohydrate as storage reserves during maturation. Thus, understanding the genetic control of embryo and seed development may provide bioengineering tools for yield improvement. In this study, we report the identification of Retarded Embryo Development 1 (RED1) gene in Arabidopsis, whose two independent T-DNA insertion mutant lines, SALK_085642 (red1-1) and SALK_022583 (red1-2), show a retarded embryo development phenotype. The embryogenesis process ceases at the late heart stage in red1-1 and at the bent-cotyledon stage in red1-2, respectively, resulting in seed abortion in both lines. The retarded embryo development and seed abortion phenotypes reverted to normal when RED1 complementation constructs were introduced into mutant plants. Small red1-2 homozygous plants can be successfully rescued by culturing immature seeds, indicating that seed abortion likely results from compromised tolerance to the desiccation process associated with seed maturation. Consistent with this observation, red1-2 seeds accumulate less protein, and the expression of two late embryo development reporter transgenes, LEA::GUS and β-conglycinin::GUS, was significantly weak and started relatively late in the red1-2 mutant lines compared to the wild type. The RED1 gene encodes a plant specific novel protein that is localized in the nucleus. These results indicate that RED1 plays important roles in embryo development, seed maturation and plant growth.
Molecular dynamics of de novo telomere heterochromatin formation in budding yeast
Yi-Min Duan, Bo-O. Zhou, Jing Peng, Xia-Jing Tong, Qiong-Di Zhang, Jin-Qiu Zhou
2016, 43(7): 451-465. doi: 10.1016/j.jgg.2016.03.009
Abstract (82) HTML PDF (0)
Abstract:
In the budding yeast Saccharomyces cerevisiae, heterochromatin structure is found at three chromosome regions, which are homothallic mating-type loci, rDNA regions and telomeres. To address how telomere heterochromatin is assembled under physiological conditions, we employed a de novo telomere addition system, and analyzed the dynamic chromatin changes of the TRP1 reporter gene during telomere elongation. We found that integrating a 255-bp, but not an 81-bp telomeric sequence near theTRP1 promoter could trigger Sir2 recruitment, active chromatin mark(s)' removal, chromatin compaction and TRP1 gene silencing, indicating that the length of the telomeric sequence inserted in the internal region of a chromosome is critical for determining the chromatin state at the proximal region. Interestingly, Rif1 but not Rif2 or yKu is indispensable for the formation of intra-chromosomal silent chromatin initiated by telomeric sequence. When an internal short telomeric sequence (e.g., 81 bp) gets exposed to become a de novo telomere, the herterochromatin features, such as Sir recruitment, active chromatin mark(s)' removal and chromatin compaction, are detected within a few hours before the de novo telomere reaches a stable length. Our results recapitulate the molecular dynamics and reveal a coherent picture of telomere heterochromatin formation.
Letter to the editor
Interaction between Bms1 and Rcl1, two ribosome biogenesis factors, is evolutionally conserved in zebrafish and human
Yong Wang, Qinfang Zhu, Ling Huang, Yanqing Zhu, Jun Chen, Jinrong Peng, Li Jan Lo
2016, 43(7): 467-469. doi: 10.1016/j.jgg.2016.05.001
Abstract (117) HTML PDF (5)
Abstract: