5.9
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5.9
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2017 Vol. 44, No. 10

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RNA methylation regulates hematopoietic stem and progenitor cell development
Jason Ear, Shuo Lin
2017, 44(10): 473-474. doi: 10.1016/j.jgg.2017.09.004
Abstract (102) HTML PDF (4)
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Original research
Genome wide abnormal DNA methylome of human blastocyst in assisted reproductive technology
Guoqiang Li, Yang Yu, Yong Fan, Congru Li, Xiaocui Xu, Jialei Duan, Rong Li, Xiangjin Kang, Xin Ma, Xuepeng Chen, Yuwen Ke, Jie Yan, Ying Lian, Ping Liu, Yue Zhao, Hongcui Zhao, Yaoyong Chen, Xiaofang Sun, Jianqiao Liu, Jie Qiao, Jiang Liu
2017, 44(10): 475-481. doi: 10.1016/j.jgg.2017.09.001
Abstract (114) HTML PDF (9)
Abstract:
Proper reprogramming of parental DNA methylomes is essential for mammalian embryonic development. However, it is unknown whether abnormal methylome reprogramming occurs and is associated with the failure of embryonic development. Here we analyzed the DNA methylomes of 57 blastocysts and 29 trophectoderm samples with different morphological grades during assisted reproductive technology (ART) practices. Our data reveal that the global methylation levels of high-quality blastocysts are similar (0.30 ± 0.02, mean ± SD), while the methylation levels of low-quality blastocysts are divergent and away from those of high-quality blastocysts. The proportion of blastocysts with a methylation level falling within the range of 0.30 ± 0.02 in different grades correlates with the live birth rate for that grade. Moreover, abnormal methylated regions are associated with the failure of embryonic development. Furthermore, we can use the methylation data of cells biopsied from trophectoderm to predict the blastocyst methylation level as well as to detect the aneuploidy of the blastocysts. Our data indicate that global abnormal methylome reprogramming often occurs in human embryos, and suggest that DNA methylome is a potential biomarker in blastocyst selection in ART.
Vegfa signaling regulates diverse artery/vein formation in vertebrate vasculatures
Daqing Jin, Diqi Zhu, Yabo Fang, Yiwei Chen, Gaihong Yu, Weijun Pan, Dong Liu, Fen Li, Tao P. Zhong
2017, 44(10): 483-492. doi: 10.1016/j.jgg.2017.07.005
Abstract (109) HTML PDF (3)
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Vascular endothelial growth factor A (Vegfa) signaling regulates vascular development during embryogenesis and organ formation. However, the signaling mechanisms that govern the formation of various arteries/veins in various tissues are incompletely understood. In this study, we utilized transcription activator-like effector nuclease (TALEN) to generate zebrafish vegfaa mutants. vegfaa embryos are embryonic lethal, and display a complete loss of the dorsal aorta (DA) and expansion of the cardinal vein. Activation of Vegfa signaling expands the arterial cell population at the expense of venous cells during vasculogenesis of the axial vessels in the trunk. Vegfa signaling regulates endothelial cell (EC) proliferation after arterial-venous specification. Vegfa deficiency and overexpression inhibit the formation of tip cell filopodia and interfere with the pathfinding of intersegmental vessels (ISVs). In the head vasculature,vegfaa‒/‒ causes loss of a pair of mesencephalic veins (MsVs) and central arteries (CtAs), both of which usually develop via sprouting angiogenesis. Our results indicate that Vegfa signaling induces the formation of the DA at the expense of the cardinal vein during the trunk vasculogenesis, and that Vegfa is required for the angiogenic formation of MsVs and CtAs in the brain. These findings suggest that Vegfa signaling governs the formation of diverse arteries/veins by distinct cellular mechanisms in vertebrate vasculatures.
Roles for the VCP co-factors Npl4 and Ufd1 in neuronal function in Drosophila melanogaster
Dwayne J. Byrne, Mark J. Harmon, Jeremy C. Simpson, Craig Blackstone, Niamh C. O'Sullivan
2017, 44(10): 493-501. doi: 10.1016/j.jgg.2017.06.003
Abstract (75) HTML PDF (2)
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The VCP-Ufd1-Npl4 complex regulates proteasomal processing within cells by delivering ubiquitinated proteins to the proteasome for degradation. Mutations in VCP are associated with two neurodegenerative diseases, amyotrophic lateral sclerosis (ALS) and inclusion body myopathy with Paget's disease of the bone and frontotemporal dementia (IBMPFD), and extensive study has revealed crucial functions of VCP within neurons. By contrast, little is known about the functions of Npl4 or Ufd1in vivo. Using neuronal-specific knockdown of Npl4 or Ufd1 in Drosophila melanogaster, we infer that Npl4 contributes to microtubule organization within developing motor neurons. Moreover, Npl4 RNAi flies present with neurodegenerative phenotypes including progressive locomotor deficits, reduced lifespan and increased accumulation of TAR DNA-binding protein-43 homolog (TBPH). Knockdown, but not overexpression, of TBPH also exacerbates Npl4 RNAi-associated adult-onset neurodegenerative phenotypes. In contrast, we find that neuronal knockdown of Ufd1 has little effect on neuromuscular junction (NMJ) organization, TBPH accumulation or adult behaviour. These findings suggest the differing neuronal functions of Npl4 and Ufd1 in vivo.
Letter to the editor
Autophagy-related protein ATG5 regulates histone H2B mono-ubiquitylation by translational control of RNF20
Xin Huang, Lu Yang, Feng-Feng Cai, Yufei Wang, Ping Chen, Jiangsheng Mi, Chenghua Yu, Jianghua Lai, Xiaojun Zhang, Shuguang Wei, Wen Cui, Su Chen
2017, 44(10): 503-506. doi: 10.1016/j.jgg.2017.08.004
Abstract (74) HTML PDF (4)
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Efficient genetic manipulation in the developing brain of tree shrew using in utero electroporation and virus infection
Dan Xu, Yuangang Zhu, Zhiheng Xu
2017, 44(10): 507-509. doi: 10.1016/j.jgg.2017.09.007
Abstract (71) HTML PDF (4)
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