Transient silencing of VvCSN5 enhances powdery mildew resistance in grapevine (Vitis vinifera)

As one of the most economically important fruit crops in the world, the grapevine (Vitis vinifera) suffers significant yield losses from various pathogens including powdery mildew caused by Erysiphe necator. In contrast, several wild Chinese grapevines, including Vitis pseudoreticulata accession Baihe-35-1, are highly resistant to powdery mildew pathogens. Here, we identified a grapevine gene CSN5 (COP9 signalosome complex subunit 5), designated VvCSN5, that was differentially expressed between the resistant ‘Baihe-35-1’ and susceptible ‘Thompson Seedless’ during powdery mildew isolate Erysiphe necator NAFU1 infection. Moreover, transient silencing of VvCSN5 in ‘Thompson Seedless’ leaves enhanced resistance to En NAFU1. This resistance manifested in cell wall callose deposition at attempted infection sites and hypersensitive response-like cell death of penetrated epidermal cells. Several defense-related marker genes (VvPR1, VvPR3, VvPAD4, and VvRBOHD) had higher basal expression levels in VvCSN5-silenced leaves. In addition, we found the structure and activity of CSN5 promoters in ‘Thompson Seedless’ and ‘Baihe-35-1’ were different, which may have been behind their different resistances to powdery mildew infection. Taken together, these results implied that grapevine CSN5 plays an important role in the response to powdery mildew infection.

     

Correlations between glycolysis with clinical traits and immune function in bladder urothelial carcinoma

Background: Glycolysis was a representative hallmark in the tumor microenvironment (TME), and we aimed to explore the correlations between glycolysis with immune activity and clinical traits in bladder urothelial carcinoma (BLCA).Methods: Our study obtained glycolysis scores for each BLCA samples from TCGA by a single-sample gene set enrichment analysis (ssGSEA) algorithm, based on a glycolytic gene set. The relationship between glycolysis with prognosis, clinical characteristics, and immune function were investigated subsequently.Results: We found that enhanced glycolysis was associated with poor prognosis and metastasis in BLCA. Moreover, glycolysis had a close correlation with immune function, and enhanced glycolysis increased immune activities. In other words, glycolysis had a positive correlation with immune activities. Immune checkpoints such as IDO1, CD274, were up-regulated in high-glycolysis group as well.Conclusion: We speculated that in BLCA, elevated glycolysis enhanced immune function, which caused tumor cells to overexpress immune checkpoints to evade immune surveillance. Inhibition of glycolysis might be a promising assistant for immunotherapy in bladder cancer.     

Combined gene family characterization and RNA-Seq to study the response of β-ketoacyl-CoA synthase to abiotic stress in rice (Oryza sativa L.)

Plant Growth Regulation - β-ketoacyl-CoA synthase is a key enzyme in the biosynthesis of over-long-chain fattty acids; thus, it plays a crucial role in plant resistance to stress. Herein, 33...     

溶藻弧菌群体基因组学研究

溶藻弧菌(Vibrio alginolyticus)是一种能够对人类以及鱼、虾、贝类等水产品致病的弧菌,给人类健康带来威胁,也给水产养殖业造成巨大的经济损失。目前该物种基于全基因组的遗传多样性和重要遗传元件研究报道较少。本研究对采集自全国4个省份的68株溶藻弧菌进行高通量测序,获得全基因组序列,并结合113株公开发表的全球序列数据,利用fineSTRUCTURE软件、VFDB毒力因子库和CARD、ResFinder耐药数据库,对溶藻弧菌的种群结构和毒力、耐药因子分别进行解析。结果表明:溶藻弧菌可分为谱系1和谱系2。两个谱系在美洲和亚洲均有分布,但欧洲仅分离到谱系1菌株;共鉴定发现12个克隆群,其中一个克隆群内菌株存在跨洋传播现象。该物种携带tlh、OmpU、IlpA等多种不同功能的毒力因子;毒力因子在两个谱系间的分布无特异性,但存在地域间差异:其中欧洲菌株携带VP1611、vcrD、vopD和fleR/flrC的比率低于其他地区,而基因IlpA的携带率则明显高于其他地区,我国广西菌株中fleR/flrC基因携带率低于其他省份,且不携带IlpA。多个基因组携带blaCARB-42、tet(34)、tet(35)、parE、CRP、rsmA、TxR和fos等与多种抗生素耐受相关的基因,其中TxR和fos基因在谱系2中的出现频率远高于谱系1;此外,TxR基因在亚洲菌株中的携带率高于美洲和欧洲地区,而在我国四川菌株中的携带率则低于其他省份。在5个基因组中(VA24、VA28、2014V-1011、ZJ-T和Vb1833)观察到质粒或ICE等携带多种耐药基因的大片段。本研究通过群体基因组学的研究方法,揭示了溶藻弧菌的种群结构组成和毒力、耐药相关元件的分布,为进一步了解溶藻弧菌的遗传特征和致病机制提供必要基础,为该病原的监测、预防和控制工作提供科学支撑。     

LncRNA MALAT1 mediates doxorubicin resistance of hepatocellular carcinoma by regulating miR-3129-5p/Nova1 axis

Molecular and Cellular Biochemistry - Drug resistance is one of the major challenges for cancer therapies. In recent years, research on disease-related molecular signaling pathways has become the...     

Post-translational modification of RNA m6A demethylase ALKBH5 regulates ROS-induced DNA damage response

Faithful genome integrity maintenance plays an essential role in cell survival. Here, we identify the RNA demethylase ALKBH5 as a key regulator that protects cells from DNA damage and apoptosis during reactive oxygen species (ROS)-induced stress. We find that ROS significantly induces global mRNA N⁶-methyladenosine (m⁶A) levels by modulating ALKBH5 post-translational modifications (PTMs), leading to the rapid and efficient induction of thousands of genes involved in a variety of biological processes including DNA damage repair. Mechanistically, ROS promotes ALKBH5 SUMOylation through activating ERK/JNK signaling, leading to inhibition of ALKBH5 m⁶A demethylase activity by blocking substrate accessibility. Moreover, ERK/JNK/ALKBH5-PTMs/m⁶A axis is activated by ROS in hematopoietic stem/progenitor cells (HSPCs) in vivo in mice, suggesting a physiological role of this molecular pathway in the maintenance of genome stability in HSPCs. Together, our study uncovers a molecular mechanism involving ALKBH5 PTMs and increased mRNA m⁶A levels that protect genomic integrity of cells in response to ROS.     

SARS-CoV-2 nucleocapsid and Nsp3 binding: an in silico study

Archives of Microbiology - Severe acute respiratory syndrome virus 2 (SARS-CoV-2) belongs to the single-stranded positive-sense RNA family. The virus contains a large genome that encodes four...     

黄河口近海海草床浮游-底栖营养传递特征

为了探寻海草床浮游-底栖营养传递耦合特征,于2017年7月对黄河口近海海草床碳源和消费者功能群进行样品采集和碳氮稳定同位素（δ¹³C和δ¹⁵N）测定,计算了消费者功能群的营养级,利用基于贝叶斯的稳定同位素混合模型定量化消费者功能群的食源组成,计算了消费者功能群的浮游、底栖营养贡献比例。结果表明：黄河口近海海草床的碳源和消费者功能群的δ¹³C和δ¹⁵N值均呈现显著性差异（P<0.05）,浮游碳源的δ¹³C值显著低于底栖碳源,消费者功能群的营养级范围为1.49-4.20。浮游动物和腹足类分别由浮游和底栖营养传递途径提供能量来源,其余消费者功能群共同依赖于这两种营养传递路径。消费者功能群随着浮游营养贡献比例的增加,其δ¹³C值逐渐降低。反之,随着底栖营养贡献比例的增加,其δ¹³C值逐渐增加。这与浮游碳源和底栖碳源的δ¹³C值的分化现象一致。对该海草床营养传递特征的系统性定量化解析有助于了解海草床的能量传递模式,为海草床的生态保护和修复提供系统性视角。     

代谢工程发展30年

代谢工程学科建立30年以来先后与分子生物学、系统生物学和合成生物学发生深度的交叉融合,并在此基础上获得了飞速发展,极大地促进了生物技术产业的进步和升级。文中首先基于SCI论文发表情况对30年来代谢工程学术研究现状和我国在该领域的地位和影响力进行了分析,随后总结了近10年来系统生物学方法和合成生物学的主要使能技术在代谢工程中的应用。最后讨论了目前代谢工程发展中存在的主要问题和今后的发展趋势。