QTL-seq identifies an early flowering QTL located near Flowering Locus T in cucumber

Key message

Next-generation sequencing enabled a fast discovery of a major QTL controlling early flowering in cucumber, corresponding to the FT gene conditioning flowering time in Arabidopsis.

Abstract

Next-generation sequencing technologies are making it faster and more efficient to establish the association of agronomic traits with molecular markers or candidate genes, which is the requirement for marker-assisted selection in molecular breeding. Early flowering is an important agronomic trait in cucumber (Cucumis sativus L.), but the underlying genetic mechanism is unknown. In this study, we identified a candidate gene for early flowering QTL, Ef1.1 through QTL-seq. Segregation analysis in F₂ and BC₁ populations derived from a cross between two inbred lines “Muromskij” (early flowering) and “9930” (late flowering) suggested quantitative nature of flowering time in cucumber. Genome-wide comparison of SNP profiles between the early and late-flowering bulks constructed from F₂ plants identified a major QTL, designated Ef1.1 on cucumber chromosome 1 for early flowering in Muromskij, which was confirmed by microsatellite marker-based classical QTL mapping in the F₂ population. Joint QTL-seq and traditional QTL analysis delimited Ef1.1 to an 890 kb genomic region. A cucumber gene, Csa1G651710, was identified in this region, which is a homolog of the FLOWERING LOCUS T (FT), the main flowering switch gene in Arabidopsis. Quantitative RT-PCR study of the expression level of Csa1G651710 revealed significantly higher expression in early flowering genotypes. Data presented here provide support for Csa1G651710 as a possible candidate gene for early flowering in the cucumber line Muromskij.     

A new species of Lysimachia (Myrsinaceae) from Dabieshan Mountain,China

A new species of Myrsinaceae, Lysimachia jinzhaiensis S.B. Zhou & K. Liu, is described and illustrated from Dabieshan mountain, Anhui, China. It is similar to L. christiniae in the prostrate stem, opposite leaves, yellow flowers born singly in leaf axils, but differs by being glabrous throughout or glandular on young parts, and having quadrangular stem, corolla with densely transparent glandular, orange-red corolla base with lobes being significantly overlapping and contorting to left in bud. Moreover, L. jinzhaiensis have a different karyotype, formulated as 2n = 2m + 2sm + 10st (2SAT) + 10t.     

Current Perspectives for Management of Acute Respiratory Insufficiency in Premature Infants with Acute Respiratory Syndrome

Current perspectives for management of acute respiratory insufficiency in premature infants with acute respiratory syndrome and the pathology of acute respiratory insufficiency in the preterm infant, including the current therapy modalities on disposition are presented. Since the therapeutical challenge and primary clinical goal are to normalize ventilation ratio and lung perfusion, when respiratory insufficiency occurs, it is very important to introduce the respiratory support as soon possible, in order to reduce development of pulmonary cyanosis and edema, and intrapulmonary or intracardial shunts. A characteristic respiratory instability that reflects through fluctuations in gas exchange and ventilation is often present in premature infants. Adapting the respiratory support on a continuous basis to the infant’s needs is challenging and not always effective. Although a large number of ventilation strategies for the neonate are available, there is a need for additional consensus on management of acute respiratory distress syndrome in pediatric population lately redefined by Berlin definition criteria, in order to efficiently apply various modes of respiratory support in daily pediatrician clinical use.     

太湖浮游纤毛虫群落结构及其与环境因子的关系

用定量蛋白银染色法,对太湖浮游纤毛虫进行定性和定量研究,同时用多元统计方法分析生物和非生物因子对其影响。在全湖设置32个点位进行季度采样,共检出117种纤毛虫,隶属于3纲、15目、78属,其中95种鉴定到种的水平。纤毛虫平均丰度27 170个/L(1 500—139 150个/L),平均生物量600.6μg/L(16.7—8736.0μg/L),以寡毛目、前口目、盾纤目、缘毛目和钩刺目为主。优势种包括:浮游藤壶虫、趣尾毛虫、顶口睥睨虫、银灰膜袋虫、水生钟虫复合种、钟形钟虫、杯铃壳虫、双叉弹跳虫、大弹跳虫、短列裂隙虫、小裂隙虫、圆筒状似铃壳虫。纤毛虫群落结构空间异质性较高,丰度上呈现从南向北、从敞水区向沿岸河口区逐渐增加的趋势;北部湖区以小个体的寡毛目、盾纤目、前口目为主,而南部主要以大个体的寡毛目为主;从功能摄食类群上看,北部各点以食菌种类为主,而南部以食藻种类居多。该类群季节变化明显,于夏季出现丰度峰值,生物量是冬、夏季显著高于春、秋季。通过CCA多元分析发现,太湖纤毛虫群落结构差异主要与水体营养水平、桡足类数量和pH值等有关,且在不同季节由不同的环境因子调控。     

rhddADAM15抑制肝癌细胞Bel-7402增殖的作用研究

ADAMl5属于跨膜蛋白ADAM家族中的一员,在乳腺癌、宫颈癌、卵巢癌等多种实体瘤中均发现其表达量提高。ADAMl5在降解细胞外基质、介导细胞的黏附、细胞间信号转导及在肿瘤发展进程中起到重要作用。因其去整合素区域含有RGD序列,ADAMl5可与多种整合素相互作用。在前期工作中,实验组利用大肠杆菌表达系统表达了重组人ADAMl5去整合素区域蛋白,记作rhddADAMl5。该研究将进一步针对rhddADAMl5抑制肝癌细胞Bel-7402增殖的机理进行分析及探讨。SRB法显示,rhddADAMl5可抑制Bel-7402细胞增殖并呈剂量依赖性,IC50为1．14gmol／L;利用DAPI核染发现,rhddADAMl5可显著诱导Bel-7402细胞凋亡;流式细胞仪分析发现,rhddAD—AMl5浓度为6gmol／L时,（87．44±7．25）％的细胞发生凋亡;PI单染分析细胞周期表明,rhddADAMl5作用后,部分Bel-7402细胞周期被阻滞于S期及G2／M期,并呈剂量依赖性,4gmol／LrhddADAMl5处理后G0／Gl期含量下降约14％;Westernblot分析显示,rhddADAMl5可下调Bel-7402细胞周期蛋白CDC26的表达,抑制CDC2-TyrM的去磷酸化,引起G2／M期的阻滞。     

B-Myb稳定过表达H1299细胞株的构建与分析

B—Myb是Myb家族的成员之一,在细胞周期和癌变过程中具有重要作用。但其在肺癌中的作用及其分子机制仍不清楚。为了研究B—Myb在肺癌中的作用,构建了B-Myb稳定过表达的H1299肺癌细胞株。流式细胞术和MTT检测的结果表明,B—Myb稳定过表达导致G1期细胞减少,S期细胞增加进而促进细胞增殖：克隆形成实验及Transwell的结果表明,B—Myb稳定过表达显著增强H1299细胞的克隆形成、侵袭及迁移能力。定量RT-PCR检测结果表明,B—Myb稳定过表达显著提高了细胞周期基因CCNA1的表达水平;对CD97和MTSS1等细胞运动相关下游基因的表达则无明显影响。该研究成功构建了B-Myb稳定过表达细胞株,发现了B-Myb过表达可促进肺癌细胞的增殖、侵袭迁移及克隆形成能力,为进一步研究奠定了基础。     

Structural Insights into the Pseudomonas aeruginosa Type VI Virulence Effector Tse1 Bacteriolysis and Self-protection Mechanisms

Recently, it was identified that Pseudomonas aeruginosa competes with rival cells to gain a growth advantage using a novel mechanism that includes two interrelated processes as follows: employing type VI secretion system (T6SS) virulence effectors to lyse other bacteria, and at the same time producing specialized immunity proteins to inactivate their cognate effectors for self-protection against mutual toxicity. To explore the structural basis of these processes in the context of functional performance, the crystal structures of the T6SS virulence effector Tse1 and its complex with the corresponding immunity protein Tsi1 were determined, which, in association with mutagenesis and Biacore analyses, provided a molecular platform to resolve the relevant structural questions. The results indicated that Tse1 features a papain-like structure and conserved catalytic site with distinct substrate-binding sites to hydrolyze its murein peptide substrate. The immunity protein Tsi1 interacts with Tse1 via a unique interactive recognition mode to shield Tse1 from its physiological substrate. These findings reveal both the structural mechanisms for bacteriolysis and the self-protection against the T6SS effector Tse1. These mechanisms are significant not only by contributing to a novel understanding of niche competition among bacteria but also in providing a structural basis for antibacterial agent design and the development of new strategies to fight P. aeruginosa.