DEVELOPMENTALLY REGULATED PLASMA MEMBRANE PROTEIN of Nicotiana benthamiana Contributes to Potyvirus Movement and Transports to Plasmodesmata via the Early Secretory Pathway and the Actomyosin System

The intercellular movement of plant viruses requires both viral and host proteins. Previous studies have demonstrated that the frame-shift protein P3N-PIPO (for the protein encoded by the open reading frame [ORF] containing 5′-terminus of P3 and a +2 frame-shift ORF called Pretty Interesting Potyviridae ORF and embedded in the P3) and CYLINDRICAL INCLUSION (CI) proteins were required for potyvirus cell-to-cell movement. Here, we provide genetic evidence showing that a Tobacco vein banding mosaic virus (TVBMV; genus Potyvirus) mutant carrying a truncated PIPO domain of 58 amino acid residues could move between cells and induce systemic infection in Nicotiana benthamiana plants; mutants carrying a PIPO domain of seven, 20, or 43 amino acid residues failed to move between cells and cause systemic infection in this host plant. Interestingly, the movement-defective mutants produced progeny that eliminated the previously introduced stop codons and thus restored their systemic movement ability. We also present evidence showing that a developmentally regulated plasma membrane protein of N. benthamiana (referred to as NbDREPP) interacted with both P3N-PIPO and CI of the movement-competent TVBMV. The knockdown of NbDREPP gene expression in N. benthamiana impeded the cell-to-cell movement of TVBMV. NbDREPP was shown to colocalize with TVBMV P3N-PIPO and CI at plasmodesmata (PD) and traffic to PD via the early secretory pathway and the actomyosin motility system. We also show that myosin XI-2 is specially required for transporting NbDREPP to PD. In conclusion, NbDREPP is a key host protein within the early secretory pathway and the actomyosin motility system that interacts with two movement proteins and influences virus movement.The movement of viruses in plants can be divided into three stages: intracellular, intercellular, and long-distance movement (Nelson and Citovsky, 2005; Benitez-Alfonso et al., 2010). Plasmodesmata (PD) are plasma membrane-mediated channels in cell walls that control the intercellular trafficking of micromolecules and macromolecules, including plant viruses (Boevink and Oparka, 2005; Lucas et al., 2009). Plant viruses encode movement proteins (MPs) that can regulate the size exclusion limit (SEL) of PD and mediate virus trafficking between cells (Lucas, 2006; Raffaele et al., 2009; Amari et al., 2010; Ueki et al., 2010). Based on the functions of MPs during virus movement, the viral MPs are divided into three major groups. The first group of MPs is represented by the 30-kD protein of Tobacco mosaic virus (TMV). The 30-kD proteins can interact with single-stranded RNAs and transport viral ribonucleoprotein complexes to cell walls, where they modify the SEL of PD to allow viruses to traverse the cell walls (Olesinski et al., 1996; Tzfira et al., 2000; Kawakami et al., 2004). The second group of MPs is known to form tubular structures that extend across the PD and allow virus to traverse. Viruses that encode this group of MPs include Cowpea mosaic virus, Grapevine fan leaf virus (GFLV), Cauliflower mosaic virus, and Tomato spotted wilt virus (Ritzenthaler and Hofmann, 2007; Amari et al., 2011). The third group of MPs is known as triple gene block proteins (TGBps), encoded by overlapping triple gene blocks. The three TGBps (TGBp1, TGBp2, and TGBp3) function coordinately to transport viral genomes to and through PD (Verchot-Lubicz, 2005; Jackson et al., 2009; Lim et al., 2009; Tilsner et al., 2013). Viruses that encode TGBps belong to the genera Potexvirus, Hordeivirus, and Pomovirus (Verchot-Lubicz et al., 2010). Potyviruses are different from the above viruses and lack a dedicated MP. To date, multiple potyviral proteins, including COAT PROTEIN, CYLINDRICAL INCLUSION (CI), HELPER COMPONENT PROTEINASE (HC-Pro), and VIRAL GENOME-LINKED PROTEIN, have been shown to function in the cell-to-cell movement of potyviruses (Nicolas et al., 1997; Rojas et al., 1997; Carrington et al., 1998; Wei et al., 2010).Viruses of Potyvirus (family Potyviridae), the largest genus of plant-infecting viruses, cause great economic losses to world agriculture production (Fauquet et al., 2005). The potyviral genome is a positive sense, single-stranded RNA of approximately 10 kb in length. It contains a large open reading frame (ORF) encoding a polyprotein that is later processed into 10 mature proteins by three virus-encoded proteinases (Riechmann et al., 1992; Fauquet et al., 2005). A +2 frame-shift Pretty Interesting Potyviridae (PIPO) ORF that is embedded within the P3 ORF was recently identified and proposed to produce a P3N-PIPO (for the protein encoded by 5′-terminus of P3 and frame-shift PIPO) fusion (Chung et al., 2008; Vijayapalani et al., 2012). The P3N-PIPOs of Turnip mosaic virus (TuMV) and Tobacco etch virus were previously shown to localize at PD, interact with CI in planta, and transport CI to PD in a CI:P3N-PIPO ratio-dependent manner (Wei et al., 2010). Soybean mosaic virus with a mutant PIPO domain failed to cause systemic infection in its host plant (Wen and Hajimorad, 2010). Therefore, the potyvirus P3N-PIPO has been suggested as the classical MP (Tilsner and Oparka, 2012; Vijayapalani et al., 2012).Viruses recruit host factors for their movement in plants (Chen et al., 2000; Raffaele et al., 2009; Amari et al., 2010; Ueki et al., 2010). Compared with the progresses on viral MP characterization, identifications of MP-interacting host proteins are much behind (Chen et al., 2000; Oparka, 2004; Raffaele et al., 2009; Amari et al., 2010). To date, about 20 host proteins have been identified to interact with specific viral MPs (Pallas and García, 2011). For example, the pectin methylesterase interacted with TMV MP, increased the SEL of PD, and facilitated TMV movement between cells (Chen et al., 2000); an ankyrin repeat-containing protein (ANK) interacted with TMV MP at PD, down-regulated callose formation, and aided viral movement (Ueki et al., 2010); the Arabidopsis (Arabidopsis thaliana) PLASMODESMATA-LOCALIZED PROTEIN1 (AtPDLP1) was reported to interact with GFLV MP and mediate tubule assembly during GFLV cell-to-cell movement in plants (Amari et al., 2010, 2011). TuMV P3N-PIPO was shown to interact with AtPCaP1, a plasma membrane cation-binding protein of Arabidopsis, and colocalize with this host protein at the PD. Knockout of AtPCaP1 expression resulted in a significant reduction of TuMV infection in Arabidopsis (Vijayapalani et al., 2012).Many viral MPs have been shown to traffic within plant cells via the early secretory pathway and/or along the actin filaments or microtubules. For example, the early secretory pathway and microtubules were required for GFLV MP trafficking to PD (Laporte et al., 2003). TuMV P3N-PIPO and CI were reported to utilize the early secretory pathway rather than the actomyosin motility system for their trafficking to PD (Wei et al., 2010). Several plant myosin motor proteins have been reported to participate in virus intracellular movement (Wei and Wang, 2008; Harries et al., 2010). Myosins VIII-1, VIII-2, and VIII-B were shown to transport a HEAT SHOCK PROTEIN70 homolog of Beet yellows virus to PD (Avisar et al., 2008a), but only myosin VIII-1 was needed for the nonstructural protein encoded by viral complementary strand of RNA4 (NSvc4) of Rice stripe virus traffic to PD (Yuan et al., 2011). A more recent study has indicated that both the secretory pathway and myosins XI-2 and XI-K were required for TuMV cell-to-cell movement (Agbeci et al., 2013). However, it remains largely unknown how the MP-interacting host factor(s) reach their target sites in cells.Tobacco vein banding mosaic virus (TVBMV) is a distinct potyvirus mainly infecting solanaceous crops (Tian et al., 2007; Yu et al., 2007; Zhang et al., 2011). In this article, we provide evidence showing the length requirements of the PIPO domains for its function in mediating TVBMV movement and the restoration of the movement-defective TVBMV mutants. We also show the interactions between TVBMV P3N-PIPO and CI and NbDREPP, a developmentally regulated plasma membrane protein in Nicotiana benthamiana, and the route by which NbDREPP traffics to PD. Silencing of NbDREPP expression in N. benthamiana significantly impeded the cell-to-cell movement of TVBMV.     

Synthesis,characterization, and in vitro and in vivo evaluation of a novel pectin–adriamycin conjugate

Adriamycin (ADM) has been widely used in the treatment of many types of solid malignant tumor. However, cardiotoxicity, multidrug resistance and a short half-life in vivo are significant problems that limit its clinical application. To resolve these problems, a novel pectin–adriamycin conjugate (PAC) was synthesized by attaching ADM to low-methoxylated pectin via an amide linkage. The ADM content and weight-average molecular weight (Mw) of PAC were greater than 25% (w/w) and 50,360 g/mol, respectively. PAC was highly stable in plasma, but 33.2% of ADM was released from PAC after incubation for 30 h with lysosomes derived from rat liver. PAC was distributed uniformly in the cytoplasm of most A549 cells and accumulated in the nucleus of a few A549 cells after incubation for 30 h. At concentrations equivalent to 0.125–1.000 μg of ADM/mL, PAC did not inhibit the growth of either A594 or B16 cells to the same extent as free ADM or a mixture of ADM and pectin. Interestingly, at all concentrations, PAC inhibited the growth of 2780cp cells in vitro significantly more effectively than ADM or the mixture of ADM and pectin. The anticancer effect of PAC in vivo was evaluated with C57BL/6 mice bearing pulmonary metastases of B16 cells. Compared with ADM and the mixture of ADM and pectin, PAC suppressed tumor growth significantly and prolonged the mean survival time of the B16-inoculated mice. PAC has great potential for development as a tumor targeting polymer-drug.     

碱度胁迫对尼罗罗非鱼鳃离子细胞形态以及鳃、肾和肠中HCO3-转运因子的影响

采用扫描电镜观察了不同碱度(0、2、4 g/L Na HCO_3)胁迫对尼罗罗非鱼(Oreochromis niloticus)鳃离子细胞形态变化的影响,并采用免疫组化技术观察了鳃、肾、肠中4个HCO_3~-转运因子碳酸酐酶(CAⅡ、CAⅣ)、碳酸氢钠协同转运载体(SLC4A4)、Cl~-/HCO_3~-离子交换体(SLC26A6)的阳性反应变化。扫描电镜结果表明,鳃离子细胞分布在鳃小片基部。根据其表面开孔形状和尺寸,可分为Ⅰ型、Ⅱ型、Ⅲ型和Ⅳ型4种亚型,各亚型离子细胞的开孔尺寸随碱度胁迫强度增高呈正比增大,Ⅲ型离子细胞开孔尺寸变化最明显(P0.01);离子细胞总数目也随碱度升高而增加,Ⅲ型离子细胞数目上升最为显著(P0.01)。免疫组化结果表明,在淡水、碱水组中,CAⅡ、CAⅣ、SLC4A4、SLC26A6在鳃小片基部和肾中均有阳性反应,且随着碱度升高,阳性反应增强,但在肠道中未观察到阳性反应。本研究结果初步表明,尼罗罗非鱼可通过鳃离子细胞形态和数量调节适应碱度变化,鳃和肾为主要应答调节器官。     

Decomposition of organic matter by the ericoid mycorrhizal endophytes of Formosan rhododendron (Rhododendron formosanum Hemsl.)

Ericoid mycorrhizas are associated with a number of host plants in the Ericaceae in high-elevation regions of Taiwan. The ability of these microorganisms to thrive in harsh environmental conditions in the regions implies their capability of decomposing plant organic matter (raw humus). The objective of this study was to investigate the decomposition characteristics of three ericoid mycorrhizal endophytes isolated from the roots of Formosan rhododendron (Rhododendron formosanum Hemsl.). Molecular analysis indicated that strains Rf9 and Rf32 belong to the genus Cryptosporiopsis while strain Rf28 is a member of the genus Phialocephala. Mycorrhizal synthesis experiment showed that the roots of synthesized seedlings produced hyphal coils, a characteristic of ericoid mycorrhiza. Decomposition ability analysis revealed that strains Rf28 and Rf32 had the highest rates of decomposition of organic matter (up to 10.4% after 70 days) while the value for strain Rf9 was about 6.8%. Consistently, these strains secreted extracellular oxidases when cultured on tannic acid medium. Enzyme assay revealed that strains Rf28 and Rf32 secreted peroxidase, laccase, tyrosinase, and cellulase, but strain Rf9 secreted mainly peroxidase and tyrosinase. Apparently, the differences in secreted hydrolytic enzymes among the three endophytes are related to their ability to decompose organic matter. In the mycorrhizal synthesis experiment, all inoculated seedlings survived in the organic matter substrate for 70 days and exhibited a stronger vigor than the control. This study demonstrated that these three isolated endophytes, Rf9, Rf28, and Rf32, are ericoid mycorrhizal fungi, capable of forming ericoid mycorrhiza with Formosan rhododendron. Meanwhile, all three endophytes can secrete hydrolytic enzymes to decompose organic matter for growth, presumably a prerequisite for the adaptation of Formosan rhododendron to the harsh environments of high elevation.     

安徽淮南下寒武统馒头组的遗迹化石

产于安徽淮南下寒武统馒头组上部浅水台地相灰岩和棕褐色页岩中的遗迹化石鉴定为５属５种,包括１新种,它们是Ｂｅａｃｏｎｉｃｈｎｕｓ ｉｃｈｎｏｓｐ．Ｄｉｐｌｉｃｈｎｉｔｅｓ ｉｃｈｎｏｓｐ．,Ｐｈｏｅｂｉｃｈｎｕｓ ｍｉｎｏｒ ｉｃｈｎｏｓｐ．ｎｏｖ．,Ｔｈａｌａｓｓｉｎｎｏｄｅｓ ｈｏｒｉｚｏｎｔａｌｉｓ Ｍｙｒｏｗ,１９９５和Ｈｅｌｍｉｎｔｈｏｉｄａ ｉｎｄｅｔ．ｉｃｈｎｏｓｐ．。对它们的形成方式     

六种鸟核型的比较研究

本文报道了|HENG|形目和雀形目6种鸟的核型, 并与已报道的近缘种类进行了比较。结果表明,除个别情况外,种间及属间核型差异不大,这些差异主要是由臂间倒位导致着丝点位置的改变而形成的,从而支持了鸟类核型在进化过程中有较强的保守性这一观点。 Abstract:The karyotypes of 6 species in Charadriiformes and Passeriformes birds were studied they were compared with ralative species that were reported before.The results showed that there were no differences of karyotypes among species and genera,except some special species.The differences were mainly due to the change of centrometric position which was caused by the pericertric in version.Therefore,the results again prove the hypothesis that bird karyotype is exceedingly conservative in the course of evolution.     

融合细胞株Eahy926与亲本人肺腺癌细胞株A549差异表达蛋白的蛋白质组学分析

融合细胞株Eahy926是人肺腺癌细胞株A549和人脐静脉内皮细胞杂交而成的永生化细胞株,具有血管内皮细胞的特性,已广泛用于内皮细胞相关研究. 本研究应用蛋白质组学技术分析融合细胞株Eahy926与亲本人肺腺癌细胞株A549的蛋白质差异表达,探讨融合细胞生物学特性变化及其机制. 对Eahy926和亲本A549的细胞总蛋白质进行双向凝胶电泳,在PDQuest软件辅助下找出差异表达蛋白质点,经肽质量指纹图谱(peptide mass fingerprinting, PMF) 和串级质谱(tandem mass spectrometry,TMS) 分析,SWISS-PROT数据库检索,成功鉴定出28个差异蛋白,如CATB、CK8、CK18、annexin A2、GRP78、HSP90、HSP60、vimentin等一些与分子伴侣、氧化应激、能量代谢、信号转导等有关,并与肿瘤细胞分裂增殖、分化凋亡、侵袭转移、免疫逃逸以及肿瘤血管生长密切关联的蛋白质. 研究发现,融合细胞株Eahy926和人肺腺癌细胞株A549的蛋白质组表达谱存在明显差异,这将有助于今后进一步探讨肿瘤细胞与内皮细胞的相互作用机制及其融合细胞的特性,筛选肿瘤增殖和转移相关蛋白质及分子标志物,亦可为肿瘤的抗血管生成治疗提供新思路.     

miR-612 suppresses the stemness of liver cancer via Wnt/β-catenin signaling

Previous research showed that microRNA-612 (miR-612) has inhibitory effects on cell proliferation, migration, invasion, and metastasis of hepatocellular carcinoma (HCC). AKT2 was confirmed to be a direct target of miR-612, through which the epithelial–mesenchymal transition (EMT) and metastasis of HCC were inhibited. Our present findings reveal that miR-612 is able to suppress the stemness of HCC by reducing the number and size of tumorspheres as well as clone formation in soft agar, and to relieve drug resistance to cisplatin and 5-fluorouracil. In addition, miR-612 hampered the capacity of tumorigenesis in NOD/SCID mice and redistributed the tumor invasive frontier of miR-612-modulating cells. Finally, our findings suggest that Wnt/β-catenin signaling is required in the regulation of EMT-associated stem cell-like traits by miR-612.     

圈养和放归成年雌性普氏野马(Equus przewalskii)夏季昼间的摄食行为

2005至2006年的6～8月间,在新疆普氏野马饲养与繁殖研究中心和卡拉麦里山有蹄类自然保护区,采用全事件取样法和目标动物取样法相结合,研究了圈养和放归成年雌性普氏野马夏季昼间的摄食行为.结果表明,两组个体在摄食行为类型上存在一定的差异,圈养个体普遍具有舔盐和食粪行为,而放归个体不存在此类行为.经独立样本t 检验,得出两组个体的摄食和站立行为的时间分配存在显著差异(P＜0.05),而站息、卧息、运动和其它行为差异不显著(P＞0.05),总体上,两组普氏野马的摄食行为所占时间最多.圈养个体昼间具有3个摄食高峰(8:00～10:00、13:00～15:00、19:30～20:00),与人工投食时间相一致,而放归个体摄食高峰并不明显,仅在13:00～15:00之间出现一个明显的摄食低谷,表现出自然的摄食节律及对放归地夏季自然条件的适应.