鲨鱼软骨制剂抑制血管生成的研究

以鲨鱼软骨为原料,经盐酸胍抽提,丙酮分级沉淀, 超滤等步骤得到鲨鱼软骨制剂(shark cartilage preparation,SCP). 利用整装细胞扫描电镜方法测定SCP对血管内皮细胞骨架系统的影响,体外细胞迁移实验测定它对内皮细胞迁移的抑制效应,及鸡胚绒毛尿囊膜实验测定对血管生成的抑制效应. 结果表明SCP能显著抑制内皮细胞的骨架形成;显著抑制内皮细胞的迁移,并有明显的浓度依赖关系;显著抑制鸡胚绒毛尿囊膜的血管生成. 细胞骨架是细胞分裂增殖及运动迁移的基础,血管内皮细胞的运动迁移又是血管生成的基础,因此SCP的作用机理可能是通过抑制细胞骨架的形成,抑制内皮细胞的运动迁移,从而抑制血管生成.     

软骨血管生成抑制因子抑制血管生成的研究

小牛气管软骨经盐酸胍抽提,丙酮分级沉淀,膜超滤,柱层析等步骤得到软骨血管生成抑制因子(cartilage angiogenesis inhibiting factor,CAIF).SDS-聚丙烯酰胺凝胶电泳显示CAIF由单一组分组成,分子量为27700.通过[ ³H]-TdR掺入,活细胞检测等方法测定CAIF对内皮细胞、Hela细胞、QGY7703细胞与小鼠骨髓细胞、人皮肤成纤维细胞等的DNA合成的影响,以及细胞毒作用.采用鸡胚绒毛尿囊膜实验测定CAIF对血管生成的抑制效应.结果显示:CAIF对内皮细胞产生强的抑制作用,对Hela细胞抑制很弱,对QGY7703细胞、小鼠骨髓细胞、人皮肤成纤维细胞均无抑制作用;对鸡胚绒毛尿囊膜的血管生成产生明显的抑制作用.提示CAIF能较特异地抑制血管生成,CAIF达到电泳纯,是专一性较强的血管生成抑制因子.     

Shortened snRNA promoters for efficient CRISPR/Cas-based multiplex genome editing in monocot plants

正Dear Editor,CRISPR (clustered regularly interspaced short palindromic repeats)/Cas genome editing is a powerful tool for introducing specific mutations in organisms including plants. The system is composed of a nuclease such as Cas9 or Cas12a and an engineered single-guide RNA (sgRNA) incorporating a target sequence (Li et al., 2019). A Cas9/sgRNA complex re-     

The auxin-inducible phosphate transporter AsPT5 mediates phosphate transport and is indispensable for arbuscule formation in Chinese milk vetch at moderately high phosphate supply

Phosphorus is a macronutrient that is essential for plant survival. Most land plants have evolved the ability to form a mutualistic symbiosis with arbuscular mycorrhizal (AM) fungi, which enhances phosphate (Pi) acquisition. Modulation of Pi transporter systems is the master strategy used by mycorrhizal plants to adapt to ambient Pi concentrations. However, the specific functions of PHOSPHATE TRANSPORTER 1 (PHT1) genes, which are Pi transporters that are responsive to high Pi availability, are largely unknown. Here, we report that AsPT5, an Astragalus sinicus (Chinese milk vetch) member of the PHT1 gene family, is conserved across dicotyledons and is constitutively expressed in a broad range of tissues independently of Pi supply, but is remarkably induced by indole-3-acetic acid (auxin) treatment under moderately high Pi conditions. Subcellular localization experiments indicated that AsPT5 localizes to the plasma membrane of plant cells. Using reverse genetics, we showed that AsPT5 not only mediates Pi transport and remodels root system architecture but is also essential for arbuscule formation in A. sinicus under moderately high Pi concentrations. Overall, our study provides insight into the function of AsPT5 in Pi transport, AM development and the cross-talk between Pi nutrition and auxin signalling in mycorrhizal plants.     

The ScCas9++ variant expands the CRISPR toolbox for genome editing in plants

The development of clustered regularly interspaced palindromic repeats (CRISPR)-associated protein (Cas) variants with a broader recognition scope is critical for further improvement of CRISPR/Cas systems. The original Cas9 protein from Streptococcus canis (ScCas9) can recognize simple NNG-protospacer adjacent motif (PAM) targets, and therefore possesses a broader range relative to current CRISPR/Cas systems, but its editing efficiency is low in plants. Evolved ScCas9⁺ and ScCas9⁺⁺ variants have been shown to possess higher editing efficiencies in human cells, but their activities in plants are currently unknown. Here, we utilized codon-optimized ScCas9, ScCas9⁺ and ScCas9⁺⁺ and a nickase variant ScCas9n⁺⁺ to systematically investigate genome cleavage activity and cytidine base editing efficiency in rice (Oryza sativa L.). This analysis revealed that ScCas9⁺⁺ has higher editing efficiency than ScCas9 and ScCas9⁺ in rice. Furthermore, we fused the evolved cytidine deaminase PmCDA1 with ScCas9n⁺⁺ to generate a new evoBE4max-type cytidine base editor, termed PevoCDA1-ScCas9n⁺⁺. This base editor achieved stable and efficient multiplex-site base editing at NNG-PAM sites with wider editing windows (C₋₁–C₁₇) and without target sequence context preference. Multiplex-site base editing of the rice genes OsWx (three targets) and OsEui1 (two targets) achieved simultaneous editing and produced new rice germplasm. Taken together, these results demonstrate that ScCas9⁺⁺ represents a crucial new tool for improving plant editing.     

Peptides YYGGEGSSSEQG and SESEM Inhibit TNF-α-Induced Smooth Muscle Cells Proliferation and Migration Through Their Bindings to TNF-α Receptor

International Journal of Peptide Research and Therapeutics - The peptides YYGGEGSSSEQG and SESEM derived from rice α-globulin have been reported to possess anti-atherosclerotic activity, but...     

南京老山秤锤树空间分布格局及种间关联性

以南京老山1 hm 2样地秤锤树(Sinojackia xylocarpa)天然种群为研究对象,运用成对g(r)函数,选择完全随机模型、异质泊松模型与先决条件零模型,分析秤锤树种群结构和空间分布格局及其空间关联性,从空间格局角度来深入认识其种群结构和分布格局及形成该格局可能存在的机制并提出保护建议。结果表明:(1)秤锤树天然种群中小径个体数量占优,属于增长型种群。(2)种内空间分布研究中,基于完全随机模型分析,秤锤树种群在尺度0~26 m时为聚集分布,尺度29~30 m时为均匀分布;基于异质泊松模型分析,秤锤树种群在0~23 m时为聚集分布,尺度27~30 m时为均匀分布。秤锤树空间分布表现为由聚集分布向均匀分布变化。(3)主要种间关联性研究中,秤锤树与朴树(Celtis sinensis)的种间关联性表现为小尺度下负关联,随着空间尺度的增加变为正关联。秤锤树与黄连木(Pistacia chinensis)和秤锤树与三角槭(Acer buergerianum)的种间关联性大致相同,基本为大尺度下正关联,偶尔出现负关联和无关联。上述结果表明,秤锤树种群更新状况良好,种群空间分布以聚集分布为主,其主要受种间竞争、扩散限制与密度制约的影响。基于种群现状开展就地保护与适当干扰其生存群落,是濒危物种秤锤树的科学有效的保护措施。     

Role of intramolecular interaction in connexin50: mediating the Ca2+-dependent binding of calmodulin to gap junction

Gap junction channels formed by connexin50 (Cx50) are critical for maintenance of eye lens transparency. Cleavage of the carboxyl terminus (CT) of Cx50 to produce truncated Cx50 (Cx50trunc) occurred naturally during maturation of lens fiber cells. The mechanism of its altered properties is under confirmation. It has been suggested that calmodulin (CaM) participates in gating some kinds of gap junction. Here, we performed confocal colocalization and co-immunoprecipitation experiments to study the relationships between Cx50 and CaM. Results exhibited that the CaM could colocalize Ca2+ dependently with CT in the linear area of cell-to-cell contact formed by Cx50trunc, while it could not localize in the linear area without expression of CT. Further study indicated that the CT could interact Ca2+ independently with the cytoplasmic loop (CL) of Cx50. These data put forward the importance of Ca2+-independent intramolecular interaction between CT and CL of Cx50, which mediate the Ca2+-dependent binding of CaM to Cx50. These intra- and intermolecular interactions may further improve our understanding of biological significance of the Cx50 in the eye lens.