A Putative Calcium-Permeable Cyclic Nucleotide-Gated Channel, CNGC18, Regulates Polarized Pollen Tube Growth

A tip-focused Ca^2＋ gradient is tightly coupled to polarized pollen tube growth, and tip-localized influxes of extracellular Ca^2＋ are required for this process. However the molecular identity and regulation of the potential Ca^2＋ channels remains elusive. The present study has implicated CNGC18 （cyclic nucleotide-gated channel 18） in polarized pollen tube growth, because its overexpression induced wider and shorter pollen tubes. Moreover, CNGC18 overexpression induced depolarization of pollen tube growth was suppressed by lower extracellular calcium （[Ca^2＋]ex）. CNGC18-yellow fluorescence protein （YFP） was preferentially localized to the apparent post-Golgi vesicles and the plasma membrane （PM） in the apex of pollen tubes. The PM localization was affected by tip-localized ROP1 signaling. Expression of wild type ROP1 or an active form of ROP1 enhanced CNGC18-YFP localization to the apical region of the PM, whereas expression of RopGAP1 （a ROP1 deactivator） blocked the PM localization. These results support a role for PM-Iocalized CNGC18 in the regulation of polarized pollen tube growth through its potential function in the modulation of calcium influxes.     

Ensembles of endothelial and mural cells promote angiogenesis in prenatal human brain

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Distinct RopGEFs Successively Drive Polarization and Outgrowth of Root Hairs

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The type III secretion system needle,tip, and translocon

Many Gram‐negative bacteria pathogenic to plants and animals deploy the type III secretion system (T3SS) to inject virulence factors into their hosts. All bacteria that rely on the T3SS to cause infectious diseases in humans have developed antibiotic resistance. The T3SS is an attractive target for developing new antibiotics because it is essential in virulence, and part of its structural component is exposed on the bacterial surface. The structural component of the T3SS is the needle apparatus, which is assembled from over 20 different proteins and consists of a base, an extracellular needle, a tip, and a translocon. This review summarizes the current knowledge on the structure and assembly of the needle, tip, and translocon.     

Effects of glucanase treatment on the structure and mechanical properties of cell walls in the giant‐celled xanthophycean alga Vaucheria frigida

The cell wall of the tip‐growing cells of the giant‐cellular xanthophycean alga Vaucheria frigida is mainly composed of cellulose microfibrils (CMFs) arranged in random directions and the major matrix component into which the CMFs are embedded throughout the cell. The mechanical properties of a cell‐wall fragment isolated from the tip‐growing region, which was inflated by artificially applied pressure, were measured after enzymatic removal of the matrix component by using a protease; the results showed that the matrix component is involved in the maintenance of cell wall strength. Since glucose and uronic acid are present in the matrix component of Vaucheria cell walls, we measured the mechanical properties of the cell wall after treatment with endo‐1,3‐ß‐glucanase and observed the fine structures of its surfaces by atomic force microscopy. The major matrix component was partially removed from the cell wall by glucanase, and the enzyme treatment significantly weakened the cell wall strength without affecting the pH dependence of cell wall extensibility. The enzymatic removal of the major matrix component by using a protease released polysaccharide containing glucose and glucuronic acid. This suggests that the major matrix component of the algal cell walls contains both proteins (or polypeptides) and polysaccharides consisting of glucose and glucuronic acid as the main constituents.     

涡旋磁纳米颗粒——崭新的生物医用磁性纳米平台

相比于超顺磁性纳米颗粒,具有涡旋磁畴的磁性纳米颗粒,由于独特的磁化闭合分布、较大的粒径尺寸及外加磁场中的磁化翻转特性,使得其兼具弱的颗粒间磁相互作用和更优异的磁学性能,在生物医学领域展现出了更好的应用优势和潜力.本综述结合近年来国内外对涡旋磁畴的研究及涡旋磁纳米颗粒在生物医学领域的报道,提出了一类新型的生物医用涡旋磁溶胶体系,并以涡旋磁氧化铁纳米盘和纳米环为例,介绍了涡旋磁纳米颗粒的化学合成,并着重论述了这类具有独特涡旋畴结构的纳米颗粒在磁共振成像、抗肿瘤治疗等生物医学应用上的最新研究进展.     

反相C18固相萃取小柱用于蛋白质组分析中少量样品预处理

针对少量且复杂蛋白质组样品,开发一种耗时短、操作简便的分离方法。以人的脑海马组织蛋白样品为研究对象,采用反相C18固相萃取小柱,采用不同乙腈浓度对酶切后样品进行梯度洗脱,与反相高效液相色谱法对比分离效果。通过比较不同乙腈梯度洗脱方案所鉴定到的谱图数、非冗余多肽数、蛋白数和各洗脱组分间重复率分析,确定一种样品量少、简单易行、分离效果好的实验方案。虽然反相C18固相萃取小柱法鉴定蛋白总数占高效液相色谱法的85.5%,但其操作简单,耗时少。通过4种不同乙腈浓度方案比较,确定乙腈洗脱浓度优化为5%、15%、20%和90%时,分离30μg人的海马多肽混合物可以得到较优的分离效果。其蛋白鉴定数为反相液相色谱法的67.0%,且重复性良好。该结果证实反相C18固相萃取小柱分离效果比反相高效液相色谱法稍差,但此方法可以分离少量复杂蛋白质组样品。该方法分离样品充分,操作易行,耗时短,是进行蛋白质组学分析中少量样品的一个简便预处理方法。     

Actin organization and regulation during pollen tube growth

Pollen is the male gametophyte of seed plants and its tube growth is essential for successful fertilization. Mounting evidence has demonstrated that actin organization and regulation plays a central role in the process of its germination and polarized growth. The native structures and dynamics of actin are subtly modulated by many factors among which numerous actin binding proteins (ABPs) are the most direct and significant regulators. Upstream signals such as Ca²⁺, PIP₂ (phosphatidylinositol-4,5-bis-phosphate) and GTPases can also indirectly act on actin organization through several ABPs. Under such elaborate regulation, actin structures show dynamically continuous modulation to adapt to the in vivo biologic functions to mediate secretory vesicle transportation and fusion, which lead to normal growth of the pollen tube. Many encouraging progress has been made in the connection between actin regulation and pollen tube growth in recent years. In this review, we summarize different factors that affect actin organization in pollen tube growth and highlight relative research progress.