The production of clonal and axenic cultures of microalgae using fluorescence-activated cell sorting

Unialgal cultures of the flagellate algae Cyanophora paradoxa, Haematococcus lacustris, Monomastix sp., Scherffelia dubia and Spermatozopsis similis which contained bacteria were sorted by flow cytometry to obtain axenic clonal cultures. The variables used for fluorescence-activated cell sorting (FACS) were chlorophyll autofluorescence, forward scatter and side scatter of the laser beam. To produce clonal cultures, a single cell was sorted into each culture flask. Depending on the species, about 20–30% of the sorted cultures grew successfully and at least 20% of these were axenic even if the numerical ratio betweeen bacteria and algae in the original cultures was as high as 300:1. FACS represents an effective and rapid method for the preparation of clonal and axenic cultures of microalgae.     

Static retention of the lumenal monotopic membrane protein torsinA in the endoplasmic reticulum

TorsinA is a membrane-associated enzyme in the endoplasmic reticulum (ER) lumen that is mutated in DYT1 dystonia. How it remains in the ER has been unclear. We report that a hydrophobic N-terminal domain (NTD) directs static retention of torsinA within the ER by excluding it from ER exit sites, as has been previously reported for short transmembrane domains (TMDs). We show that despite the NTD's physicochemical similarity to TMDs, it does not traverse the membrane, defining torsinA as a lumenal monotopic membrane protein and requiring a new paradigm to explain retention. ER retention and membrane association are perturbed by a subset of nonconservative mutations to the NTD, suggesting that a helical structure with defined orientation in the membrane is required. TorsinA preferentially enriches in ER sheets, as might be expected for a lumenal monotopic membrane protein. We propose that the principle of membrane-based protein sorting extends to monotopic membrane proteins, and identify other proteins including the monotopic lumenal enzyme cyclooxygenase 1 (prostaglandin H synthase 1) that share this mechanism of retention with torsinA.     

Intracellular sorting and transport of proteins

The secretory and endocytic pathways of eukaryotic organelles consist of multiple compartments, each with a unique set of proteins and lipids. Specific transport mechanisms are required to direct molecules to defined locations and to ensure that the identity, and hence function, of individual compartments are maintained. The localisation of proteins to specific membranes is complex and involves multiple interactions. The recent dramatic advances in understanding the molecular mechanisms of membrane transport has been due to the application of a multi-disciplinary approach, integrating membrane biology, genetics, imaging, protein and lipid biochemistry and structural biology. The aim of this review is to summarise the general principles of protein sorting in the secretory and endocytic pathways and to highlight the dynamic nature of these processes. The molecular mechanisms involved in this transport along the secretory and endocytic pathways are discussed along with the signals responsible for targeting proteins to different intracellular locations.     

一种制备新生隐球菌单细胞的方法

【目的】建立流式细胞仪分选新生隐球菌单细胞的方法,确定新生隐球菌单细胞恢复生长的条件和能力。【方法】利用Moflo XDP流式细胞分析分选仪,体外测定不同条件下新生隐球菌恢复生长的比率。【结果】建立了流式细胞仪新生隐球菌单细胞分选流程。确定流式细胞仪分选得到的新生隐球菌单细胞具有恢复生长的能力,恢复生长的能力受营养条件和菌株差异的影响。在营养丰富的条件下,新生隐球菌JEC21和H99单细胞恢复生长比率分别为74%和89%。在寡营养条件下,JEC21和H99单细胞恢复生长比率分别为37%和80%。JEC21生长比率随细胞数的增加而升高,细胞数为100个时,生长比率为55%;细胞数为1000个时,生长比率为97%。【结论】流式细胞仪分选得到新生隐球菌单细胞具有恢复生长的能力,生长能力受营养条件、菌株差异的影响。     

Bacterial Pleckstrin Homology Domains: A Prokaryotic Origin for the PH Domain

Pleckstrin homology (PH) domains have been identified only in eukaryotic proteins to date. We have determined crystal structures for three members of an uncharacterized protein family (Pfam PF08000), which provide compelling evidence for the existence of PH-like domains in bacteria (PHb). The first two structures contain a single PHb domain that forms a dome-shaped, oligomeric ring with C₅ symmetry. The third structure has an additional helical hairpin attached at the C-terminus and forms a similar but much larger ring with C₁₂ symmetry. Thus, both molecular assemblies exhibit rare, higher-order, cyclic symmetry but preserve a similar arrangement of their PHb domains, which gives rise to a conserved hydrophilic surface at the intersection of the β-strands of adjacent protomers that likely mediates protein-protein interactions. As a result of these structures, additional families of PHb domains were identified, suggesting that PH domains are much more widespread than originally anticipated. Thus, rather than being a eukaryotic innovation, the PH domain superfamily appears to have existed before prokaryotes and eukaryotes diverged.     

An optical-manipulation technique for cells in physiological flows

We have developed a technique to manipulate human red blood cells (RBCs) in hydrodynamic flows. This method applies optical tweezers to trap and move microbead-attached RBCs in a liquid medium at various speeds, while it significantly minimizes laser heating and photon-induced stress for normal operation with laser-trapped cells. Computational fluid dynamics is applied to simulate flow-induced shear stress over the cell membrane and to correlate quantitatively the forces with the cell deformations. RBCs can be manipulated under physiological conditions by this approach, which may open an avenue to design principles for the next generation of cell sorting and delivery.     

酸弗林蛋白酶酸性氨基酸簇分选蛋白-1的原核表达、纯化及多克隆抗体制备

目的：原核表达和纯化PACS-1,并制备其多克隆抗体。方法：通过RT-PCR扩增出PACS-1的编码基因,测序正确后克隆入原核表达载体pGEX4T-1,转化大肠杆菌BL21（DE3）,以IPTG诱导PACS-1与GST融合蛋白的表达并经Glutathione Sepharose 4B纯化;经SDS-PAGE和Western blot鉴定,应用纯化的蛋白免疫家兔制备多克隆抗体,用ELISA测定抗体的效价。结果：表达和纯化了PACS-1,并获得了较高效价的抗血清。结论：获得纯化的PACS-1及其多克隆抗体,为进一步研究PACS-1的功能奠定了基础。     

Synemin interacts with the LIM domain protein zyxin and is essential for cell adhesion and migration

Synemin is a unique cytoplasmic intermediate filament protein for which there is limited understanding of its exact cellular functions. The single human synemin gene encodes at least two splice variants named α-synemin and β-synemin, with the larger α-synemin containing an additional 312 amino acid insert within the C-terminal tail domain. We report herein that, by using the entire tail domain of the smaller β-synemin as the bait in a yeast two-hybrid screen of a human skeletal muscle cDNA library, the LIM domain protein zyxin was identified as an interaction partner for human synemin. The synemin binding site in human zyxin was subsequently mapped to the C-terminal three tandem LIM-domain repeats, whereas the binding site for zyxin within β-synemin is within the C-terminal 332 amino acid region (SNβTII) at the end of the long tail domain. Transient expression of SNβTII within mammalian cells markedly reduced zyxin protein level, blocked localization of zyxin at focal adhesion sites and resulted in decreased cell adhesion and increased motility. Knockdown of synemin expression with siRNAs within mammalian cells resulted in significantly compromised cell adhesion and cell motility. Our results suggest that synemin participates in focal adhesion dynamics and is essential for cell adhesion and migration.     

A pathogenic non coding RNA that replicates and accumulates in chloroplasts traffics to this organelle through a nuclear-dependent step

Viroids belonging to the family Avsunviroidae are the only functional RNAs known to traffic selectively into chloroplasts. Subcellular targeting is a critical step in guaranteeing their access to the machineries involved in their replication. However, the host mechanisms exploited by these non coding pathogenic RNAs to be selectively imported into chloroplasts are poorly understood. Recently, we provide evidence supporting the idea that the Avsunviroidae have evolved to subvert a signaling mechanism between the nucleus and chloroplasts to regulate their differential compartmentalization into the chloroplast of infected cells. Here, we discuss our model and previous observations that provide biological relevance to our hypothesis.     

Rab GTPases regulating receptor trafficking at the late endosome–lysosome membranes

Lysosomes serve key degradative functions for the turnover of membrane lipids and protein components. Its biogenesis is principally dependent on exocytic traffic from the late endosome via the trans‐Golgi network, and it also receives cargo to be degraded from the endocytic pathway. Membrane trafficking to the late endosome–lysosome is tightly regulated to maintain the amplitude of signalling events and cellular homeostasis. Key coordinators of lysosomal traffic include members of the Rab small GTPase family. Amongst these, Rab7, Rab9 and the more recently studied Rab22B/31 have all been reported to regulate membrane trafficking processed at the late endosome–lysosome system. We discuss what is known about the roles of these Rab proteins and their interacting partners on the regulation of traffic of important receptor proteins such as the epidermal growth factor receptor (EGFR) and the mannose 6‐phosphate receptor (M6PR), in association with the late endosome–lysosome system. Better knowledge of EGFR and M6PR traffic in this regard may aid in understanding the pathological processes, such as oncogenic transformations associated with these receptors. Copyright © 2012 John Wiley & Sons, Ltd.