Giantin interacts with both the small GTPase Rab6 and Rab1

The interaction of small GTPases of the Rab family and coiled coil proteins of the golgin family has been reported for example for the Rab1 GTPase and p115, GM130 and Giantin. We now show that Rab6A, a GTPase that controls retrograde trafficking within the Golgi back to the endoplasmic reticulum is also able to bind to Giantin in vivo and in vitro pointing to an interesting complex formation between Giantin and two different Rab GTPases. In Saccharomyces cerevisiae a genetic interaction between Ypt1 and Ypt6 has already been demonstrated, but in this paper we were able to describe that the mammalian Rab GTPases are able to interact on the same golgin protein, Giantin.     

Physical and functional interaction between a nucleolar protein nucleophosmin/B23 and adenovirus basic core proteins

We identified nucleophosmin/B23 as a component of template-activating factor-III that stimulates the DNA replication from the adenovirus DNA complexed with viral basic core proteins. Here, we have studied the functional interaction of B23 with viral core proteins. We found that B23 interacts with viral basic core proteins, core protein V and precursor of core protein VII (pre-VII), in infected cells. Biochemical analyses demonstrated that B23 suppresses formation of aggregates between DNA and core proteins and transfers pre-VII to DNA. These results indicate that B23 functions as a chaperone in the viral chromatin assembly process in infected cells.     

Characterization of Rab45/RASEF containing EF-hand domain and a coiled-coil motif as a self-associating GTPase

Rab-family GTPases function as key regulators for membrane traffic. Among them, Rab45/RASEF is an atypical GTPase in that it contains a coiled-coil motif at the mid region and a distinct N-terminal EF-hand domain with C-terminal Rab-homology domain. Here, we provide the initial biochemical characterization and intracellular localization of human Rab45. Rab45 bound guanine nucleotide tri- and di-phosphates through the C-terminal Rab domain. Rab45 was capable of self-interacting, and the self-interaction required the mid region containing the coiled-coil motif. Rab45 expressed in HeLa cells was localized in a small patch in the perinuclear area of the cell, and the localization was regulated by the guanine nucleotide-bound states of Rab45. Interestingly, the mid region, together with Rab domain, appeared to be essential for the characteristic perinuclear localization of Rab45, indicating that the self-interaction may be involved in the intracellular localization of Rab45.     

Rabs 8A and 14 are targets of the insulin-regulated Rab-GAP AS160 regulating GLUT4 traffic in muscle cells

Insulin causes translocation of glucose transporter GLUT4 to the membrane of muscle and fat cells, a process requiring Akt activation. The Rab GTPase-activating protein (Rab-GAP) AS160 is inhibited upon phosphorylation by insulin-activated Akt, thereby allowing GLUT4 translocation. Although several Rab proteins are detected on GLUT4 vesicles, the target Rabs of AS160 involved in the GLUT4 translocation have not been identified. We test whether Rabs 8A, 10, and 14 (in vitro targets of AS160) rescue the inhibition of GLUT4 translocation caused by 'constitutively active' 4P-AS160 in L6 muscle cells. Coexpression of GFP-tagged Rabs 8A or Rab14 with 4P-AS160 prevented the inhibition of GLUT4 translocation imposed by 4P-AS160. GFP-tagged, constitutively active Rab8A also elicited this rescue. In contrast, neither wild-type nor constitutively active GFP-tagged Rab10 restored GLUT4 translocation. These results suggest that Rab8A and possibly Rab14 may be targets of AS160 leading to GLUT4 translocation in L6 muscle cells.     

Synthesis, characterization and DNA binding properties of oligopyridine-ruthenium(II)-amino acid conjugates

The DNA-binding properties of a number of ruthenium oligopyridine complexes with conjugated amino acids having the general formulae [Ru(terpy)(4-COY-4'-Mebpy)(X)](n)(+), X=NO (n=3), X=Cl (n=1) and NO(2) (n=1) and Y=AlaCONH(2) and TrpCONH(2) are reported. The new complexes were spectroscopically characterized and their DNA-binding properties were studied by means of circular dichroism (CD), (23)Na and (31)P NMR spectroscopy. The results show that the chlorido complexes interact by coordination to the DNA bases with the conjugated amino acid able to provide an additional interaction with the DNA helix. In addition, electrostatic interactions between all studied complexes and the DNA polyanion were observed. The nitro complexes were found to be insignificant, affecting only the (31)P NMR signal, probably due to changes in the hydration sphere of the DNA close to the phosphates.     

油茶果生炭疽菌小分子GTP酶Rab7的功能研究

【目的】炭疽病是油茶的一种重要病害,果生炭疽菌是油茶炭疽病的主要致病菌。本文对果生炭疽菌小分子GTP酶Rab7进行研究,为油茶炭疽病的防控治理提供依据。【方法】构建CfRAB7基因敲除载体,通过PEG介导的原生质体转化、抗性筛选和PCR电泳验证获得果生炭疽菌突变体菌株△Cfrab7和互补菌株△Cfrab7/CfRAB7。进一步分析CfRAB7基因敲除突变体△Cfrab7的生长、产孢、附着孢的形成、胁迫应答、液泡融合和致病力等生物学表型。【结果】在PDA和MM培养基上,突变体△Cfrab7的菌落直径显著减小,产孢量和附着孢形成率显著降低,且不能穿透玻璃纸;在10mmol/LH2O2条件下,△Cfrab7生长受到明显抑制;进一步研究发现突变体△Cfrab7液泡无法正常融合,在油茶有伤和无伤的幼叶上均不发病。【结论】CfRAB7基因参与调控果生炭疽菌生长产孢、附着孢形成、H2O2胁迫应答、液泡融合和致病力。     

TRAPPopathies: An emerging set of disorders linked to variations in the genes encoding transport protein particle (TRAPP)‐associated proteins

The movement of proteins between cellular compartments requires the orchestrated actions of many factors including Rab family GTPases, Soluble NSF Attachment protein REceptors (SNAREs) and so‐called tethering factors. One such tethering factor is called TRAnsport Protein Particle (TRAPP), and in humans, TRAPP proteins are distributed into two related complexes called TRAPP II and III. Although thought to act as a single unit within the complex, in the past few years it has become evident that some TRAPP proteins function independently of the complex. Consistent with this, variations in the genes encoding these proteins result in a spectrum of human diseases with diverse, but partially overlapping, phenotypes. This contrasts with other tethering factors such as COG, where variations in the genes that encode its subunits all result in an identical phenotype. In this review, we present an up‐to‐date summary of all the known disease‐related variations of genes encoding TRAPP‐associated proteins and the disorders linked to these variations which we now call TRAPPopathies.      

Rab‐mediated trafficking in the secondary cells of Drosophila male accessory glands and its role in fecundity

The male seminal fluid contains factors that affect female post‐mating behavior and physiology. In Drosophila, most of these factors are secreted by the two epithelial cell types that make up the male accessory gland: the main and secondary cells. Although secondary cells represent only ~4% of the cells of the accessory gland, their contribution to the male seminal fluid is essential for sustaining the female post‐mating response. To better understand the function of the secondary cells, we investigated their molecular organization, particularly with respect to the intracellular membrane transport machinery. We determined that large vacuole‐like structures found in the secondary cells are trafficking hubs labeled by Rab6, 7, 11 and 19. Furthermore, these organelles require Rab6 for their formation and many are essential in the process of creating the long‐term postmating behavior of females. In order to better serve the intracellular membrane and protein trafficking communities, we have created a searchable, online, open‐access imaging resource to display our complete findings regarding Rab localization in the accessory gland.