Visualizing cytoskeleton dynamics in mammalian cells using a humanized variant of monomeric red fluorescent protein

Fluorescent proteins are versatile tools for live cell imaging studies. In particular, recent progress was achieved in the development of monomeric red fluorescent proteins (mRFPs) that show improved properties in respect to maturation and intracellular fluorescence. mRFPmars, a red fluorescent protein designed especially for the use in Dictyostelium, proved to be a brilliant label for different cytoskeletal elements. Here we report on the synthesis of a humanized version of a monomeric RFP, mRFPruby, which differs in sequence from mRFPmars in four amino acids and has a codon usage that is optimized for the application in mammalian cells. In order to demonstrate the usefulness of this new mRFP variant, mRFPruby fused to beta-actin was expressed in different mouse cell lines and used to visualize actin cytoskeleton dynamics by live cell microscopy.     

The profiles of red fluorescent proteins with antinucleopolyhedrovirus activity in races of the silkworm Bombyx mori

Partially purified red fluorescent proteins (RFPs) secured from the gut juice of 5th-instar multivoltine and bivoltine silkworm races were observed as several bands in electrophoretograms and chromatographic eluates. Interestingly, different races of silkworms had varying numbers of fluorescent protein bands: 11 in Pure Mysore (resistant), 11 in Nistari (resistant), 4 in CSR₂ (moderately susceptible) and 1 in NB₄D₂ (highly susceptible). Bioassay experiments indicated that the fluorescent bands had antinucleopolyhedrovirus (antiNPV) activity. The molar extinction coefficients and fluorescence quantum yields of all RFPs were estimated. The purified tetrapyrroles were characterized by UV–visible absorption and fluorescence spectral analyses. All tetrapyrrole moieties associated with RFPs were found to be different and characteristic of the fluorescent bands. The resulting qualitative and quantitative differences among the individual RFPs from various races of silkworm were related to the susceptibilities of the silkworms to the viral disease. Moreover, light was found to be essential for the synthesis of RFPs, and, therefore, the role of light in the synthesis of RFPs was evaluated. Thus, this work may elucidate the process of RFP synthesis in silkworm, which may be used as a biomarker to measure the degree of susceptibility of silkworm races to NPV. Therefore, the characteristic band pattern may be used as an indicator to define the relative resistance of a race towards the specific virus.     

A Dictyostelium SH2 adaptor protein required for correct DIF-1 signaling and pattern formation

Dictyostelium is the only non-metazoan with functionally analyzed SH2 domains and studying them can give insights into their evolution and wider potential. LrrB has a novel domain configuration with leucine-rich repeat, 14-3-3 and SH2 protein–protein interaction modules. It is required for the correct expression of several specific genes in early development and here we characterize its role in later, multicellular development. During development in the light, slug formation in LrrB null (lrrB-) mutants is delayed relative to the parental strain, and the slugs are highly defective in phototaxis and thermotaxis. In the dark the mutant arrests development as an elongated mound, in a hitherto unreported process we term dark stalling. The developmental and phototaxis defects are cell autonomous and marker analysis shows that the pstO prestalk sub-region of the slug is aberrant in the lrrB- mutant. Expression profiling, by parallel micro-array and deep RNA sequence analyses, reveals many other alterations in prestalk-specific gene expression in lrrB- slugs, including reduced expression of the ecmB gene and elevated expression of ampA. During culmination ampA is ectopically expressed in the stalk, there is no expression of ampA and ecmB in the lower cup and the mutant fruiting bodies lack a basal disc. The basal disc cup derives from the pstB cells and this population is greatly reduced in the lrrB- mutant. This anatomical feature is a hallmark of mutants aberrant in signaling by DIF-1, the polyketide that induces prestalk and stalk cell differentiation. In a DIF-1 induction assay the lrrB- mutant is profoundly defective in ecmB activation but only marginally defective in ecmA induction. Thus the mutation partially uncouples these two inductive events. In early development LrrB interacts physically and functionally with CldA, another SH2 domain containing protein. However, the CldA null mutant does not phenocopy the lrrB- in its aberrant multicellular development or phototaxis defect, implying that the early and late functions of LrrB are affected in different ways. These observations, coupled with its domain structure, suggest that LrrB is an SH2 adaptor protein active in diverse developmental signaling pathways.     

The Wiskott-Aldrich syndrome protein (WASP) is essential for myoblast fusion in Drosophila

In higher organisms, mononucleated myoblasts fuse to form multinucleated myotubes. During this process, myoblasts undergo specific changes in cell morphology and cytoarchitecture. Previously, we have shown that the actin regulator Kette (Hem-2/Nap-1) is essential for myoblast fusion. In this study, we describe the role of the evolutionary conserved Wiskott-Aldrich syndrome protein that serves as a regulator for the Arp2/3 complex for myoblast fusion. By screening an EMS mutagenesis collection, we discovered a new wasp allele that does not complete fusion during myogenesis. Interestingly, this new wasp3D3-035 allele is characterized by a disruption of fusion after precursor formation. The molecular lesion in this wasp allele leads to a stop codon preventing translation of the CA domain. Usually, the WASP protein exerts its function through the Arp2/3-interacting CA domain. Accordingly, a waspDeltaCA that is expressed in a wild-type background acts as dominant-negative during the fusion process. Furthermore, we show that the myoblast fusion phenotype of kette mutant embryos can be suppressed by reducing the gene dose of wasp3D3-035. Thus, Kette antagonizes WASP function during myoblast fusion.     

The <Emphasis Type="Italic">Drosophila</Emphasis> RNA-binding protein Lark is required for localization of Dmoesin to the oocyte cortex during oogenesis

The RNA-binding protein Lark has an essential maternal role during Drosophila oogenesis. Elimination of maternal expression results in defects in cytoplasmic dumping and actin cytoskeletal organization in nurse cells. The function of this protein is dependent on the activity of one or more N-terminal RNA-binding domains. Here, we report the identification of Dmoesin (Dmoe) as a candidate RNA target of Lark during oogenesis. In addition to actin defects in the nurse cells of lark mutant ovaries, we observed mislocalization of posteriorly localized mRNAs including oskar and germ cell less in the developing oocyte. Anteriorly and dorsally localized mRNAs were not affected. In addition, we observed displacement of the actin cytoskeleton from the oocyte plasma membrane. These phenotypes are reminiscent of mutations in Dmoe and suggested that this RNA maybe a potential target of Lark. We observed a significant decrease in Dmoe protein associated with the membrane of the developing oocyte with no changes in expression or localization within the nurse cells. Evidence for an association between Lark protein and moe RNA during oogenesis comes from results of a microarray-based Ribonomics approach to identify Lark RNA targets. Thus, our results provide evidence that Dmoe RNA is a target of Lark during oogenesis and that it likely regulates either the splicing or translation of this RNA. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

The cholesterol trafficking protein NPC1 is required for Drosophila spermatogenesis

Niemann–Pick C (NPC) disease is a lethal neurodegenerative disorder affecting cellular sterol trafficking. Besides neurodegeneration, NPC patients also exhibit other pleiotropic conditions, indicating that NPC protein is required for other physiological processes. Previous studies indicated that a sterol shortage that in turn leads to a shortage of steroid hormones (for example, ecdysone in Drosophila) is likely to be the cause of NPC disease pathology. We have shown that mutations in Drosophila npc1, one of the two NPC disease-related genes, leads to larval lethal and male infertility. Here, we reported that npc1 mutants are defective in spermatogenesis and in particular in the membrane-remodeling individualization process. Interestingly, we found that ecdysone, the steroid hormone responsible for the larval lethal phenotype in npc1 mutants, is not required for individualization. However, supplying 7-dehydrocholesterol can partially rescue the male infertility of npc1 mutants, suggesting that a sterol shortage is responsible for the spermatogenesis defects. In addition, the individualization defects of npc1 mutants were enhanced at high temperature, suggesting that the sterol shortage may lead to temperature-sensitive defects in the membrane-remodeling process. Together, our study reveals a sterol-dependent, ecdysone-independent mechanism of NPC1 function in Drosophila spermatogenesis.     

Genetic screen for signal peptides in Hydra reveals novel secreted proteins and evidence for non-classical protein secretion

We have screened a Hydra cDNA library for sequences encoding N-terminal signal peptides using the yeast invertase secretion vector pSUC [Jacobs et al., 1997. A genetic selection for isolating cDNAs encoding secreted proteins. Gene 198, 289–296]. We isolated and sequenced 907 positive clones; 88% encoded signal peptides; 12% lacked signal peptides. By searching the Hydra EST database we identified full-length sequences for the selected clones. These encoded 37 known proteins with signal peptides and 40 novel Hydra-specific proteins with signal peptides. Localization of two signal peptide-containing sequences, VEGF and ferritin, to the secretory pathway was confirmed with GFP fusion proteins. In addition, we isolated 105 clones which lacked signal peptides but which supported invertase secretion from yeast. Isolation of plasmids from these clones and retransformation in invertase-negative yeast cells confirmed the phenotype. A GFP fusion protein of one such clone encoding the foot morphogen pedibin was localized to the cytoplasm in transfected Hydra cells and did not enter the ER/Golgi secretory pathway. Secretion of pedibin and other proteins lacking signal peptides appears to occur by a non-classical protein secretion route.     

Cry1C蛋白对4种棉花害虫的致死效果

【背景】苏云金芽胞杆菌(Bt)属革兰氏阳性细菌,是目前世界上应用最广泛的杀虫剂。来自Bt的Cry1Ac基因自1997年商业化以来,其产生的蛋白对棉铃虫、红铃虫等鳞翅目害虫起到了很好的控制作用。但该基因对甜菜夜蛾、斜纹夜蛾、玉米螟等害虫的控制作用较差,因此,需要寻找新的Bt基因亚型控制上述害虫。【方法】将Cry1C蛋白加到人工饲料上形成药膜后,接入低龄幼虫进行生物测定,以常规不加毒蛋白的饲料为对照,计算1、3、5、7 d后不同害虫的校正死亡率。【结果】随着Cry1C蛋白浓度的增加及时间的延长,甜菜夜蛾和斜纹夜蛾的校正死亡率逐渐升高,Cry1C浓度为10μg·m L-1时,处理7 d后,甜菜夜蛾和斜纹夜蛾的校正死亡率分别为100%和85.42%,表明甜菜夜蛾比斜纹夜蛾更敏感,而棉铃虫和玉米螟对Cry1C蛋白的敏感性较差。【结论与意义】Cry1C基因可作为控制棉田甜菜夜蛾和斜纹夜蛾的有价值的候选基因,但是对棉铃虫和玉米螟无效。该研究为筛选新的Bt基因亚型用于防治不同的棉花害虫提供了数据参考。     

Genetically encoded fluorescent indicator for imaging NAD/NADH ratio changes in different cellular compartments

Background

The ratio of NAD⁺/NADH is a key indicator that reflects the overall redox state of the cells. Until recently, there were no methods for real time NAD⁺/NADH monitoring in living cells. Genetically encoded fluorescent probes for NAD⁺/NADH are fundamentally new approach for studying the NAD⁺/NADH dynamics.

Methods

We developed a genetically encoded probe for the nicotinamide adenine dinucleotide, NAD(H), redox state changes by inserting circularly permuted YFP into redox sensor T-REX from Thermus aquaticus. We characterized the sensor in vitro using spectrofluorometry and in cultured mammalian cells using confocal fluorescent microscopy.

Results

The sensor, named RexYFP, reports changes in the NAD⁺/NADH ratio in different compartments of living cells. Using RexYFP, we were able to track changes in NAD⁺/NADH in cytoplasm and mitochondrial matrix of cells under a variety of conditions. The affinity of the probe enables comparison of NAD⁺/NADH in compartments with low (cytoplasm) and high (mitochondria) NADH concentration. We developed a method of eliminating pH-driven artifacts by normalizing the signal to the signal of the pH sensor with the same chromophore.

Conclusion

RexYFP is suitable for detecting the NAD(H) redox state in different cellular compartments.

General significance

RexYFP has several advantages over existing NAD⁺/NADH sensors such as smallest size and optimal affinity for different compartments. Our results show that normalizing the signal of the sensor to the pH changes is a good strategy for overcoming pH-induced artifacts in imaging.     

Caenorhabditis elegans WASP-interacting protein homologue WIP-1 is involved in morphogenesis through maintenance of WSP-1 protein levels

Mammalian WASP and N-WASP are involved in reorganization of the actin cytoskeleton through activation of the Arp2/3 complex and in regulation of cell motility or cell shape changes. In the present study, we identified WASP-interacting protein homologue (WIP)-1 in Caenorhabditis elegans. WIP-1 contains the domains and sequences conserved among mammalian WIP family proteins. Yeast two-hybrid analysis detected a physical interaction between WIP-1 and WSP-1, the sole homologue of WASP/N-WASP in C. elegans. Western analysis of embryo lysates showed that RNA interference (RNAi) treatment for wip-1 decreased levels of WSP-1 protein, and wsp-1(RNAi) treatment decreased levels of WIP-1 protein. However, wsp-1 mRNA levels were not decreased in wip-1(RNAi)-treated embryos, and wip-1 mRNA levels were not decreased in wsp-1(RNAi)-treated embryos. Furthermore, disruption of WIP-1 by RNAi resulted in embryonic lethality with morphologic defects in hypodermal cell migration, a process known as ventral enclosure. This phenotype was similar to that observed in RNAi experiments for wsp-1. Immunostaining showed that WIP-1 was expressed by migrating hypodermal cells, as was WSP-1. This expression during ventral enclosure was reduced in wip-1(RNAi)-treated embryos and wsp-1(RNAi)-treated embryos. Our results suggest that C. elegans WIP-1 may function in hypodermal cell migration during ventral enclosure by maintaining levels of WSP-1.     

Expression of the human FUSED protein in <Emphasis Type="Italic">Drosophila</Emphasis>

The Drosophila segment polarity gene fused, which encodes a serine threonine kinase, is required to transmit the Hedgehog (Hh) signal in imaginal discs. To explore the functional homology between the human protein FUSED (hFU) and the Drosophila protein fused (dFu), we have subjected hFU to a precise and well-defined Hh signalling assay of Drosophila wing development. In the wildtype, hFU affects the expression of Hh target genes leading thus to defects in adult wings. In fu mutants, overexpression of hFU cannot rescue the fu phenotype. These results suggest that hFU in Drosophila interferes with endogenous Hh signalling probably by competing with endogenous dFu when binding its partners but cannot perform the normal Fu function.Edited by C. Desplan     

Visualizing the infection process of Xanthomonas campestris in cabbage using green fluorescent protein

The plant pathogen, Xanthomonas campestris NRRL B-1459 was chromosomally tagged with gfp, and the transformant, which was subjected to Southern hybridization showed the presence of gfp in the chromosome. The virulence-related gene of the transformant was not affected by the insertion of gfp. After inoculation into cabbage plants, the infection process was visually studied in planta. Using a fluorescence microscope, the migration and distribution of gfp-labelled bacteria was visualized in real time. As the gfp-labelled cells were easily visualized from the beginning of infection, we observed a time delay of 2 days between distribution of the Xanthomonas cells in cabbage plant and the appearance of visible necrosis.     

Elimination of EVE protein by CALI in the short germ band insect Tribolium suggests a conserved pair-rule function for even skipped

The question of the degree of evolutionary conservation of the pair-rule patterning mechanism known from Drosophila is still contentious. We have employed chromophore-assisted laser inactivation (CALI) to inactivate the function of the pair-rule gene even skipped (eve) in the short germ embryo of the flour beetle Tribolium. We show that it is possible to generate pair-rule type phenocopies with defects in alternating segments. Interestingly, we find the defects in odd numbered segments and not in even numbered ones as in Drosophila. However, this apparent discrepancy can be explained if one takes into account that the primary action of eve is at the level of parasegments and that different cuticular markers are used for defining the segment borders in the two species. In this light, we find that eve appears to be required for the formation of the anterior borders of the same odd numbered parasegments in both species. We conclude that the primary function of eve as a pair rule gene is conserved between the two species.     

Enabled and Capping protein play important roles in shaping cell behavior during Drosophila oogenesis

During development, cells craft an impressive array of actin-based structures, mediating events as diverse as cytokinesis, apical constriction, and cell migration. One challenge is to determine how cells regulate actin assembly and disassembly to carry out these cell behaviors. During Drosophila oogenesis diverse cell behaviors are seen in the soma and germline. We used oogenesis to explore developmental roles of two important actin regulators: Enabled/VASP proteins and Capping protein. We found that Enabled plays an important role in cortical integrity of nurse cells, formation of robust bundled actin filaments in late nurse cells that facilitate nurse cell dumping, and migration of somatic border cells. During nurse cell dumping, Enabled localizes to barbed ends of the nurse cell actin filaments, suggesting its mechanism of action. We further pursued this mechanism using mutant Enabled proteins, each affecting one of its protein domains. These data suggest critical roles for the EVH2 domain and its tetramerization subdomain, while the EVH1 domain appears less critical. Enabled appears to be negatively regulated during oogenesis by Abelson kinase. We also explored the function of Capping protein. This revealed important roles in oocyte determination, nurse cell cortical integrity and nurse cell dumping, and support the idea that Capping protein and Enabled act antagonistically during dumping. Together these data reveal places that these actin regulators shape oogenesis.     

The WASP/Las17p-interacting protein Bzz1p functions with Myo5p in an early stage of endocytosis

Summary. The formation of actin filaments is crucial for endocytosis and other interrelated cellular phenomena such as motility, polarized morphogenesis, and cytokinesis. In this paper we have investigated the role of the WASP/Las17-interacting protein Bzz1p in endocytosis and trafficking to the vacuole. We and others have recently shown that Bzz1p is an actin patch protein that interacts directly with Las17p via a SH3-polyproline interaction. Bzz1p functions with type I myosins to restore polarity of the actin cytoskeleton after NaCl stress. In an in vitro bead assay, GST-Bzz1p fusion protein triggers a functional actin polymerization machinery through its two C-terminal SH3 domains. In this paper we implicate Bzz1p with the type I myosins both in fluid-phase and in the internalization step of receptor-mediated endocytosis. As deduced from their localization as GFP fusions, the vacuolar delivery of endocytic and biosynthetic cargoes as well as the multivesicular body pathway appear unaffected. We further elucidate Bzz1p direct participation in actin polymerization by demonstrating that each of the SH3 domains of Bzz1p individually is able to trigger actin polymerization in a cell-free system dependent on Arp2/3, Las17p, Vrp1p, and the type I myosins. Taken together, our results show that Bzz1p participates, essentially via its SH3 domains, in early steps of endocytosis together with known actin nucleation activators. Correspondence and reprints: Equipe Cytosquelette et Trafic Intracellulaire, UMR7156 du CNRS, Institut de Biologie Moléculaire et Cellulaire du CNRS, 15 rue Descartes, 67084 Strasbourg, France. Present address: Division of Biochemistry, Biozentrum, University of Basel, Basel, Switzerland.     

农杆菌介导的携带egfp基因载体转化寡雄腐霉

【目的】寡雄腐霉(Pythium oligandrum Drechsler)是一种对动、植物和环境无害,兼具杀菌和增产效果的生防真菌。通过研究建立农杆菌介导的寡雄腐霉遗传转化体系。【方法】选用EHA105、AGL-1、LBA4404三种农杆菌菌株对寡雄腐霉进行遗传转化研究,通过对影响遗传转化效果的条件参数试验优化,确立适宜寡雄腐霉遗传转化的农杆菌菌株及转化条件,建立农杆菌介导的寡雄腐霉遗传转化体系。【结果】经研究发现,所选3种农杆菌菌株中EHA105菌株对寡雄腐霉的遗传转化效果最好,其次是AGL-1菌株,LBA4404菌株转化效果不好。EHA105菌株经IM(含300μmol/L AS)诱导培养至OD_(600)=0.6时,与浓度为10~6–10~7个/m L的寡雄腐霉孢子悬浮液以1–10:1的比例混合,在25–26°C以液体振荡的方式避光共培养72 h(pH 5.0,含300μmol/L AS),寡雄腐霉菌体液体振荡恢复培养24 h,涂布抗性选择平板筛选寡雄腐霉转化子,即可得到寡雄腐霉基因工程菌株,其转化率可达到130个转化子/106个孢子。【结论】本研究首次构建了农杆菌介导的寡雄腐霉遗传转化体系,研究结果可为寡雄腐霉的生防机制及分子育种研究提供技术支撑。     

The Gα4 G protein subunit interacts with the MAP kinase ERK2 using a D-motif that regulates developmental morphogenesis in Dictyostelium

G protein Gα subunits contribute to the specificity of different signal transduction pathways in Dictyostelium discoideum but Gα subunit-effector interactions have not been previously identified. The requirement of the Dictyostelium Gα4 subunit for MAP kinase (MAPK) activation and the identification of a putative MAPK docking site (D-motif) in this subunit suggested a possible interaction between the Gα4 subunit and MAPKs. In vivo association of the Gα4 subunit and ERK2 was demonstrated by pull-down and co-immunoprecipitation assays. Alteration of the D-motif reduced Gα4 subunit-ERK2 interactions but only slightly altered MAPK activation in response to folate. Expression of the Gα4 subunit with the altered D-motif in gα4⁻cells allowed for slug formation but not the morphogenesis associated with culmination. Expression of this mutant Gα4 subunit was sufficient to rescue chemotactic movement to folate. Alteration of the D-motif also reduced the aggregation defect associated with constitutively active Gα4 subunits. These results suggest Gα4 subunit-MAPK interactions are necessary for developmental morphogenesis but not for chemotaxis to folate.     

Ribosomal protein S14 is not responsible for the Minute phenotype associated with the M(1)7C locus in Drosophila melanogaster.

Summary A locus associated with a severe Minute effect has been mapped at 7C on the X chromosome of Drosophila melanogaster. Previous work has suggested that this Minute encodes ribosomal proteins S14A and S141B. We have made a chromosomal deficiency that removes the S14 ribosomal protein genes, yet does not display the Minute phenotype. These data suggest that the S14 genes do not actually correspond to the Minute locus.     

Expression of HBsAg and preS2-S protein in different yeast based system: A comparative analysis

We have expressed both S and preS2-S genes coding for the hepatitis B small (S) and medium (M) proteins, respectively, in different yeast based expression systems and compared the production level of the recombinant proteins. In Saccharomyces cerevisiae, viral genes were expressed under the inducible Gal10/cyc1 and the constitutive PGK promoters using 2 μ replicating vectors. We showed that the yield of S protein was higher than M protein under both inducible (14.27 vs 10.9 mg/l) and constitutive (9.18 vs 6.39 mg/l) conditions, respectively. In the methylotrophic yeast Pichia pastoris, the viral genes were expressed in GS115 (Mut⁺: Methanol Utilizing) and KM71 (Mut^S: Methanol Utilizing Slow) under the control of the alcohol oxidase promoter (AOX1). In Mut^S background, both S and preS2-S genes were expressed at higher levels than in Mut⁺. In attempt to increase the yield of recombinant viral proteins in S. cerevisiae, we have co-expressed both inducible and constitutive vectors harboring the S or preS2-S genes leading to recombinant strains called UTS (containing pDP/S + pYePIT/S) and UTP (containing pDP/preS2-S + pYePIT/preS2-S). We showed that the recombinant S and preS2-S proteins were successfully detected and the production level reached 18.31 mg/l for the S and 13.22 mg/l for the M proteins.Our comparative study provides evidence that in small scale, S. cerevisiae is more suitable for HBsAg and preS2-S proteins production than P. pastoris under inducible rather than constitutive condition.