Antisense repression of StubGAL83 affects root and tuber development in potato

StubGAL83 is a potato gene that encodes the beta-subunit of a protein kinase complex similar to the yeast SNF1, and the mammalian AMPK complexes that are modulated by changes in the cellular AMP/ATP ratio and are important regulators of metabolic and stress responses. Here we show that the expression of StubGAL83 in potato foliage is much higher in the dark than in the light and can be repressed by metabolisable sugars in the dark. The amounts of StubGAL83 mRNA are higher in sink than in source leaves. To unravel the role of StubGAL83, transgenic potato plants expressing a part of the StubGAL83 cDNA in antisense orientation under the control of the constitutive CaMV35S promoter were generated. Northern analysis revealed a reduction up to 90-95% in StubGAL83 mRNA accumulation in leaves of seven lines. Five out of these seven lines exhibited a reduction of StubGAL83 mRNA levels also in root and tuber tissues. Independent on the type of repression, the transgenic lines showed a delay in rooting and an increased sensitivity to salt stress. The roots were stunted and possessed less pronounced tap roots than the controls albeit with different severity in the different transgenic lines. The root cells were smaller and some of them had irregular shape. Tuberisation of the antisense-StubGAL83 lines was delayed, the size of the tubers was reduced while the number of tubers per plant was increased. These results together suggest that StubGAL83 affects root and tuber development probably by altering the metabolic status of the leaves.     

Hygromycin B-selected cell lines from GAL4-regulated pUAST constructs

Here we report the generation of stable, selectable Drosophila S2 cell lines using the UAS-GAL4 system. Cloning of the hygromycin resistance gene into the pUAST vector and cotransfection with other pUAST constructs in S2 cells results in coexpression of up to four different proteins under hygromycin selection. Protein expression is driven by the ubiquitous Actin5C-GAL4 driver and cell cultures are maintained in hygromycin-supplemented, serum-free media to ensure constitutive protein production. Visual comparison of cells cotransfected with GFP and RFP demonstrates a uniform cell population expressing both markers simultaneously, while Western blot analysis shows concurrent expression of MYC3-tagged proteins. In addition, fluorescent cell sorting (FACS) analysis shows that 80% of the total cell population express the GFP marker. Our data indicate that using this technique it is possible to establish stable, selectable cell lines that provide a pool of readily accessible protein. This facilitates protein-based studies and abolishes the need to carry out time-consuming and expensive transfections.     

High intracellular expression of giant catfish growth hormone under the control of PGK promoter in Saccharomyces cerevisiae

Different yeast plasmid systems containing different promoters such as ADH1, PGK, GAPDH and GAL1, and different selectable markers, such as URA3, TRP1 and leu2-d were compared to obtain the yeast expression system that provides high intracellular expression of giant catfish growth hormone (gcGH). The highest level of gcGH expression was observed in a recombinant yeast under the control of PGK promoter (17.1 mg/l or 1.4 g/0.1 OD). The amount of gcGH was increased six-fold (102.5 mg/l) when cells were grown in a rich medium (YEPD) with the inoculum and medium ratio of 1:1, although the amount of gcGH expression per cell density did not increase (1.0 g/0.1 OD). This indicated that the increased yield of gcGH in rich medium was due to the increased cell density. The aim of the study was to produce high level gcGH in the cells of S. cerevisiae in order to use the yeast cells as potential feed additives to promote growth in giant catfish.     

酿酒酵母(Saccharomyces cerevisiae)半乳糖可诱导表达系统特性的研究

把大肠杆菌β-半乳糖苷酶基因克隆到带有酵母半乳糖可诱导启动子GAL1的穿梭表达质粒pYESZ中,并把得到的重组质粒分别转化到两种不同遗传性状的宿主菌中,其中一株菌为蛋白酶活性缺失90％以上的pep4－3突变菌株。通过比较两株重组菌产生的β-半乳糖苷酶活性水平发现在所述实验条件下,蛋白酶缺失突变菌株中产生的β-卜半乳糖苷酶活水平不仅均要高于另一对照菌株,并且pep4-3突变菌株表现出受葡萄糖阻遏的严紧程度高及对诱导反应迅速等特点。此外,带有重组质粒的pep4－3突变菌株在葡萄糖阻遏培养基中最大生长量和重组对照菌株基本相同,但β-半乳糖苷酶在pep4－3突变菌株中的表达对细胞生长的影响明显小于对照菌株。     

Larval chemosensory projections and invasion of adult afferents in the antennal lobe of Drosophila

We have studied the fate of olfactory afferents during metamorphic transformation of Drosophila melanogaster. Intracellular labeling of afferents from larval head chemosensilla suggests that the larval antennal lobe may be an olfactory target, whereas tritocerebral and suboesophageal centers are likely targets of gustatory sensilla. Application of monoclonal antibody 22C10 shows that the larval antennal nerve is the precursor of the adult antennal nerve and is used as a centripetal pathway for the adult afferents. Likely guidance cues are larval olfactory afferents that persist during early metamorphosis. P[GAL4] enhancer trap lines are introduced as efficient markers to follow the establishment of adult sensory projections. β-Galactosidase and the bovine TAU protein were used as reporter proteins, and their expression patterns are compared. P[GAL4] lines MT14 and KL116 demonstrate that adult antennal afferents have arrived in the antennal lobe 24 h after pupariation and extend to the contralateral lobe 6 h later. Line MT14 expresses GAL4 mostly in basiconic sensilla and in certain trichoid sensilla, whereas KL116 is specific for trichoid and a small subset of basiconic sensilla. In the antennal lobe, largely complementary subsets of glomeruli are labeled by the two lines, in agreement with the observation that particular types of sensilla project to particular target glomeruli. © 1997 John Wiley & Sons, Inc. J Neurobiol 32: 281–297, 1997.     

Cell-type-specific calcium responses to drought, salt and cold in the Arabidopsis root

Little is known about the signalling processes involved in the response of roots to abiotic stresses. The Arabidopsis root is a model system of root anatomy with a simple architecture and is amenable to genetic manipulation. Although it is known that the root responds to cold, drought and salt stress with increases in cytoplasmic free calcium, there is currently no information about the role(s) of the functionally diverse cell types that comprise the root. Transgenic Arabidopsis with enhancer-trapped GAL4 expression in specific cell types was used to target the calcium reporting protein, aequorin, fused to a modified yellow fluorescent protein (YFP). The luminescence output of targeted aequorin enabled in vivo measurement of changes in cytosolic free calcium concentrations ([Ca2+]cyt) in specific cell types during acute cold, osmotic and salt stresses. In response to an acute cold stress, all cell types tested as well as plants constitutively expressing aequorin displayed rapid [Ca2+]cyt peaks. However, there were significant quantitative differences between different cell types in terms of their response to cold stress, osmotic stress (440 mM mannitol) and salt stress (220 mM NaCl), implying specific roles for certain cell types in the detection and/or response to these stimuli. In response to osmotic and salt stress, the endodermis and pericycle displayed prolonged oscillations in cytosolic calcium that were distinct from the responses of the other cell types tested. Targeted expression of aequorin circumvented the technical difficulties involved in fluorescent dye injection as well as the lack of cell specificity of constitutively expressed aequorin, and revealed a new level of complexity in root calcium signalling.     

Fluorescence based assay of GAL system in yeast Saccharomyces cerevisiae

The GAL1 promoter is one of the strongest inducible promoters in the yeast Saccharomyces cerevisiae. In order to improve recombinant protein production we have developed a fluorescence based method for screening and evaluating the contribution of various gene deletions to protein expression from the GAL1 promoter. The level of protein synthesis was determined in 28 selected mutant strains simultaneously, by direct measurement of fluorescence in living cells using a microplate reader. The highest, 2.4-fold increase in GFP production was observed in a gal1 mutant strain. Deletion of GAL80 caused a 1.3-fold increase in fluorescence relative to the isogenic strain. GAL3, GAL4 and MTH1 gene deletion completely abrogated GFP synthesis. Growth of gal7, gal10 and gal3 also exhibited reduced fitness in galactose medium. Other genetic perturbations affected the GFP expression level only moderately. The fluorescence based method proved to be useful for screening genes involved in GAL1 promoter regulation and provides insight into more efficient manipulation of the GAL system.     

Joint development in the Drosophila leg: cell movements and cell populations

Flexible joints separate the rigid sections of the insect leg, allowing them to move. In Drosophila, the initial patterning of these joints is apparent in the larval imaginal discs from which the adult legs will develop. Here, we describe the later patterning and morphogenesis of the joints, which occurs after pupariation (AP). In the tibial/tarsal joint, the apodeme insertion site provides a fixed marker for the boundary between proximal and distal joint territories (the P/D boundary). Cells on either side of this boundary behave differently during morphogenesis. Morphogenesis begins with the apical constriction of distal joint cells, about 24 h AP. Distal cells then become columnar, causing distal tissue nearest the P/D boundary to fold into the leg. In the last stage of joint morphogenesis, the proximal joint cells closest to the P/D boundary align and elongate to form a "palisade" (a row of columnar cells) over the distal joint cells. The proximal and distal joint territories are characterised by the differential organisation of cytoskeletal and extracellular matrix proteins, and by the differential expression of enhancer trap lines and other gene markers. These markers also define a number of more localised territories within the pupal joint.