Complementation studies with the gas vesicle-encoding p-vac region of Halobacterium salinarium PHH1 reveal a regulatory role for the p-gvpDE genes

Gas-vesicle (Vac) synthesis in Halobacterium salinarium PHH1 involves the expression of the p-vac region consisting of 14 different gvp genes that are arranged in two clusters: p-gvpACNO and, oppositely oriented, p-gvpDEFGHIJKLM. The latter cluster of genes is transcribed as two units: p-gvpDE and p-gvpF–M. The 5′-terminus of the p-gvpF–M mRMA was located 169 nucleotides upstream of p-gvpF within p-gvpE. The p-gvpG and p-gvpK gene was expressed in Escherichia coli and antibodies to proteins obtained were raised in rabbits. Both proteins could be detected in halobacterial cell lysates; in gas-vesicle preparations, however, neither GvpG nor GvpK could be found. The requirement for single p-gvp gene expression for gas-vesicle synthesis was determined by transformation experiments using the Vac^? species Haloferax volcanii as recipient. Construct ΔA containing all p-gvp genes except for p-gvpA, encoding the major gas-vesicle structural protein, produced Vac^? transformants, but the addition of p-gvpA on a second vector restored gas-vesicle synthesis to wild-type level (Vac⁺⁺). Similarly, double transformants containing p-gvpD–M plus p-gvpACNO, or p-gvpG–M (fused to the promoter of the halobacterial ferredoxin gene for expression) plus p-gvpFED–ACNO were Vac⁺⁺. Transformants containing the p-vac region either lacking gvpA, gvpF, or gvpGHI were Vac^?, indicating the absolute requirement of these gvp genes (or at least one in the case of gvpGHI) for gas-vesicle formation. Double transformants containing the constructs p-gvpF–M plus p-gvpACNO (ΔDE) accumulated gas vesicles (Vac⁺) but synthesized fewer than the wild type, showing that the p-gvpDE genes are not necessary for gas-vesicle assembly. A repressor function affecting the synthesis of the p-gvpF–M mRNA could be suggested for p-gvpD and the 5′- region of its mRNA.     

Transport of rosettes from the golgi apparatus to the plasma membrane in isolated mesophyll cells ofZinnia elegans during differentiation to tracheary elements in suspension culture

Summary Rosettes of six particles have been visualized by freeze-fracture in the protoplasmic fracture (PF) faces of: a) the plasma membrane, b) Golgi cisternae, and c) Golgi-derived vesicles in mesophyll cells ofZinnia elegans that had been induced to differentiate synchronously into tracheary elements in suspension culture. These rosettes have been observed previously in the PF face of the plasma membranes of a variety of cellulose-synthesizing cells and are thought to be important in cellulose synthesis. InZinnia tracheary elements, the rosettes are localized in the membrane over regions of secondary wall thickening and are absent between thickenings. The observation of rosettes in the Golgi cisternae and vesicles suggests that the Golgi apparatus is responsible for the selective transport and exocytosis of rosettes in higher plants, as has been previously indicated in the algaMicrasterias (Giddings et al. 1980). The data presented indicate that the Golgi apparatus has a critical role in the control of cell wall deposition because it is involved not only in the synthesis and export of matrix components but also in the export of an important component of the cellulose synthesizing apparatus. The rosettes are present in the plasma membrane and Golgi vesicles throughout the enlargement of the secondary thickening, suggesting that new rosettes must be continually inserted into the membrane to achieve complete cell wall thickening.Abbreviations EF Golgi vesicles, exoplasmic fracture; the plasma membrane, extracellular fracture - PF protoplasmic fracture     

Genes coding for cytochromec oxidase inParacoccus denitrificans

Several loci on theParacoccus denitrificans chromosome are involved in the synthesis of cytochromec oxidase. So far three genetic loci have been isolated. One of them contains the structural genes of subunits II and III, as well as two regulatory genes which probably code for oxidase-specific assembly factors. In addition, two distinct genes for subunit I have been cloned, one of which is located adjacent to the cytochromec ₅₅₀ gene. An alignment of six promoter regions reveals only short common sequences.     

Isolation and characterization of the gene from Pseudomonas syringae pv. phaseolicola encoding the phaseolotoxin-insensitive ornithine carbamoyltransferase

Summary The gene coding for the phaseolotoxin-insensitive ornithine carbamoyltransferase (OCTase) fromPseudomonas syringae pv.phaseolicola has been cloned and sequenced. The gene has a deduced coding capacity for a polypeptide with a calculated M, of 36520 daltons. Comparison of the amino acid sequence of the OCTase enzymes encoded by theP. aeruginosa argF and theEscherichia coli argI andargF genes with the deduced sequence of the newly identified gene shows that 79 amino acid residues are strictly conserved in all four polypeptides; among these 7 out of 9 residues are involved in enzyme function. Of three amino acid regions that have been implicated in substrate binding or catalysis, two are strictly conserved, and the third involved in carbamoylphosphate binding differs. This correlates well with published data showing that phaseolotoxin competes for the carbamoylphosphate binding site in the phaseolotoxin-sensitive OCTases. We propose that the gene be namedargK.     

Expression profiling of <Emphasis Type="Italic">Streptomyces peucetius</Emphasis> metabolic genes using DNA microarray analysis

Doxorubicin (DXR) and daunorubicin (DNR) are anthracycline antibiotics produced by Streptomyces peucetius and widely used as cancer chemotherapeutic agents. To improve their productivity, regulation of DXR/DNR synthesis genes as well as central metabolic pathway genes must be understood more clearly. So far, studies have focused on DXR/DNR gene regulation. To investigate the correlation between the central metabolic pathway genes and DXR/DNR productivity, we selected 265 genes involved in glycolysis, fermentation, the citric acid cycle, butanoate metabolism, etc., and searched for their sequences in the S. peucetius genome by comparing gene sequences to those of Streptomyces coelicolor. The homologous genes were amplified by PCR and arrayed on glass microarray slides. Gene expression was monitored under two different growth media conditions, R2YE and NDYE. Genes involved in the production of malonyl-CoA and propionyl-CoA, the main precursors for doxorubicin synthesis, were mainly upregulated in NDYE media. Genes related to acetyl-CoA and the urea cycle were also upregulated. These changes in gene expression were confirmed by real-time RT-PCR.     

Characterization of a Transcriptional Activator Controlling Trichothecene Toxin Biosynthesis

Trichothecene biosynthetic pathway genes are localized within a gene cluster in Fusarium sporotrichioides and require the zinc-finger containing protein, TRI6, for expression. We show here that TRI6 is able to bind within the promoter regions of nine different pathway genes and that TRI6 binding is involved in pathway gene activation. TRI6 binding occurs at three distinct sites in the TRI5 promoter, all of which contain the sequence TNAGGCCT. DNA fragments from the promoter regions of six other pathway genes containing this sequence are also substrates for TRI6 binding. Specific nucleotide changes in the TNAGGCCT sequence dramatically reduced TRI6 binding. Analysis of TRI6 binding within the TRI3 and TRI11 promoters and the TRI4-TRI6 intergenic region which do not contain the TNAGGCCT motif suggests that the minimum sequence required for TRI6 binding is YNAGGCC. Two potential TRI6 binding sites, T4A and T4B, were identified within the intergenic region for the divergently transcribed TRI4 and TRI6 genes. Alteration or deletion of the T4A site resulted in the loss of nearly all in vitro TRI6 binding and was correlated with the loss of promoter activity in vivo as measured by the expression of mutant TRI4(p)/GUS fusions. This establishes a physiological role for TRI6 binding and demonstrates that TRI6 is directly involved in the regulation of pathway gene expression. To determine if a predicted Cys2His2 zinc-finger motif at the C-terminus of TRI6 is involved in DNA binding, a C187A mutant was constructed in TRI6 using site-directed mutagenesis. The C187A mutant did not bind promoter DNA fragments, supporting the role of C187 in DNA binding. In addition, a TRI6 homologue in the distantly related macrocyclic trichothecene pathway of Myrothecium roridum (MRTRI6) was also shown to bind to the same TRI5 and TRI4 promoter fragments bound by TRI6. Together, these data confirm our previous proposal that TRI6 is an activator of trichothecene pathway gene expression and that DNA binding employs the C-terminal region of TRI6 containing three predicted Cys2His2 zinc fingers.     

Melanin synthesis activation dependent on inductive influences

Summary Gene activity in melanin-synthesising cells of albino periodic (a^p) mutants ofXenopus laevis is expressed phenotypically in the framework of the following cycle: a period of complete albinism succeeds the short peak of pigmentation, and melanosomes which have formed disappear. Skin and choroid coat melanophores as well as pigmented epithelium melanocytes are involved in this cycle.Parabiosis experiments allowed hormonal regulation of the melanin-synthesising gene activity to be excluded. Neural fold transplantations have shown that there is no inhibitory action on melanophore differentiation from the side of the a^p/a^p recipient.Melanin synthesis in pigmented epithelium of a^p mutants can be activated to level comparable with that of wild-type animals, if eye vesicles of a^p/a^p embryos have been brought into contact with endomesodermal derivatives of +/+ embryos at the early tail bud stage. Contact of eye vesicles of +/+ embryos with the endomesoderm of mutants prevents normal melanogenesis in pigmented epithelium of transplanted eyes. Eye transplantations made after the early tail bud stage have shown that gene expression in pigmented epithelium is independent of any external influences.Data obtained here demonstrate a selective induction of a separate cell type (melanocytes) and the stage-specificity of this process. In the a^p mutant the abnormal melanin synthesis is apparently predetermined by deficiency in the inducer of melanogenesis. Inhibition of melanogenesis by endomesoderm seems to be less probable. Data are discussed in the light of current ideas on the play of gene activity.     

Gas vesicles are strengthened by the outer-surface protein,GvpC

The critical collapse pressure of gas vesicles isolated from Anabaena flos-aquae decreased from 0.557 to 0.190 MPa when GvpC, the hydrophilic 22 kDa protein present on the outer surface of the gas vesicle, was removed by rising in 6 M urea. Recombinant GvpC was purified from inclusion bodies, produced in an E. coli strain containing an expression vector bearing the gene ecoding GvpC from A. flos-aquae, and then solubilised in 6 M urea. This recombinant GvpC became bound to gas vesicles that had been stripped of their native protein, when the urea was removed by dialysis; the amount which bound increased with the concentration of GvpC present. The critical pressure of these reconstituted gas vesicles increased to 0.533 MPa, 96% of the original value. These results indicate that the function of GvpC is to increase the strength of the structure.Non-standard abbreviations SBTI Soy bean trypsin inhibitor - Gvp Gas vesicle protein - SDS Sodium dodecyl sulphate - PAGE Polyacrylamide gel electrophoresis