The integration of a major hepatitis B virus gene into cell-cycle synchronized carrot cell suspension cultures and its expression in regenerated carrot plants

The percentage of cells successfully transformed by Agrobacteria is usually very low (not more than 10% and usually much less; Thomas et al., 1989). In this report we show that in carrot (Daucus carota L., ssp. sativus) cell suspensions transformation efficiency was strongly improved by using cell cycle synchronized cells. Fluorodesoxyuridine (FDU) was added for 24 h to inhibit thymidine synthesis. This blocked the cell cycle at the transition from G1- to S-phase. Then the block was released by applying thymidine. A high rate of transformation was obtained when Agrobacterium tumefaciens was added concurrently with thymidine. As examples of efficient and long term foreign gene expression in transgenic cells, the reporter enzyme -glucuronidase (GUS) as a model as well as the major hepatitis B virus surface protein were used. Both genes were linked to the MAS promoter. In carrot cell suspensions containing the viral gene, the corresponding viral protein was produced. In roots of mature transgenic carrot plants generated through somatic embryogenesis and raised in soil as well as in callus cultures derived thereof, the viral protein was also produced.     

Functions related to the receptor protein specified by the tsx gene of Escherichia coli

The receptor protein for the phage T6 and colicin K, coded by the tsx gene, facilitated the diffusion of all nucleosides and deoxynucleosides except cytidine and deoxcytidine through the outer membrane of Escherichia coli K-12 and Escherichia coli B. The tsx protein was coregulated with the nucleoside uptake system. Constitutive cytR and deoR mutants contained higher amounts of this protein than wild type strains. There was a good correlation between the initial rate of nucleoside uptake and the adsorption rate of phage T6. From the observation that nucleosides did not compete with each other in the translocation across the outer membrane and that they did not inhibit T6 adsorption it was concluded that the tsx protein forms a pore to which nucleosides have only little if any binding affinity.A major outer membrane protein specified by the ompA gene influenced the function of the tsx protein. Outer membranes of ompA mutants showed an enhanced binding of colicin K but the strains were colicin K insensitive (tolerant). The T6 phage adsorbed at the same rate and plated with the same efficiency as to ompA ⁺ strains. The uptake rate of thymidine and of adenosine was reduced by 16–33% in ompA mutants.The adsorption rate of phage T6 on mutants with altered lipopolysaccharide was the same or even higher than on wild type strains. However the plating efficiency was reduced ranging from 0–46%. Lipopolysaccharide plays no role in the primary adsorption of phage T6 but it is apparently required in a later step of the infection process.Non Standard Abbreviations LPS lipopolysaccharide - cAMP-CRP complex of cyclic adenosine 3,5-monophosphate (cAMP) and its receptor protein (CRP)     

The expression of a potato (Solanum tuberosum) S-RNase gene in Nicotiana tabacum pollen

Self-incompatibility in the Solanaceae is controlled by a single multiallelic genetic locus, the S locus. The stylar gene products of the S locus are abundant glycoproteins with ribonuclease activity, secreted in the transmitting tract tissue of the pistil. To investigate the structural and functional integrity and possible phenotypic effects of expression of the S-gene product in the male gametophyte, N. tabacum plants were transformed with a construct containing the genomic S ₂ -RNase coding sequence from S. tuberosum under the control of the promoter of the pollen-specific LAT52 gene from tomato. The expression pattern of the S ₂ RNase in the male gametophyte at both the protein and RNA level was found to be identical to that already reported for expression of the -glucuronidase (GUS) gene directed by the LAT52 promoter in transgenic tomato and tobacco. The S ₂ -RNase gene fusion led to a tissue-specific and developmentally regulated accumulation of the S ₂ polypeptide in pollen of transgenic tobacco plants. The transgenic protein product was of the same size and charge as the potato stylar product, had ribonuclease activity, and was glycosylated. The transgenic plants, however, did not show any morphological variations in their flower organs, and their fertility was not influenced by the accumulation of the S ₂ -RNase protein in pollen.     

Amplification of plasmid copy number by thymidine kinase expression in Saccharomyces cerevisiae

Summary A 2 m circle-based chimaeric plasmid containing the yeast LEU2 and the Herpes Simplex Virus type 1 thymidine kinase (HSV-1 TK) genes was constructed. Transformants grown under selective conditions for the LEU2 gene harboured the plasmid at about 15 copies per cell whilst selection for the HSV-1 TK gene led to an increase to about 100 copies per cell. Furthermore, the plasmid copy number could be controlled by the stringency of selection for the TK gene, and the increase in TK gene dosage was reflected in an increase in intracellular thymidine kinase activity. The mitotic stability of the plasmid in high-copy and low-copy number cells was determined. High-copy number cells showed a greater mitotic stability. The relationship of TK expression to plasmid copy number may be useful for the isolation of plasmid copy number mutants in yeast and the control of heterologous gene expression.     

Cloning and nucleotide sequence of the ptsG gene of Bacillus subtilis

Summary The ptsG gene of Bacillus subtilis encodes Enzyme II^G1c of the phosphoenolpyruvate: glucose phosphotransferase system. The 3 end of the gene was previously cloned and the encoded polypeptide found to resemble the Enzymes III^Glc of Escherichia coli and Salmonella typhimurium. We report here cloning of the complete ptsG gene of B. subtilis and determination of the nucleotide sequence of the 5 end. These results, combined with the sequence of the 3 end of the gene, revealed that ptsG encodes a protein consisting of 699 amino acids and which is similar to other Enzymes II. The N-terminal domain contains two small additional fragments, which share no similarities with the closely related Enzymes II^Glc and II^Nag of E. coli but which are present in the II^G1c-like protein encoded by the E. coli malX gene.     

Characterization of a gene highly expressed in the Brassica napus pistil that encodes a novel proline-rich protein

Pis 30, a gene highly expressed in Brassica napus pistils and encoding a novel proline-rich protein was isolated and characterized. Sequences homologous to the Brassica Pis 30 gene were found only in Arabidopsis thaliana. The Pis 30 gene encodes a mature protein of 8.4 kDa with no previously characterized protein domains and whose function remains unknown. PIS 30 contains especially high levels of Pro (33%), but also of Leu (14%), Phe (10%) and Ser (6%). Although it is a proline-rich protein, PIS 30 shows only limited similarity to previously characterized plant proline-rich proteins. When compared to the stigma-specific activity of the B. napus SLR1 gene promoter in pistils of transgenic Arabidopsis, an 808 bp Pis 30 promoter fragment directed -glucuronidase expression primarily in the ovary, as well as in the stigma.     

Transfection of mouse cells with thymidine kinase gene of herpes simplex virus

A mouse cell line (LP1-1) was established from the murine L cells deficient in thymidine kinase (L-M(TK ^–)) by prolonged selective culture on the hypoxanthine-aminopterine-thymidine (HAT) medium following transfection with the thymidine kinase gene of herpes simplex virus type-I (HSVTK). Southern blot analysis has shown that the viral TK gene was integrated into one of the chromosomal loci by a single copy. From this established cell line, the 5-bromo-2-deoxyuridine (BrdU) resistant revertant was brought out at a frequency of 1×10^–6 and from these BrdU resistant revertants (LP1BU), one out of 1×10⁵ cells could return to the HAT-resistant phenotype. The established LP1-1 cell line showed a typical biphasic nature of DNA synthesis as determined by the ³H-thymidine incorporation test. The activity of thymidine kinase was shown to be equivalent to that of the DNA polymerase- when the whole nuclear fraction or the nuclear matrix were used for examination. These results indicate that the transfected viral TK gene can be expressed under the normal cell-cycle regulation and its gene product can act as a component of the multienzyme complex which is responsible for DNA replication.     

Characterization of a 160 kD Photosystem II reaction center complex isolated from photoinhibited Dunaliella salina thylakoids

Photoinhibition in the green alga Dunaliella salina is accompanied by the formation of inactive Photosystem II reaction centers. In SDS-PAGE analysis, the latter appear as 160 kD complexes. These complexes are structurally stable, enough to withstand re-electrophoresis of excised gel slices from the 160 kD region. Western blot analyses with specific polyclonal antibodies raised against the D1 or D2 reaction center proteins provided evidence for the presence of both of these polypeptides in the re-electrophoresed 160 kD complex. Incubation of excised gel slices from the 160 kD region, under aerobic conditions at 4°C for a prolonged period of time, caused a break-up of the 160 kD complex into a 52 kD D1-containing and 80 and 26 kD D2-containing pieces. Western blot analysis with polyclonal antibodies raised against the apoproteins of CPI (reaction center proteins of PS I) did not show cross-reaction either with the 160 kD complex or with the 52, 80 and 26 kD pieces. The results show the presence of both D1 and D2 in the 160 kD complex and strengthen the notion of a higher molecular weight D1- and D2-containing complex that forms upon disassembly of photodamaged PS II units.Abbreviations Chl chlorophyll - PS II Photosystem II - D1 the 32 kD reaction center protein of PS II, encoded by the chloroplast psbA gene - D2 the 34 kD reaction center protein of PS II, encoded by the chloroplast psbD gene - CPI the 82 and 83 kD reaction center proteins of PS I, encoded by the chloroplast psaA and psaB genes - HL high light - LL low light This publication is dedicated to the memory of the late Professor Daniel Arnon, whom the first author will fondly remember for his many accounts of past scientific discovery and debate.     

Transference of a crystal protein gene from Bacillus thuringiensis and its expression in Bradyrhizobium sp. cells

The plasmid pHT409 that harbours the cryIA(a) gene for the production of a -endotoxin (crystal protein) from Bacillus thuringiensis was transferred into Bradyrhizobium sp. A conjugal transfer system aiming to introduce the plasmid into the Bradyrhizobium sp. host from colonies of an Escherichia coli donor strain (DH5::pHT409) has been developed. As a result exconjugants were obtained in which the transferred plasmid has been detected by both microbiological and electrophoresis techniques. The cryIA(a) gene when inside the new host had a low expression level which was detected by immunoblotting.     

Silicon carbide fiber-mediated stable transformation of plant cells

Summary Maize (Zea mays, cv Black Mexican Sweet) (BMS) and tobacco (Nicotiana tabacum, cv Xanthi) tissue cultures were transformed using silicon carbide fibers to deliver DNA into suspension culture cells. DNA delivery was mediated by vortexing cells in the presence of silicon carbide fibers and plasmid DNA. Maize cells were treated with a plasmid carrying both the BAR gene, whose product confers resistance to the herbicide BASTA, and a gene encoding -glucuronidase (GUS). Tobacco cells were treated with two plasmids to co-transfer genes encoding neomycin phosphotransferase (NPTII) and GUS from the respective plasmids. Thirty-four BASTA-resistant BMS colonies and 23 kanamycin-resistant tobacco colonies recovered following selection contained intact copies of the BAR gene and NPTII genes, respectively, as determined by Southern blot analysis. Sixty-five percent of the resistant BMS colonies and 50% of the resistant tobacco colonies also expressed GUS activity. Intact copies of the GUS gene were observed in Southern blots of all resistant BMS and tobacco colonies that expressed GUS activity. These results indicate that a simple, inexpensive DNA delivery procedure employing silicon carbide fibers can be used to reproducibly transform cells of both monocotyledonous and dicotyledonous plant species.Mention of a trademark, vendor, or proprietary product does not constitute a guarantee or warranty of the product by the University of Minnesota or the USDA, and does not imply its approval to the exclusion of other products or vendors that may also be suitableCooperative investigation of the Minnesota Agriculture Experiment Station and the US Department of Agriculture, Agricultural Research Service. Supported in part by grants from The Quaker Oats Company, and Midwest Plant Biotechnology Consortium, USDA Subgrant # 593-0009-04. Minnesota Agricultural Experiment Station Publication No. 19,226.     

The <Emphasis Type="Italic">kgmB</Emphasis> gene,encoding ribosomal RNA methylase from <Emphasis Type="Italic">Streptomyces tenebrarius</Emphasis>, is autogenously regulated

The KgmB methylase (the kanamycin–gentamicin resistance methylase from Streptomyces tenebrarius) acts at G-1405 of 16S rRNA within the sequence CGUCA that is also found 6 bp in front of ribosomal binding site of the kgmB gene. The kgmBlacZ gene and operon fusions were used in order to test for translational autoregulation of kgmB gene. Overexpression of kgmB either in cis or in trans drastically decreased the level of expression of the fusion protein. However, mutagenesis eliminated any role for the CGUCA sequence in translational autoregulation. Hence, the role of second putative regulatory sequence (CGCCC) that was shown to be involved in regulation of another methylase, Sgm (sisomicin–gentamicin methylase gene from Micromonospora zionensis) was examined. It was shown that the Sgm methylase can also decrease the level of expression of the kgmBlacZ fusion protein.     

The white-phase-specific gene<Emphasis Type="Italic"> WH11</Emphasis> is not required for white-opaque switching in<Emphasis Type="Italic"> Candida albicans</Emphasis>

Phenotypic switching between white and opaque cells is important for adaptation to different host environments and for mating in the opportunistic fungal pathogen Candida albicans. Genes that are specifically activated in one of the two cell types are likely to be important for their phenotypic characteristics. The WH11 gene is a white-phase-specific gene that has been suggested to be involved in the maintenance of the white-phase phenotype. To elucidate the role of WH11 in white-opaque switching, we constructed mutants of the C. albicans strain WO-1 in which the WH11 gene was deleted. The wh11 mutants were still able to form both white and opaque cells whose cellular and colony phenotypes were indistinguishable from those of the wild type. Deletion of WH11 also did not affect the activation and deactivation of the white-phase-specific WH11 promoter and the opaque-phase-specific OP4 and SAP1 promoters in the appropriate cell type. Finally, switching from the white to the opaque phase and vice versa occurred with the same frequency in wild-type and wh11 mutants. Therefore, the WH11 gene is not required for phenotypic switching, and its protein product seems to have other roles in white cells, which are dispensable after the switch to the opaque phase.Communicated by E. Cerdá-Olmedo     

Site-specific recombination promotes linkage between trimethoprim- and sulfonamide resistance genes. Sequence characterization of dhfrV and sulI and a recombination active locus of Tn21

Summary A new gene for trimethoprim resistance, dhfrV, found in several plasmid isolates with different characteristics, was sequenced and found to correspond to a peptide of 157 amino acids showing 75% similarity with the previously characterized, drug resistant dihydrofolate reductase of type I. The sequenced surroundings of dhfrV in plasmid pLMO20, were found to be almost identical with genetic areas surrounding resistance genes in transposon Tn21 and in R plasmid R388. The trimethoprim resistance genes of pLMO20 and R388 and the spectinomycin resistance gene of Tn21 could be regarded as having been inserted, by recombination, into an evolutionary older structure containg the sulfonamide resistance gene, sulI. The latter gene was sequenced and found to correspond to a peptide of 279 amino acids and with a molecular weight of 30126 daltons. The inserted genes were found to be governed by a promoter situated in the highly conserved structure and also controlling expression of sulI. The insertion points of the different resistance genes were precisely defined, and at the 3 ends of the inserted genes inverted repeats allowing the formation of stem and loop structures were found. Similar structures were found at the 3 ends of the antibiotic resistance genes in Tn7, which could indicate similar recombination mechanisms to be effective in the evolutionary construction of all these different resistance elements.     

Molecular Cloning and Expression of a Pearl Oyster (<Emphasis Type="Italic">Pinctada fucata</Emphasis>) Homologue of Mammalian Putative Tumor Suppressor QM

The QM gene was originally identified as a putative tumor suppressor gene from a Wilms tumor cell line by subtractive hybridization assay. Later studies showed that the QM protein is multifunctional, involved in cell growth and differentiation, energy metabolism, respiration, and cytoskeletal function. In this report a full-length complementary DNA encoding a QM counterpart in pearl oyster (Pinctada fucata) was isolated. Phylogenetic analysis shows that oyster QM is more closely related to its insect homologues than to the mammalian homologues. Analysis of the tissue expression pattern of the oyster QM gene showed that oyster QM messenger RNA is expressed in all tissues tested, with highest levels in the digestive gland and mantle. Furthermore, we expressed the QM protein in Escherichia coli; Western blotting showed that the antibody of human QM is immunoreactive to the expressed oyster QM protein. Incubation of the oyster QM with Zn²⁺ resulted in the reduction of intrinsic emission fluorescence and a red-shift in the _max emission, indicating the occurrence of Zn²⁺-induced conformational changes. This evidence presents a possible mechanism for the critical function of zinc ion in the interaction of QM with Jun.     

An efficient purification with a high recovery of the inulin fructotransferase of Arthrobacter sp. A-6 from recombinant Escherichia coli

Inulin fructotransferase (IFTase, EC 2.4.1.93) of Arthrobacter sp. A-6 was purified from a cell extract of the recombinant Escherichia coli DH5 /pDFE cells carrying the IFTase gene using heat treatment followed by gel filtration. The enzyme was purified 45-fold to apparent homogeneity with a recovery of 79%. SDS-PAGE yielded a single protein band of M _r 46.5 kDa. The recombinant IFTase had a similar thermostability as the original enzyme from Arthrobacter sp. A-6.     

Lysis protein T of bacteriophage T4

Summary Lysis protein T of phage T4 is required to allow the phage's lysozyme to reach the murein layer of the cell envelope and cause lysis. Using fusions of the cloned gene t with that of the Escherichia coli alkaline phosphatase or a fragment of the gene for the outer membrane protein OmpA, it was possible to identify T as an integral protein of the plasma membrane. The protein was present in the membrane as a homooligomer and was active at very low cellular concentrations. Expression of the cloned gene t was lethal without causing gross leakiness of the membrane. The functional equivalent of T in phage is protein S. An amber mutant of gene S can be complemented by gene t, although neither protein R of (the functional equivalent of T4 lysozyme) nor S possess any sequence similarity with their T4 counterparts. The murein-degrading enzymes (including that of phage P22) have in common a relatively small size (molecular masses of ca. 18 000) and a rather basic nature not exhibited by other E. coli cystosolic proteins. The results suggest that T acts as a pore that is specific for this type of enzyme.     

The levels of repair of endonuclease III-sensitive sites, 6-4 photoproducts and cyclobutane pyrimidine dimers differ in a point mutant forRAD14, theSaccharomyces cerevisiae homologue of the human gene defective inXPA patients

In the accompanying paper we demonstrated that endonuclease III-sensitive sites in theMAT andHML loci ofSaccharomyces cerevisiae are repaired by the Nucleotide Excision Repair (NER) pathway. In the current report we investigated the repair of endonuclease III sites, 6-4 photoproducts and cyclobutane pyrimidine dimers (CPDs) in arad14-2 point mutant and in arad14 deletion mutant. TheRAD14 gene is the yeast homologue of the human gene that complements the defect in cells from xeroderma pigmentosum (XP) patients belonging to complementation group A. In the point mutant we observed normal repair of endonuclease III sites (i.e. as wild type), but no removal of CPDs at theMAT andHML loci. Similar experiments were undertaken using the recently createdrad14 deletion mutant. Here, neither endonuclease III sites nor CPDs were repaired inMAT a orHMR a. Thus the point mutant appears to produce a gene product that permits the repair of endonuclease III sites, but prevents the repair of CPDs. Previously it was found that, in the genome overall, repair of 6-4 photoproducts was less impaired than repair of CPDs in the point mutant. The deletion mutant repairs neither CPDs nor 6-4 photoproducts in the genome overall. This finding is consistent with the RAD14 protein being involved in lesion recognition in yeast. A logical interpretation is that therad14-2 point mutant produces a modified protein that enables the cell to repair endonuclease III sites and 6-4 photoproducts much more efficiently than CPDs. This modified protein may aid studies designed to elucidate the role of the RAD14 protein in lesion recognition.     

Nucleotide sequence, evolutionary origin and biological role of a rearranged cytokinin gene isolated from a wide host range biotype III Agrobacterium strain

Summary A DNA fragment with homology to the cytokinin (ipt) gene from biotype I Agrobacterium tumefaciens strain Ach5 was cloned from the Ti plasmid of the wide host range biotype III Agrobacterium strain Tm-4 and sequenced. The fragment contains an intact ipt coding sequence. However, the 3 non-coding region of this ipt gene is rearranged due to a 0.9 kb deletion fusing it to the 3 coding region of the neighbouring gene 6a, most of which was found to be deleted. The Tm-4 ipt gene is strongly related to the partially deleted ipt gene of the limited host range biotype III strain Ag162. To test its biological activity, the Tm-4 ipt gene was inserted into a specially constructed, disarmed Ti vector lacking tzs and tested on tobacco, where the rearranged ipt gene induced shoot formation. The cloned Tm-4 ipt gene was mutated with Tn5 and the intact gene on the wild-type Tm-4 Ti plasmid was replaced by the mutated gene. The resulting strain was avirulent on tobacco but normally virulent on the natural host of the wild-type strain Tm-4, grapevine. As the biotype 1 6b gene diminishes the effect of a corresponding ipt gene, a larger Tm-4 fragment carrying both the ipt gene and an adjacent 6b-like gene was also tested on tobacco and compared with the Tm-4 ipt fragment alone and with an ipt and 6b/ipt fragment derived from Ach5. The Tm-4 6b gene diminishes the effect of the Tm-4 ipt gene, showing the Tm-4 6b gene to be active as well. The Tm-4 6b/ipt combination is less effective than the Ach5 combination. These results provide further insight into the molecular basis of the host range differences between limited host range and wide host range biotype III Agrobacterium strains and show that the WHR cytokinin gene, although active, does not significantly contribute to tumour formation on the natural host of the WHR biotype III strains, grapevine.Abbreviations LHR limited host range - WHR wide host range - onc oncogenicity genes - iaaH indoleacetamide hydrolase gene - iaaM tryptophan monooxygenase gene - ipt isopentenyl transferase gene - tzs transzeatin secretion gene - NAA -naphthalene acetic acid - BAP 6-benzylaminopurine - Km kanamycin - Neo neomycin - Cm chloramphenicol     

Kinetics of Thymidine Uptake,Its Phosphorylation,and Incorporation into DNA in the Sugar-Beet Cell Culture

Thymidine uptake, its phosphorylation, and incorporation into DNA were studied in a fast-growing sugar-beet (Beta vulgaris L.) cell suspension. A high rate and specificity of thymidine uptake were observed: total uptake reached a steady-state level for 3 min. The average kinetic constants for thymidine uptake were calculated for eight-day-old cells at 20°C as K _M = 25 M and V _max = 11.6 pmol/(min mg fr wt). The values of K _M for thymidine phosphorylation in vivo (53.2 M) and K _M for thymidine kinase (EC 2.7.1.21), which we purified earlier from broad bean seedlings, were of the same order of magnitude. The kinetics of thymidine phosphorylation in vivo displayed two distinct phases, which were determined by external thymidine concentration. Above 100 M thymidine, the rate of the process tended to rise, indicating the possible involvement of another mechanism for thymidine phosphorylation, most likely with the participation of nonspecific nucleoside phosphotransferase (NPT; EC 2.7.1.77). A further stage of thymidine salvage, its incorporation into DNA, occurred with a high affinity for thymidine phosphates; K _M = 2.8 M. The presence of other nucleosides (uridine or a high concentration of adenosine) in the medium markedly inhibited thymidine uptake. Nevertheless, these nucleosides did not diminish the percentage of thymidine phosphates of total thymidine uptake, which pointed to the specificity of thymidine phosphorylation and the insignificance of NPT activity. The analogue of thymidine, 5"-amino-2",5"-dideoxythymidine, known as thymidine kinase inhibitor, had no effect on thymidine uptake. The data presented provide evidence that the main route of the thymidine salvage in fast-growing sugar-beet suspension engages thymidine kinase, and NPT is activated only when nucleosides flood the cell.