A 38-kilodalton low-CO2-inducible polypeptide is associated with the pyrenoid in Chlorella vulgaris

In the green alga Chlorella vulgaris UAM 101, a CO₂-concentrating mechanism (CCM) is induced when cells are transferred from high (5%) to low (0.03%) CO₂ concentrations. The induction of the CCM is correlated with de-novo synthesis of several polypeptides that remain to be identified. The internal carbonic anhydrase (CA; EC 4.2.1.1) activity increased 6- to 7-fold within 6 h of acclimation to air. When crude homogenates were further separated into soluble and insoluble fractions, nearly all of the CA activity was associated with the membrane fraction. Immunoblot analysis of cell homogenates probed with antibodies raised against the 37-kDa subunit of periplasmic CA of Chlamydomonas reinhardtii showed a cross-reaction with a single 38-kDa polypeptide in both high- and low-CO₂-grown cells. The up-regulation of the expression of the 38-kDa polypeptide was closely correlated with the increase in internal CA activity. Furthermore, its subcellular location was also correlated with the distribution of the activity. Immunoblot analysis of pyrenoid fractions showed that the 38-kDa polypeptide was concentrated in the pyrenoids from low-CO₂-grown cells but was not present in pyrenoids from high-CO₂-grown cells. In addition, immunogold labeling experiments showed that the protein was mainly associated with membranes crossing the pyrenoid, while it was absent from the pyrenoid matrix. These studies have identified a putative intracellular CA polypeptide associated with the pyrenoid in Chlorella vulgaris, suggesting that this structure may play an important role in the operation of the CCM and the acclimation to low CO₂ conditions. Received: 16 July 1997 / Accepted: 26 April 1998     

21-kDa polypeptide,a low-molecular-weight cyclophilin,is released from pollen of higher plants into the extracellular medium in vitro

Calcium ions play a key role in the elongation and orientation of pollen tubes. We found that significant amounts of 21-kDa polypeptide were specifically released into the extracellular medium when pollen grains of lily, Lilium longiflorum Thunb., were incubated in the presence of EGTA or at low concentrations of Ca²⁺. This phenomenon was also dependent on pH and on the concentrations of MgCl₂ in the medium; the release of 21-kDa polypeptide from pollen was suppressed by increasing the MgCl₂ concentration and by lowering pH. Germination of pollen grains was inhibited in the medium into which the 21-kDa polypeptide had been released. This inhibition was irreversible; germination did not occur on transfer of the pollen grains into basal culture medium. Immuno-electron microscopy using an antibody against 21-kDa polypeptide showed that this polypeptide was present in the cytoplasm, vegetative nucleus and generative cell. When the pollen was treated with a medium containing EGTA, the density of 21-kDa polypeptide in the cytoplasm significantly decreased, but its density in vegetative nuclei and the generative cell did not, suggesting that only cytoplasmic 21-kDa polypeptide was released into the extracellular medium. The 21-kDa polypeptide was also present in the pollen of other higher-plant species, such as Tradescantia virginiana L., Nicotiana tabacum L. (angiosperms), and Cryptomeria japonica D. Don. (gymnosperm), and was also released into the medium in the presence of EGTA. In the case of C. japonica, however, it was released from pollen at alkaline pH above 8.5. The expression of 21-kDa polypeptide was not pollen-specific, because 21-kDa components immunoreactive with the anti-21-kDa polypeptide serum also existed in vegetative organs and cells of lily or tobacco. However, the 21-kDa polypeptide was not released into the extracellular medium from cultured tobacco BY-2 cells, even in the presence of EGTA. Amino acid sequences of two peptide fragments derived from 21-kDa polypeptide matched well those of low-molecular-weight cyclophilin (CyP). The antiserum against 21-kDa polypeptide recognized the CyP A from calf thymus and that in A431 carcinoma cells. The 21-kDa polypeptide fraction purified from lily pollen possessed peptidyl-prolyl cis-trans isomerase activity, which was suppressed by cyclosporin A (CsA), an inhibitor of enzyme activities of CyPs. From these results, we concluded that the 21-kDa polypeptide is a low-molecular-weight CyP. The present study showed that CyP in the pollen of higher plants is released into the extracellular matrix under unfavorable conditions.Abbreviations CaM Calmodulin - CBB Coomassie-brilliant-blue - CsA Cyclosporin A - CyP Cyclophilin     

Identification of a Novel Mitogen-Inducible Gene (mig-6): Regulation during G1 Progression and Differentiation

We have identified a novel human gene (mig-6) that is rapidly induced upon mitogenic stimulation of quiescent fibroblasts. Serum induction is partially inhibited by protein synthesis inhibitors, indicating that mig-6 shares characteristics of both primary and secondary response genes. In contrast to most other mitogen-responsive genes, mig-6 mRNA expression is also regulated during normal cell cycle progression, showing a clear peak around mid-G₁. Consistent with the regulation of mig-6 expression during the cell cycle, terminal differentiation of HL-60 cells to either granulocytic or macrophage-like cells also leads to clear changes in the levels of mig-6 mRNA. These observations suggest that the mig-6 gene represents a useful tool for the analysis of cell cycle progression and perhaps terminal differentiation. As a first step toward a functional characterization we show that the Mig-6 polypeptide is located in the cytoplasm.     

Differential induction of cytochrome P450 gene expression by 4n-alkyl-methylenedioxybenzenes in primary rat hepatocyte cultures

A well-characterized primary rat hepatocyte culture system was used to examine induction patterns of cytochrome 450 gene expression by a series of 4-n -alkyl-methylenedioxybenzene (MDBs) derivatives. Hepatocytes were treated for 24, 48, or 72 hours with 0–500 μ M of the MDB compounds, and total cellular RNA and protein from each treatment was evaluated by hybridization and immunochemical techniques. Exposure to MDB congeners possessing increasing 4-n -alkyl side-chain length (C₀–C₈) resulted in dose- and structure-dependent activation of CYP2B1, 2B2, 3A1, 1A1, and 1A2 gene expression. At equivalent 100 μ M concentrations, the C₆ and C₈ MDB congeners were more effective than the prototypical inducer phenobarbital (PB) with respect to induction potency of CYP2B1, CYP2B2, and CYP3A1 gene expression. In contrast to PB, longer side-chain–substituted MDBs effectively induced CYP1A1 and CYP1A2 gene expression, in addition to the CYP2B and CYP3A genes. At equivalent molar concentrations, the catechol derivative of C₆-MDB was ineffective in its ability to induce CYP gene expression, indicating the importance of the intact methylenedioxy bridge in the induction mechanism. Levels of MDB-inducible CYP2B1 and CYP2B2 mRNA were highly correlated with CYP2B1/2 apoprotein levels, ascertained by immunoblot analysis of cultured hepatocyte S9 fractions. Compared with results from previous in vivo analysis (12), the current data indicate that pharmacodynamic factors may influence MDB induction profiles and that differences in MDB effects on CYP gene expression result depending on distinct structure-activity relationships. © 1998 John Wiley & Sons, Inc. J Biochem Toxicol 12: 253–262, 1998     

Effects of carbon sources on extracellular lipase production and lipA transcription in Acinetobacter calcoaceticus

  The effects of lactic acid, oleic acid, gum arabic and their mutual interactions, on the production of extracellular lipase and the regulation of the expression of the lipase encoding gene (lipA) in Acinetobacter calcoaceticus were investigated. Formation of extracellular lipase was measured in culture supernatants of wild-type strain BD413 and expression of the lipA gene was monitored in vivo with a chromosomal fusion of lipA to lacZ. At the level of lipA expression only oleic acid had a significant effect; it lowered expression. Neither gum arabic nor lactic acid had any effect on lipA expression. On the other hand, the yield of extracellular lipase increased 2–5 times by the addition of gum arabic, possibly due to the release of cell surface-bound lipase. An interaction between oleic acid and lactic acid was also detected. Journal of Industrial Microbiology & Biotechnology (2000) 24, 25–30. Received 03 May 1999/ Accepted in revised form 04 September 1999     

Synthesis and characterisation of (Z)-styrylbenzene derivatives as potential selective anticancer agents

To identify anticancer agents with high potency and low toxicity, a series of (Z)-styrylbenzene derivatives were synthesised and evaluated for anticancer activities using a panel of nine cancer cell lines and two noncancerous cell lines. Most derivatives exhibited significant anti-proliferative activities against five cancer cell lines, including MGC-803 and BEL-7402. (Z)-3-(p-Tolyl)-2-(3,4,5-trimethoxyphenyl)acrylonitrile (6h) showed a strong inhibitory effect on MGC-803 cells (IC₅₀?50?50 value of 6h in L-02 cells was 10,000-fold higher than in MGC-803 cells. Compound 6h inhibited proliferation of BEL-7402 cells by arresting at the G2/M phase through up-regulation of cyclin B1 expression, down-regulation of cyclin A and D1 expression, and induction of apoptosis. In addition, 6h inhibited the migration of BEL-7402 cells and the formation of cell colonies.     

Cell-cycle regulation of hydroxyproline-rich glycoprotein HRGPnt3 gene expression during the initiation of lateral root meristems

Analysis of transgenic tobacco plants containing a tobacco hydroxyproline-rich glycoprotein HRGPnt3 gene promoter-β-glucuronidase (GUS) gene fusion (HRGPnt3-uidA) showed that this promoter is active not only in the early stages of initiation of lateral roots as previously described, but also in the initiation of adventitious roots, with similar selective expression in a subset of pericycle cells. HRGPnt3 is also induced during initiation of hairy roots following transformation by Agrobacterium rhizogenes. The auxin indole acetic acid (IAA) induces an increase in the number of characteristic discrete sites of HRGP-nt3 expression. It is shown that these sites are destined to form new root primordia from pericycle cells of both adventitious and main roots. Dose-dependent induction of root meristems by auxin overcomes the limitations of this naturally stochastic process and makes lateral root initiation amenable to biochemical analysis. Quiescent pericycle cells, which are developmentally arrested in the G₂ phase of the cell cycle, rapidly progress into M phase upon mitogenic stimulation. Colchicine and nocodazole, which block completion of mitosis, inhibited the activation of the HRGPnt3 promoter but did not block auxin induction of parA, a marker for de-differentiation in leaf mesophyll cell-derived protoplasts. Hydroxyurea, which inhibits cell-cycle progression at the G₁/S-phase transition and also blocks lateral root initiation, did not inhibit HRGPnt3 induction. Thus, HRGPnt3 induction precedes completion of the first cell division during primordium formation, and is one of the initial steps in a sequential program of gene expression activated upon stimulation of cell division for the development of a new meristem during lateral root initiation.     

Subcellular Localization of the Major Autolysin,ATL and Its Processed Proteins in Staphylococcus aureus

The Staphylococcus aureus autolysin gene, atl, encodes a unique 138-kDa protein (ATL) with amidase and glucosaminidase domains. ATL has been suggested to undergo proteolytic processing to generate two extracellular peptidoglycan hydrolases, 51-kDa endo-β-N-acetylglucosaminidase (51-kDa GL) and 62-kDa N-acetylmuramyl-L-alanine amidase (62-kDa AM). To investigate cell-associated bacteriolytic enzymes for atl gene products, proteins were extracted from the cells as follows. The cells were exposed to 3 M LiCl followed by 4% SDS. Thereafter, the cells were disrupted and again extracted with 4% SDS. Whole SDS-stable cell-associated bacteriolytic proteins were extracted without disrupting the cells. Exposure to 3 M LiCl released major 138-, 115-, 85-, 62- and 51-kDa bacteriolytic proteins, and subsequent 4% SDS extraction released major 138- and 115-kDa bacteriolytic proteins. These bacteriolytic proteins were missing in extracts of atl mutant RUSAL2 (S. aureus RN450 atl:: Tn551). Immunoblotting studies suggest that these are all atl gene products: the 138-kDa protein is an ATL with a cleaved signal sequence; the 115-and 85-kDa proteins are intermediates; and the 51- and 62-kDa proteins are cell-associated 51-kDa GL and 62-kDa AM, respectively. The trypsin susceptibility of these proteins suggests that they are located outside the cell membrane. Differences in extractability and immunoelectron microscopic studies suggest that atl gene products are associated with cells in two different ways, LiCl extractable and non extractable. We suggest that the 138-kDa ATL undergoes processing through intermediate proteins (115- and 85-kDa proteins) to mature as the active cell cluster-dispersing enzymes 51-kDa GL and 62-kDa AM on the cell surface.     

Transgene-coded chimeric proteins as reporters of intracellular proteolysis: Starvation-induced catabolism of a lacZ fusion protein in muscle cells of Caenorhabditis elegans

The product of an integrated transgene provides a convenient and cell-specific reporter of intracellular protein catabolism in 103 muscle cells of the nematode Caenorhabditis elegans. The transgene is an in-frame fusion of a 5′-region of the C. elegans unc-54 (muscle myosin heavy-chain) gene to the lacZ gene of Escherichia coli [Fire and Waterston (1989): EMBO J 8:3419–3428], encoding a 146-kDa fusion polypeptide that forms active β-galactosidase tetramers. The protein is stable in vivo in well-fed animals, but upon removal of the food source it is inactivated exponentially (t_1/2 = 17 h) following an initial lag of 8 h. The same rate constant (but no lag) is observed in animals starved in the presence of cycloheximide, implying that inactivation is catalyzed by pre-existing proteases. Both the 146-kDa fusion polypeptide (t_1/2 = 13 h) and a major 116-kDa intermediate (t_1/2 = 7 h) undergo exponential physical degradation after a lag of 8 h. Degradation is thus paradoxically faster than inactivation, and a number of characteristic immunoreactive degradation intermediates, some less than one-third the size of the parent polypeptide, are found in affinity-purified (active) protein. Some of these intermediates are conjugated to ubiquitin. We infer that the initial proteolytic cleavages occur in the cytosol, possibly by a ubiquitin-mediated proteolytic pathway and do not necessarily inactivate the fusion protein tetramer. J. Cell. Biochem. 67:143–153, 1997. © 1997 Wiley-Liss, Inc.     

Cellulosome-like entities inBacteroides cellulosolvens

Cellulosome-like complexes were identified in the broth and sonic extracts of cellobiose-and cellulose-grown cells ofBacteroides cellulosolvens. The extracellular fractions contained three to four major polypeptides and several minor polypeptide bands that were localized in two major gel filtration peaks indicating average molecular weights of about 700 kDa and >10 MDa. A relatively large molecular weight component (M_r 230 kDa) was found to contain carbohydrate, but no apparent enzymatic activity of its own could be detected. The cell sonicate displayed a more complicated polypeptide profile, and glycosylated polypeptides were larger (ca. 310 and 290 kDa) than that of the extracellular fraction. The 230-kDa extracellular component interacted strongly with the GSI isolectin fromGriffonia simplicifolia, exhibited immunochemical cross-reactivity with the S1 subunit of the cellulosome fromClostridium thermocellum, and displayed anomalous pH- and salt-dependent migratory behavior in SDS-PAGE. Taken together, this evidence strongly suggests a structural similarity between the glycoconjugates of these two distinct cellulolytic bacteria. A major 84-kDa polypeptide was identified as a xylanase, and a 50-kDa polypeptide displayed endoglucanase activity. Additional biochemical and cytochemical evidence indicated that cellulosome-like cellulolytic complexes are associated with the cell surface in this bacterium.     

Optical Resolution of (±)-Metyrosine

A lipase gene (lip) and its activator gene (act) on a 2.9 kb BglII-EcoRI fragment from Pseudomonas sp. KWI-56 were cloned in Escherichia coli using pUC19 as a vector plasmid. From the sequencing results, the open reading frames of the lip and the act were found to contain 1092 and 1032 nucleotides, respectively. The act existed downstream of the lip with the same orientation. When the lip was expressed in E. coli using the lac promoter on the pUC plasmid vector, the lipase activity of E. coli carrying both the lip and the act was 200-fold greater than that carrying only the lip. This result suggested the act was important in the expression of the lip in E. coli.     

The expression of the salt-responsive gene salT from rice is regulated by hormonal and developmental cues

The expression pattern of the salT gene was analyzed in different cell types and organs of rice (Oryza sativa L.) in response to saline and hormonal treatments to obtain detailed information on the physiological cues controlling gene expression. Gel blot analysis of RNA and in-situ hybridization performed on seedlings grown for 10 ds in the presence of 1% NaCl revealed that salT was expressed mainly in the younger tissues of the plant. In contrast, 6-week-old plants exhibited maximal salT mRNA accumulation in sheaths of older leaves. In addition, salT was normally expressed in rapidly dividing suspension-cultured cells, but not in quiescent ones. Altogether, these results may indicate that salT expression in each region of the plant is dependent on the metabolic activity of the cells as well as on whether or not they are stressed. The effects of two growth regulators, abscisic acid (ABA) and gibberellic acid, were investigated in combination with the effects of NaCl. Gibberellic acid had a synergistic effect on the induction of the salT gene when combined with 0.5% NaCl, but did not induce salT on its own. At 10 μM, ABA induced salT both in the absence of NaCl and in its presence. Whereas 1 μM ABA acted additively with NaCl to induce gene expression, 5 μM ABA with NaCl was only as effective as NaCl alone. This may indicate that the two stimuli act independently and possibly through antagonistic signal transduction pathways. Received: 26 March 1998 / Accepted: 11 July 1998     

Cloning and characterization of a gene encoding wheat starch synthase I

 A cDNA clone, and a corresponding genomic DNA clone, containing full-length sequences encoding wheat starch synthase I, were isolated from a cDNA library of hexaploid wheat (Triticum aestivum) and a genomic DNA library of Triticum tauschii, respectively. The entire sequence of the starch synthase-I cDNA (wSSI-cDNA) is 2591 bp, and it encodes a polypeptide of 647 amino-acid residues that shows 81% and 61% identity to the amino-acid sequences of SSI-type starch synthases from rice and potato, respectively. In addition, the putative N-terminal amino-acid sequence of the encoded protein is identical to that determined for the N-terminal region of the 75-kDa starch synthase present in the starch granule of hexaploid wheat. Two prominent starch synthase activities were demonstrated to be present in the soluble fraction of wheat endosperm by activity staining of the non-denaturing PAGE gels. The most anodal band (wheat SSI) shows the highest staining intensity and results from the activity of a 75-kDa protein. The wheat SSI mRNA is expressed in the endosperm during the early to mid stages of wheat grain development but was not detected by Northern blotting in other tissues from the wheat plant. The gene encoding the wheat SSI (SsI-D1) consists of 15 exons and 14 introns, similar to the structure of the rice starch synthase-I gene. While the exons of wheat and rice are virtually identical in length, the wheat SsI-D1 gene has longer sequences in introns 1, 2, 4 and 10, and shorter sequences in introns 6, 11 and 14, than the corresponding rice gene. Received: 5 June 1998 / Accepted: 29 September 1998     

Improving heterologous protein expression in transfected Drosophila S2 cells as assessed by EGFP expression

Drosophila melanogaster S2 cells were co-transfected with plasmid vectors containing the enhanced green fluorescent protein gene (EGFP), under the control of metallothionein promoter (pMt), and the hygromycin selection gene, in view of establishing parameters for optimized gene expression. A protocol of transfection was worked out, leading after hygromycin selection, to ∼90% of S2MtEGFP fluorescent cells at day 5 after copper sulfate (CuSO₄) induction. As analyzed by confocal microscopy, S2MtEGFP cell cultures were shown to be quite heterogeneous regarding the intensity and cell localization of fluorescence among the EGFP expressing cells. Spectrofluorimetry kinetic studies of CuSO₄ induced S2MtEGFP cells showed the EGFP expression at 510 nm as soon as 5 h after induction, the fluorescence increasing progressively from this time to attain values of 4.6 × 10⁵ counts/s after 72 h of induction. Induction with 700 μM of CuSO₄ performed at the exponential phase of the S2MtEGFP culture (10⁶ cells/mL) led to a better performance in terms of cell growth, percent of fluorescent cells and culture intensity of fluorescence. Sodium butyrate (NaBu) treatment of CuSO₄ induced S2MtEGFP cell cultures, although leading to a loss of cell culture viability, increased the percent of EGFP expressing cells and sharply enhanced the cell culture fluorescence intensity. The present study established parameters for improving heterologous protein expression in stably transfected Drosophila S2 cells, as assessed by the EGFP expression.     

Engineering of <Emphasis Type="Italic">Bacillus</Emphasis> lipase by directed evolution for enhanced thermal stability: effect of isoleucine to threonine mutation at protein surface

A lip gene from a Bacillus isolate was cloned and expressed in E. coli. By thermal denaturation analysis, T_1/2 of lipase was observed to be 7 min at 50°C with less than 10% activity after 1 h incubation at 50°C. To expand the functionality of cloned lipase, attempts have been made to create thermostable variants of lip gene. A lipase variant with an isoleucine to threonine amino acid substitution at the protein surface was isolated that demonstrated higher thermostability than its wild type predecessor. To explore the structure–function relationship, the lip gene product of wild type (WT) and mutant was characterized in detail. The mutation enhanced the specific activity of enzyme by 2-folds when compared with WT. The mutant enzyme showed enhanced T_1/2 of 21 min at 50°C. The kinetic parameters of the mutant enzyme were significantly altered. The mutant enzyme displayed higher affinity for substrate (decreased K _m ) in comparison to the wild type. The k _cat and catalytic efficiency (k _cat/K _m ) of mutant were also enhanced by two and five times, respectively, as compared with the WT. The mutation resides on the part of helix which is exposed to the solvent and away from the catalytic triad. The replacement of a solvent exposed hydrophobic residue (Ile) in WT with a hydrophilic residue (Thr) in mutant might impart thermostability to the protein structure.     

Characterization of 14 different putative protein kinase cDNA clones of the C4 plantSorghum bicolor

C₄ photosynthesis is functionally dependent on metabolic interactions between mesophyll- and bundle-sheath cells. Although the C₄ cycle is biochemically well understood, many aspects of the regulation of enzyme activities, gene expression and cell differentiation are elusive. Protein kinases are likely involved in these regulatory processes, providing links to hormonal, metabolic and developmental signal-transduction pathways. Here we describe the cloning and characterization of 14 different putative protein kinase leaf cDNA clones from the C₄ plant Sorghum bicolor. These genes belong to three different protein kinase subfamilies: ribosomal protein S6 kinases, SNF1-like protein kinases, and receptor-like protein kinases. We report the partial cDNA sequences, mesophyll/bundle-sheath steady-state mRNA ratios, mesophyll/etiolated leaf steady-state mRNA ratios, and the positions of 14 protein kinase genes on the genetic map of S. bicolor. Only three of the protein kinase genes described here are expressed preferentially in mesophyll cells as compared with the bundle-sheath. Received: 16 January 1998 / Accepted: 3 April 1998     

A 23-kDa, root exudate polypeptide co-segregates with aluminum resistance in Triticum aestivum

We previously reported that treatment with aluminum (Al) leads to the accumulation of several polypeptides (12-, 23-, and 43.5-kDa) in root exudates of an Al-resistant cultivar of Triticum aestivum. In this report, we examine the segregation of the 23-kDa, Al-induced polypeptide and the Al-resistant phenotype in single F₂ plants arising from a cross between Al-resistant and Al-sensitive doubled-haploid (DH) lines. Single plants and plant populations were screened for sensitivity/resistance to Al using synthesis of 1,3-β-glucans (callose) as a sensitive marker for Al injury. Callose production in the Al-sensitive cv. Katepwa was approximately 3-fold higher than observed in the Al-resistant cv. Maringa, or a near-isogenic line derived from Katepwa and Maringa (Alikat), over a broad range of Al concentrations (0–100 μM). Similar results were observed with DH lines developed from cv. Katepwa, which produced two–four times more callose than DH lines developed from cv. Alikat. When single plants from F₁ and F₂ populations derived from a cross between DH Katepwa and DH Alikat were scored for Al-induced callose production after 4 days exposure to 100 μM Al, all F₁ plants were Al-resistant and F₂ plants segregated approximately 3:1 for Al-resistance/sensitivity. A backcross population derived from crossing Al-resistant F₁ with Al-sensitive Katepwa, segregated 1:1 for Al-resistance/sensitivity. Thus, the Al-resistant phenotype is inherited in a monogenic, dominant fashion in our DH lines. Enhanced accumulation of the Al-induced, 23-kDa polypeptide in root exudates was a trait which co-segregated with the Al-resistant phenotype in F₂ populations. This polypeptide was strongly labeled with S-methionine after 3 days of Al exposure and 6 h labeling. When root exudate polypeptides were separated by immobilized metal ion affinity chromatography, the 23-kDa polypeptide demonstrated significant Al-binding capacity. This polypeptide has been purified to near-homogeneity, providing an opportunity to isolate the gene(s) encoding this polypeptide.