Biochemical Characteristics of Guanine Nucleotide Binding Protein α-Subunit Recombinant Protein and Three Mutants: Investigation of a Domain Motion Involved in GDP-GTP Exchange

Our previous studies using molecular dynamics have shown a hinge bending motion between the helical and the GTPase domains of G_αT (Mello et al., 1998). The hypothesis that this motion is allowed by residues Gly56 and Gly179 and that this motion may affect the ligand exchange was tested in this work. Mutations of Gly 56 were carried out and the mutant proteins were expressed in Sf9 cells using the Baculovirus expression system. The recombinant proteins were purified using Ni-NTA affinity chromatography. The results for the (GDP/GTP) exchange assays showed that G56S and double mutants (D55G/G56S) proteins differ significantly from the wild type and D55G mutant forms. The K _d values for GTPγS binding of those mutants have decreased by approximately 10-fold. No difference in the GTPase activity was detected for the mutants. Thus, the biochemical results obtained support the conclusions of the computational studies.     

Characterization of glucose oxidase-negative mutants of a lignin degrading basidiomycete Phanerochaete chrysosporium

The isolation and characterization of glucose oxidase-negative (gox ^-) mutants of Phanerochaete chrysosporium, is described. These mutants are deficient not only in their ability to produce hydrogen peroxide (H₂O₂) but also in lignin degradation (2-¹⁴C-synthetic lignin¹⁴CO₂), ligninase and peroxidase activities, decolorization of the dye poly-R 481, and production of ethylene from -oxo--methylthiobutyric acid (KTBA). The gox ^- mutants retained, albeit at a lower level, the capacity to produce veratryl alcohol, a typical secondary metabolite, and produced conidia at a level comparable to that of the wild type. The addition of ligninase and/or glucose oxidase to a gox ^- mutant (GOX-10) did not enhance its capacity to degrade lignin. The Gox⁺ revertant strains regained glucose oxidase activity, the ability to degrade lignin, as well as the other characteristics that were missing in the gox ^- mutants. The results suggest that the genetic lesion in these mutants affects the regulation of a set of secondary metabolic characteristics.Abbreviations Gox glucose oxidase - KTBA -oxo--methylthiobutyric acid Journal article no. 11740 from the Michigan Agricultural Experiment Station     

Off-resonance R1rho relaxation outside of the fast exchange limit: an experimental study of a cavity mutant of T4 lysozyme

An ¹⁵N off-resonance R ₁ spin relaxation study of an L99A point mutant of T4 lysozyme is presented. Previous CPMG-based relaxation dispersion studies of exchange in this protein have established that the molecule interconverts between a populated ground state and an excited state (3.4%) with an exchange rate constant of 1450 s^–1 at 25°C. It is shown that for the majority of residues in this protein the offset dependence of the R ₁ relaxation rates cannot be well fit using models which are only valid in the fast exchange regime. In contrast, a recently derived expression by Trott and Palmer (J. Magn. Reson., 154, 157–160, 2002) which is valid over a wider window of exchange than other relations, is shown to fit the data well. Values of (signed) chemical shift differences between exchanging sites have been extracted and are in reasonable agreement with shift differences measured using CPMG methods. A set of simulations is presented which help establish the exchange regimes that are best suited to analysis by off-resonance R ₁ techniques.     

Cerulenin-resistant mutants of Saccharomyces cerevisiae with an altered fatty acid synthase gene

Cerulenin, an antifungal antibiotic produced by Cephalosporium caerulens, is a potent inhibitor of fatty acid synthase in various organisms, including Saccharomyces cerevisiae. The antibiotic inhibits the enzyme by binding covalently to the active center cysteine of the condensing enzyme domain. We isolated 12 cerulenin-resistant mutants of S. cerevisiae following treatment with ethyl methanesulfonate. The mechanism of cerulenin resistance in one of the mutants, KNCR-1, was studied. Growth of the mutant was over 20 times more resistant to cerulenin than that of the wild-type strain. Tetrad analysis suggested that all mutants mapped at the same locus, FAS2, the gene encoding the subunit of the fatty acid synthase. The isolated fatty acid synthase, purified from the mutant KNCR-1, was highly resistant to cerulenin. The cerulenin concentration causing 50% inhibition (IC₅₀) of the enzyme activity was measured to be 400 M, whereas the IC₅₀ value was 15 M for the enzyme isolated from the wild-type strain, indicating a 30-fold increase in resistance to cerulenin. The FAS2 gene was cloned from the mutant. Sequence replacement experiments suggested that an 0.8 kb EcoRV-HindIII fragment closely correlated with cerulenin resistance. Sequence analysis of this region revealed that the GGT codon encoding Gly-1257 of the FAS2 gene was altered to AGT in the mutant, resulting in the codon for Ser. Furthermore, a recombinant FAS2 gene, in which the 0.8 Kb EcoRV-HindIII fragment of the wild-type FAS2 gene was replaced with the same region from the mutant, when introduced into FAS2-defective S. cerevisiae complemented the FAS2 pheno-type and showed cerulenin resistance. These data indicate that one amino acid substitution (Gly Ser) in the subunit of fatty acid synthase is responsible for the cerulenin resistance of the mutant KNCR-1.     

Molecular basis for determining the sensitivity of eucaryotes to the antimitotic drug rhizoxin

Summary Rhizoxin, an antibiotic, exhibits potent anti-mitotic activity against most eucaryotic cells including those of higher vertebrates, plants and fungi by binding to -tubulin. ThebenA gene of three independently isolated rhizoxin-resistant (Rhi^r) mutants ofAspergillus nidulans was cloned, sequenced and compared with that of the wild-type, rhizoxin-sensitive (Rhi^s) strain. In all three Rhi^r mutants, the AAC codon for Asn-100 of thebenA -tubulin gene was altered to ATC, coding for Ile. Sequence displacement experiments confirmed that the substitution of Ile for Asn-100 confers resistance to rhizoxin in this organism. The amino acid sequences of -tubulin surrounding the 100th amino acid residue from the N-terminus including Asn-100 are highly conserved with a few exceptions. The fission yeastSchizosaccharomyces pombe and the budding yeastSaccharomyces cerevisiae are naturally occurring Rhi^r organisms whose -tubulin genes encode Ile and Val respectively at the 100th amino acid residue. The Ile-100 ofS. pombe and the Val-100 ofS. cerevisiae were altered to Asn using site-directed mutagenesis and gene displacement techniques. The resultant haploid strains of these two yeasts uniquely expressing -tubulin (Asn-100) instead of -tubulin (Ile-100 or Val-100) were found to be Rhi^s. Haploid yeast expressing -tubulin (Asn-100) is normal except for its sensitivity to rhizoxin. These results suggest that rhizoxin resistance has a common basis in both naturally occurring species and experimentally selected mutants in the substitution of Ile or Val for Asn-100 in -tubulin.     

C-Terminal exchange between Gα o and Gα i3 proteins differently modulates α2A-adrenoceptor activation

Chimeric G proteins, obtained by exchanging their C-terminal portion for that of a G protein from an unrelated class, drive the receptor selectivity to that corresponding to the introduced G protein domain. The _2A-adrenoceptor (_2AAR), which yielded an efficacious and weak [³⁵S]GTPS binding response by respectively G _o and G _i3 protein, was investigated in CHO-K1 cells co-expressing chimeric G proteins for which the six last C-terminal amino acids between G _o and G _i3 proteins, and reciprocally, were permuted. Activation of the chimeric G _{o / i3} protein was highly efficient whereas the G _{i3 / o} protein yielded a weak stimulation. These [³⁵S]GTPS binding responses were not different from their parental wild-type G _o and G _i3 proteins. Similar results were obtained with an _2AAR carrying a facilitating Thr³⁷³Lys mutation in a putative G protein interaction domain. These data indicate that the six terminal G _o protein amino acids do not constitute a major _2AAR interaction domain for G protein activation.     

Evidence of β-carotene 7,8(7′,8′) oxygenase (β-cyclocitral,crocetindial generating) in Microcystis

A -carotene oxygenase is described which occurs in the Cyanobacterium Microcystis. It cleaves -carotene and zeaxanthin specifically at the positions 7,8 and 7,8, while echinenone and myxoxanthophyll are not affected. The oxidative cleavage of -carotene leads to the formation of -cyclocitral and crocetindial and that of zeaxanthin to hydroxy--cyclocitral and crocetindial in nearly stoichiometric amounts. Oxidant is dioxygen as has been demonstrated by high incroporation (86%) of ¹⁸O₂ into -cyclocitral. -Carotene oxygenase is membrane bound, sensitive to sulfhydryl reagents, antioxidants and chelating agents. Iron seems to be an essential part of the enzyme activity. Cofactors necessary for the reaction could not be detected.Abbreviations TLC thin layer-chromatography - PIPES piperazine-N,N-bis-(2-ethanesulfonate) Na - TES 2{[tris-(hydroxymethyl)-methyl]-amino} ethanesulfonic acid Dedicated to Professor G. Drews on occasion of his 60th birthday     

Cloning of an Arabidopsis thaliana cDNA encoding cystathionine β-lyase by functional complementation in Escherichia coli

Cystathionine -lyase, the second enzyme involved in the methionine biosynthetic pathway in plants, catalyses the synthesis of homocysteine from cystathionine. A cDNA encoding cystathionine -lyase was cloned from an Arabidopsis thaliana expression library by complementation of an Escherichia coli mutant deficient in this enzyme. As deduced from the full-length nucleotide sequence (1.7 kb), the polypeptide contains 464 amino acids and presents a predicted M _r of 50372. A. thaliana cystathionine -lyase exhibits 22% sequence identity with the E. coli corresponding enzyme and contains a 70 amino acid N-terminal additional sequence compared with the bacterial protein. Since the general features of chloroplast transit peptides could be observed in this amino-terminal extension, we propose a chloroplast localization for the cDNA-encoded enzyme. Southern blot analysis suggested that cystathionine -lyase is encoded by a single copy gene in A. thaliana.     

Control of yeast fed-batch process through regulation of extracellular ethanol concentration

At high growth rates, the biomass yield of bakers yeast (Saccharomyces cerevisiae) decreases due to the production of ethanol. For this reason, it is standard industrial practice to use a fed-batch process whereby the specific growth rate, , is fixed at a level below the point of ethanol production, i.e., _crit. Optimally, growth should be maintained at _crit, but in practice, this is difficult because _crit is dependent upon strain and culture conditions. In this work, growth was maintained at a point just above _crit by regulating ethanol concentration in the bioreactor. The models used for control design are shown, as are the experimental results obtained when this strategy was implemented. This technique should be applicable to all microorganisms that exhibit an overflow type metabolism.     

A cyclic adenosine 3′,5′-monophosphate-dependent protein kinase mutant of Neurospora crassa

A cpk mutant of Neurospora crassa with morphological alteration was obtained spontaneously during the cross between the wild-type and a glycerol utilizing cr-l strain. The growth rate of cpk was intermediate between the wild-type and cr-1 mutant strains. The cpk conidia contained a reduced level of carotenoid pigments as compared to the wild-type conidia. The cpk mutant had no detectable amount of cyclic adenosine 3,5-monophosphate (cAMP)-binding protein at all stages of growth tested. On a DEAE-Sephacel column chromatogram, protein kinase activity of the wild type was eluted at two peaks; the first peak was cAMP-dependent, and the second one was not. In contrast, the cpk strain had two peaks of cAMP-independent enzymes. It is suggested that cAMP-dependent protein kinase may be altered in the cpk mutant into a cAMP-independent type by an alteration of the regulatory subunit of this enzyme.Abbreviations cAMP Cyclic adenosine 3,5-monophosphate - 8-N₃-[³H] cAMP 8-azido-[³H]cyclic adenosine 3,5-monophosphate     

Application of the Criterion of Biological Time (τ n /τ0) to the Studies of Embryogenesis in Birds

It was shown on the example of chick embryo that the number ₀ ( _n /₀) can be recommended as a measure of biological time and, for this purpose, the duration of the minimal mitotic cycle during synchronous cleavage divisions should be determined (in minutes) in various avian species. Based on the preliminary data, one can propose the comparability and similarity of the temporal programs of gastrulation and somitogenesis in the chick embryo and embryos of some fish and amphibians.     

Roles of respiratory oxidases in protecting Escherichia coli K12 from oxidative stress

Isogenic strains of Escherichia coli that were defective in either of the two major aerobic terminal respiratory oxidases (cytochromes bo and bd) or in the putative third oxidase (cytochrome bd-II) were studied to elucidate role(s) for oxidases in protecting cells from oxidative stress in the form of H₂O₂ and paraquat. Exponential phase cultures of all three oxidase mutants exhibited a greater decline in cell viability when exposed to H₂O₂ stress compared to the isogenic parent wild-type strain. Cytochrome bo mutants showed the greatest sensitivity to H₂O₂ under all conditions studied indicating that this oxidase was crucial for protection from H₂O₂ in E. coli. Cell killing of all oxidase mutants by H₂O₂ was by an uncharacterized mechanism (mode 2 killing) with cell growth rate affected. The expression of (katG-lacZ), an indicator of intracellular H₂O₂, was 2-fold higher in a cydAB::kan mutant compared to the wild-type strain at low H₂O₂ concentrations (< 100 M) suggesting that cytochrome bd mutants were experiencing higher intracellular levels of H₂O₂. Protein fusions to the three oxidase genes demonstrated that expression of genes encoding cytochrome bd, but not cytochrome bo or cytochrome bd-II was increased in the presence of external H₂O₂. This increase in expression of (cydA-lacZ) by H₂O₂ was further enhanced in a cyo::kan mutant. The level of cytochrome bd determined spectrally and (cydA-lacZ) expression was 5-fold and 2-fold higher respectively in an rpoS mutant compared to isogenic wild-type cells suggesting that RpoS was a negative regulator of cytochrome bd. Whether the effect of RpoS is direct or indirect remains to be determined.     

α-Amylase structural genes in rye

Summary Rye -Amy1, -Amy2, and -Amy3 genes were studied in the cross between inbred lines using wheat -amylase cDNA probes. The -Amy1 and -Amy2 probes uncovered considerable restriction fragment length polymorphism, whereas the -Amy3 region was much more conserved. The numbers of restriction fragments found and the F₂ segregation data suggest that there are three -Amy1 genes, two or three -Amy2 genes, and three -Amy3 genes in rye. These conclusions were supported by a simultaneous study of -amylase isozyme polymorphism. The F₂ data showed the three individual -Amy1 genes to span a distance of 3cM at the locus on chromosome 6RL. The genes were mapped relative to other RFLP markers on 6RL. On chromosome 7RL two -Amy2 genes were shown to be separated by 5 cM. Linkage data within -Amy3 on 5RL were not obtained since RFLP could be detected at only one of the genes.     

Isolation of transposon Tn5 mutant affected in the metabolism of 18β-glycyrrhetinic acid

Transposon Tn5 mutagenesis was carried out to clarify the metabolism of 18-glycyrrhetinic acid (18-GRA) in Sphingomonas paucimobilis G5. A Tn5-induced mutant strain, named TM9638 that was affected in its metabolism of 18-GRA, was isolated. This mutant accumulated three metabolites, designated as M-A, M-B and M-C, from 18-GRA in the culture broth. M-A was accumulated in the culture broth of wild type strain, but M-B and M-C were not accumulated in the culture broth of wild type strain. M-B and M-C were isolated from the culture broth of TM9638 and the chemical structures were elucidated by NMR and GC-MS.     

Immunocytochemical evidence for intragranular processing of pro-opiomelanocortin in the melanotropic cells of the rabbit

Summary The immunogold technique, employing antisera with clear-cut specificities, was used to localise different processing stages of pro-opiomelanocortin (POMC) in rabbit melanotropic cells. While the antiserum against ₃-MSH labelled all the secretory granules including intrasaccular condensations in the Golgi apparatus, antisera against -MSH only labelled extra-Golgi secretory vesicles (SV). All extra-Golgi SV were likewise labelled with the three antisera against -MSH used, despite their different specificities for the desacetylated, N-acetylated or C-amidated forms of the peptide. The antibody against -endorphin also labelled the extra-Golgi SV, while only some SV were labelled with the antibody against -endorphin. These results correlate with biochemical data in favour of mainly — if not exclusively — intragranular processing of POMC. Except for ₃-MSH, the cleavage of which could coincide with Golgi packaging of secretory material, other post-translational modifications of the precursor seem to occur when SV are discharged outside the Golgi area. The cleavage of -endorphin appears to be a later step in POMC processing, occurring in some mature SV.     

Identification and characterization of gibberellin-insensitive mutants selected from among dwarf mutants of rice

In rice, many dwarf mutants have been isolated and characterized. We have investigated the relationship between dwarfism and the gibberellin (GA)-mediated control of physiological processes. Twenty-three rice cultivars and mutants (9 normal, 3 semi-dwarf, 11 dwarf) were analyzed in terms of two GA-mediated processes, namely, elongation of shoots and production of -amylase activity in the endosperm. As a result, we identified four different groups (groups N, T, D and E). Two-dimensional plotting of the extent of induction of -amylase in the endosperm versus the extent of enhancement of shoot elongation upon treatment with exogenous gibberellic acid (GA₃) provided a useful method for the rapid allocation of large numbers of dwarf mutants of rice to the various groups. Members of group N (normal type), which included all normal cultivars and semi-dwarf mutants, showed a slight increase in elongation of shoots and a remarkable increase in production of -amylase with the application of GA₃ during germination. All of the dwarf mutants were classified as being members of the other three groups. Members of group T (Tan-ginbozu type), including three dwarf mutants, were highly responsive to exogenous GA₃ in terms of elongation of shoots and production of -amylase, with associated lower levels of endogenous GA. In contrast, members of the other three groups, including group N, had normal levels of endogenous GAs. Members of group D (Daikoku type) were only slightly responsive to exogenous GA₃, an indication that they are GA-insensitive mutants. Members of group E (Ebisu type) had responses to GA₃ similar to those of group N, not only in terms of elongation of shoots but also in terms of -amylase production, an indication that they are dwarf mutants that can be considered as neither GA-deficient nor GA-insensitive mutants. We also examined a GA-insensitive mutant selected from among 19 near-isogenic dwarf lines of Shiokari, and we concluded that the d-1 gene is associated with the phenotype of GA-insensitive dwarf mutants.     

Is the lactose-utilization ability ofRhizobium ofSesbania procumbens a vestigeal function?

Rhizobium SBS-R100, isolated from the stem nodules ofSesbania procumbens, synthesized -galactosidase constitutively. Transposon mutagenesis by Tn9 induced mutants defective in lactose utilization; the mutations did not interfere with growth, nodulation or N₂ fixation. Mouse monoclonal antibody raised against -galactosidase ofEscherichia coli reacted with soluble proteins of wild typeRhizobium SBS-R100. Anin vivo constructed recombinant plasmid pSBS-4 complemented aRhizobium mutant defective in lactose utilization.     

Evidence for disaggregation of oligomeric G(o)alpha induced by guanosine-5;-3-O-(thio)triphosphate activation

Myristoylated G_o was expressed in and highly purified from Escherichia coli strain JM109 cotransformed with pQE60 (G_o) and pBB131 (N-myristoyltransferase, NMT). Non-denaturing gel electrophoresis and gel filtration analysis revealed that the G_o, in its GDP-bound form, could form oligomers involving dimer, trimer, tetramer, pentamer, or hexamer and guanosine 5"-3-O-(thio)triphosphate (GTPS) activation induced disaggregation of the G_o oligomers to monomers. The G_o was crosslinked by a cross-linker, N,N"-1,4-phenylenedimaleimide (p-PDM), yielding multiple crosslinked products. In contrast, no obvious cross-linking occurred when G_o was pretreated with GTPS. Immunoblot analysis also demonstrated oligomerization of the purified G_o proteins and its disaggregation triggered by GTPS. These results provided direct evidence for the disaggregation–coupling theory and the disaggregation action of GTPS may further elucidate the regulatory role of GDP/GTP exchange in G protein-coupled signal transduction pathways.     

Preparations ofN,N′-ethylene-bridged dipeptides(eXX) constructed from (S)-methionine, -tryptophan, -tyrosine and-N(ɛ)-benzyloxycarbonyllysine through acid-catalyzed cyclization

Summary N, N-Ethylene-bridged bis-(S)-methionine[(2S, 7S)-2, 7-bis(2-methyl-thioethyl)-3,6-diazaoctanedioic acid] derived from (S)-methionine and 1,2-dibromoethane was cyclized and esterified simultaneously in boiling ethanol in the presence of an appropriate amount of strong acid such asp-toluenesulfonic acid, affording a cyclic compound,N, N-ethylene-bridged (S)-methionyl-(S)-methionine ethyl ester {ethyl(2S, 3S)-4-(methylthio)-2-[2-oxo-3-(2-methylthioethyl)-1-piperazinyl] butanoate}, exclusively in 80–90% yields. It was also found that, by applying this method, 70–80% yields of the otherN, N-ethylenebridged dipeptides containing (S)-tryptophan, -tyrosine and -N()-benzyloxycarbonyllysine were obtained.     

Characterization of maltose biosynthesis from α-d-glucose-1-phosphate in Spinacia oleracea. L.

The de novo synthesis of maltose in spinach (Spinacia oleracea L.) was shown to be catalyzed by a maltose synthase, which converts two molecules of -d-glucose-1-phosphate (-G1P) (K_m 1.5 mmol l^-1) to maltose and 2 orthophosphate (Pi). This enzyme was purified 203-fold by fractionated ammonium sulfate precipitation and by column chromatography on Sepharose 6B. The addition of -G1P (15 mmol l^-1) to the isolation buffer is required to stabilize the enzyme activity during the extraction and purification procedure. Molecular weight determination by gel filtration yielded a value of 95,000. -Gluconolactone, ATP and Pi are competitive inhibitors toward the substrate -G1P. The maltose synthase catalyzes an exchange of the phosphate group of -G1P with [³²P] orthophosphate; this transfer reaction suggests that the synthesis of maltose occurs via a glucose-enzyme in a double displacement reaction. The physiological role of this enzyme as a starch initiator system is discussed.Abbreviations Fru fructose - Glc glucose - -G1P -d-glucose-1-phosphate - -G1P -d-glucose-1-phosphate - G6P d-glucose-6-phosphate This enzyme is tentatively called maltose synthase in this publication