Soybean β-Conglycinin α Subunit is Phosphorylated on Two Distinct Serines by Protein Kinase CK2 In Vitro

Protein kinase CK2 purified from the yeast Yarrowia lipolytica was used to phosphorylate soybean -conglycinin subunit. CK2 is known to phosphorylate serines and threonines in the consensus sequence Ser/Thr-X-X-Glu/Asp/SerP/TyrP. -Conglycinin subunit (68 kDa) presents seven consensus sequences, but only 0.5–1 mol P/mol subunit was incorporated by CK2. [³²P]Phosphorylated -conglycinin subunit was cleaved either by cyanogen bromide or by trypsin. ³²P was incorporated into the largest cyanogen bromide fragment only (50 kDa, N-terminal) and only two radiolabeled zones were detected after HPLC of the trypsic digest. The corresponding phosphorylated zones were collected and further analyzed by RP-HPLC coupled to electrospray ionization mass spectrometry (LC-ESMS). Two phosphorylated sites, Ser 75 and Ser 117, were determined after MS-MS analysis of three phosphopeptides identified as 70–89, 116–126, and 116–127 sequences. Over the seven consensus sequences of -conglycinin subunit, Ser 75 is the only one which was phosphorylated. Ser 117 was phosphorylated although it is not an expected phosphorylation site according to the canonical consensus sequence criteria as there is no acidic determinant at the +3 position. Both Ser 75 and Ser 117 are located inside very acidic sequences, by contrast with the other unphosphorylated potential sites.     

Thrombin Specificity: Further Evidence for the Importance of the β-Insertion Loop and Trp96. Implications of the Hydrophobic Interaction Between Trp96 and Pro60B Pro60C for the Activity of Thrombin

A number of thrombin mutants have been constructed to investigate the role of Trp⁹⁶ and the -insertion loop for the specificity of thrombin. Thrombin(60D) consists of the replacement of the -insertion loop (14 amino acid residues from 59 to 63, including a 9-residue insertion at position 60) with the corresponding four residues in trypsin, Tyr-Lys-Ser-Gly; thrombin(GGG) is a smaller loop mutation in which the residues Tyr^60APro^60BPro^60CTrp^60D Asp^60ELys^60F of the -insertion loop were replaced by Gly-Gly-Gly; thrombin(96S) consists of a point mutation Trp⁹⁶Ser; and thrombin(GGG/96S) is the double mutant incorporating both changes. Thrombin(96S) clots fibrinogen ~3 times more slowly than thrombin, with the two -insertion loop mutants, thrombin(GGG) and thrombin(GGG/96S), reacting ~3000- and 1300-fold more slowly, respectively. The specificity constant k _cat/K _m for the cleavage of fibrinopeptide A and fibrinopeptide B by thrombin(96S) was 2.6 and 0.35 M^–1 s^–1 respectively, compared to 10 and 2.5 M^–1 s^–1 for wild-type recombinant thrombin, respectively. Kinetic constants were determined for the hydrolysis of H-D-phenylalanyl-L-pipecolyl-L-arginine-p-nitroaniline. The Michaelis constant K _m increased ~6-fold for thrombin(96S) and >200-fold for thrombin(GGG) and thrombin(GGG/96S) when compared to wild-type recombinant thrombin, while the catalytic constant k _cat remained approximately the same. All mutants were more susceptible to inhibition by BPTI than wild-type recombinant thrombin. Clearly, the -insertion loop is important for thrombin activity. But the mutation of Trp⁹⁶Ser can compensate somewhat for the loss of binding at the -insertion loop. The deletion of the hydrophobic interaction between Trp⁹⁶ and Pro^60BPro^60C appears to decrease the stability of the -insertion loop, thereby causing a decrease in binding efficiency.     

Is Ag(I) an adequate probe for Cu(I) in structural copper–metallothionein studies?

The binding abilities of silver(I) to mammalian MT 1 have been studied and compared with those of copper(I), recently reported [Bofill et al. (2001) J Biol Inorg Chem 6:408–417], with the aim of analyzing the suitability of Ag(I) as a Cu(I) probe in Cu–MT studies. The Zn/Ag replacement in recombinant mouse Zn₇–MT 1 and corresponding Zn₄-MT 1 and Zn₃-MT 1 fragments, as well as the stepwise incorporation of Ag(I) to the corresponding apo-MTs, have been followed in parallel by various spectroscopic techniques including electronic absorption (UV–vis), circular dichroism (CD) and electrospray mass spectrometry coupled to capillary zone electrophoresis (CZE-ESI-MS). A comparative analysis of the sets of data obtained in the titration of Zn₇–MT 1, Zn₄–MT 1 and Zn₃-MT 1 with AgClO₄ at pH 7.5 and 2.5 has led to the reaction pathways followed during the incorporation of silver to these proteins under these specific conditions, disclosing unprecedented stoichiometries and structural features for the species formed. Thus, the Zn/Ag replacement in Zn₇–MT 1 at pH 7.5 has revealed the subsequent formation of Ag₄Zn₅–MT, Ag₇Zn₃–MT, Ag₈Zn₃–MT, Ag₁₀Zn₂–MT, Ag₁₂Zn₁–MT, Ag_x–MT, x=14–19, whose structure consists of two additive domains only if Zn(II) remains coordinated to the protein. A second structural role for Zn(II) has been deduced from the different folding found for the Ag_x–MT species of the same stoichiometry formed at pH 7.5 or 2.5. Comparison of the binding features of Cu(I) and Ag(I) to the entire MT at pH 7.5 shows that, among all the _xZn_y–MT (0y<7) species found, only M^I₄Zn₅–MT [(Zn₄)(₄Zn₁)] and M^I₇Zn₃–MT [(₃Zn₂)(₄Zn₁)], which form during the first stages of the Zn(II)/M(I) metal replacement, show comparable 3D structures; thus, they are the only species where Ag(I) ions can be predicted to be an adequate probe for Cu(I).Electronic Supplementary Material Supplementary material is available in the online version of this article at .     

Expression of A Chain and B Chain of β-Bungarotoxin from Taiwan Banded Krait: The Functional Implication of the Interchain Disulfide Bond Between A Chain and B Chain

-Bungarotoxin (-Bgt), the main presynaptic neurotoxin purified from the venom of Bungarus multicinctus, consists of two dissimilar polypeptide chains, the A chain and B chain, cross-linked by an interchain disulfide bond. The A and B chain cDNAs were subcloned into expression vectors pT7-7 and pET20b(+), respectively, and transformed into Escherichia coli strain BL21(DE3). The expressed protein was isolated from the inclusion bodies of E. coli and subjected to refolding into its folded structure. The yields of the refolded A and B chains increased markedly by at least 100-fold after substituting Ser for Cys15 of A chain and Cys55 of B chain, which formed an interchain disulfide bond. Either the A(C15S) chain or B(C55S) chain alone or in combination cannot exhibit the phospholipase A₂ activity or synaptosome binding activity of -Bgt. Nevertheless, the results of competitive enzyme-linked immunoassay, CD spectra, and fluorescence measurement revealed that the A(C15S) chain and B(C55S) chain possessed a native-like structure like the subunits of native -Bgt. Moreover, the interfacial interaction between the A and B chains explored by glutaraldehyde cross-linking revealed the essential aspects of the intact interchain disulfide bond in this interaction. This suggests that the formation of the interchain disulfide bond should not be a crucial step for the formation of folded A and B chains in the venom glands, and that the integrity of the interchain disulfide linkage favors the subunit interaction that consequently fulfills the functional mechanism of -Bgt.     

Effects of Zn(II) on galactosyltransferase activity

The enzyme -4-galactosyltransferase (GT) catalyzes the transfer of a galactosyl group from UDP-galactose to N-acetylglucosamine (GlcNAc) on glycoproteins. In the presence of -lactalbumin (-LA), galactosyltransferase catalyzes the transfer of galactose to glucose to yield lactose. It is known that, in the absence of -lactalbumin, Zn(II) competes with Mn(II) for the same binding site(s) in galactosyltransferase, resulting in an increase in the apparent Michaelis constant,K _m (app), for Mn(II)-activation of N-acetyllactosamine synthesis. In the presence of -lactalbumin (i.e., lactose synthase), the Mn(II)-activation is biphasic and the initial phase is inhibited by increasing concentrations of Zn(II). The Zn(II) inhibition of lactose synthase plateaus at [Zn(II)]:[-lactalbumin] 1:1, while for N-acetyllactosamine synthesis there is no plateau at all. The results suggest that Zn(II) binding to -lactalbumin effects lactose synthase. Kinetically, Zn(II) induces a decrease in both theK _m (app) andV _m for Mn(II), which results in an apparent increase, followed by a decrease, in lactose synthase activity at Mn(II) concentrations below saturation of the first [Mn(II)] binding site. Increasing Zn(II) also decreasesK _m (app) andV _m for both glucose and UDP-galactose in the lactose synthase reaction with either both Ca(II)- or apo--lactalbumin, further suggesting novel interactions between Zn(II)--lactalbumin and the lactose synthase complex, presumably mediated via a Zn(II)-induced conformational change upon binding to -lactalbumin. On the other hand, in N-acetyllactosamine synthesis, Zn(II) only slightly effectsK _m (app) for N-acetylglucosamine and has essentially no effect onK _m (app) orV _m for UDP-galactose.On leave from the Institute of Theoretical and Experimental Biophysics, Russian Academy of Sciences, Pushchino, Moscow Region, 142292, Russia     

Microbial degradation of dehydrodiconiferyl alcohol,a lignin substructure model

Bacteria, yeasts, and molds which grew in a medium containing a synthetic lignin — a dehydrogenation polymer (DHP) of coniferyl alcohol — as a sole carbon source, were isolated from soil. One fungus, Fusarium solani M-13-1, was found to degrade the DHP most vigorously among the isolated organisms. It was shake-cultured in a medium containing dehydrodiconiferyl alcohol (DHCA) (I), an important lignin model compound, and the following six metabolic products were isolated and identified: 1) Phenylcoumaran--aldehydic (II) and -carboxylic compounds, 2) phenylcoumaran--aldehydic compound (IV), formed by release of a 2-carbon fragment from the phenylcoumaran--carboxylic compound, 3) 5-acetylvanillyl alcohol (V), formed by cleavage of the coumaran ring and reduction of the -aldehyde group, 4) 5-carboxyvanillyl alcohol (VI), formed by subsequent oxidation of the acetyl group, and 5) the -ether of DHCA (VII), considered to be a by-product. A degradation pathway for DHCA was proposed on the basis of these metabolic products.Non-Standard Abbreviations DHP dehydrogenation polymer - DHCA dehydrodiconiferyl alcohol - DDQ dichlorodicyano-p-benzoquinone - DDHQ dichlorodicyano-p-hydroquinone - Ar aromatic - TLC thin layer chromatography - GC-MS gas chromatography-mass spectrometry     

Over-expression of the gene (bglBC1) from Bacillus circulans encoding an endo-β-(1→ 3),(1→ 4)-glucanase useful for the preparation of oligosaccharides from barley β-glucan

An endo--(13),(14)-glucanase gene (bglBC1) from Bacillus circulans ATCC21367 was modified by substituting its native promoter with a strong promoter, BJ27X, to increase expression of the gene when cloned into B. subtilis RM125 and B. megaterium ATCC14945. A 771-bp endo--(13),(14)-glucanase open reading frame was inserted into a new shuttle plasmid, pBLC771, by ligating the ORF and pBE1, the latter of which contained the strong promoter, BJ27X. B. subtilis, transformed with the recombinant plasmid pBLC771, produced an extracellular endo--(13),(14)-glucanase that was 130 times (7176 mU ml^–1) more active than that of the gene donor cells (55 mU ml^–1), while the enzyme from the transformed B. megaterium was 7 times (378 mU ml^–1) more active than that of the gene donor cells. M _r of the enzyme was 28 kDa, with proteolytic processing of the enzyme being observed only in B. subtilis cells. The major products of water-soluble -glucan hydrolyzed by over-produced endo--(13),(14)-glucanase were tri- and tetra-oligosaccharides which can be developed as useful products such as anti-hypercholesterolemic, anti-hypertriglyceridemic, and anti-hyperglycemic agents.     

Volume-sensitive taurine transport in fish erythrocytes

Summary Taurine plays an important role in cell volume regulation in both vertebrates and invertebrates. Erythrocytes from two euryhaline fish species, the eel (Anguilla japonica) and the starry flounder (Platichthys stellatus) were found to contain high intracellular concentrations of this amino acid ( 30 mmol per liter of cell water). Kinetic studies established that the cells possessed a saturable high-affinity Na⁺-dependent -amino-acid transport system which also required Cl^– for activity (apparentK _m (taurine) 75 and 80 m;V _max 0.85 and 0.29 mol/g Hb per hr for eel (20°C) and flounder cells (10°C), respectively. This -system operated with an apparent Na⁺/Cl^–/taurine coupling ratio of 211. A reduction in extracellular osmolarity, leading to an increase in cell volume, reversibly decreased the activity of the transporter. In contrast, low medium osmolarity stimulated the activity of a Na⁺-independent nonsaturable transport route selective for taurine, -amino-n-butyric acid and small neutral amino acids, producing a net efflux of taurine from the cells. Neither component of taurine transport was detected in human erythrocytes. It is suggested that these functionally distinct transport routes participate in the osmotic regulation of intracellular taurine levels and hence contribute to the homeostatic regulation of cell volume. Volume-induced increases in Na⁺-independent taurine transport activity were suppressed by noradrenaline and 8-bromoadenosine-3, 5-cyclic monophosphate, but unaffected by the anticalmodulin drug, pimozide.     

Chromosome and isoenzyme studies on cells derived from protoplast fusion of Nicotiana glauca with glycine max-Nicotiana glauca cell hybrids

Summary The somatic hybrids of Glycine max (L)Merr.-Nicotiana glauca Grah. exhibited a preferential loss of N. glauca chromosomes. When protoplasts from such hybrid cells were back fused twice to N. glauca protoplasts, a considerable increase in stability of the N. glauca chromosomes was observed. Gel electrophoresis studies of aspartate aminotransferase showed that the chromosome(s) responsible for this enzyme was stabilized in the back fused hybrid cell lines. The data suggest that the back fusion technique described in this study might aid in stabilizing somatic hybrids.NRCC No. 18040     

Linear differentiation of cereal chromosomes

Summary The BSG test was used in a comparative study of the linear chromosome differentiation and the idiograms of T. Macha ssp. tubalicum v. letschchumicum Dek. et Men., T. georgicum Dek., T. timopheevi. Zhuk., T. carthlicum Nevski, T. dicoccum Schrank, v. rufum, T. durum Desf. v. Arnautka were compiled.The karyotype of each polyploid wheat species consists of two groups of chromosomes. The first is formed by ten pairs of constant chromosomes occurring almost in all species and the second by all the rest of the variable chromosomes that are either fully specific for the species in question or occur only in a few species. T. timopheevi largely differs from other species of polyploid wheats in the high level and specific localization of structural heterochromatin on chromosomes. The rols of introgression in wheat evolution and the necessity of establishing a General Cytological Nomenclature of Cereal Chromosomes are discussed.     

Linkage mapping of ‘25-kDa globulin’ genes on homoeologous group-1 chromosomes of bread and durum wheat

Acid polyacrylamide-gel electrophoresis (A-PAGE) of ethanol-soluble proteins from the endosperm of bread and durum wheats reveals some bands encoded by genes on the homoeologous group-1 chromosomes with higher mobility than the -gliadins. The isolation of these proteins showed that they were the previously described 25-kDa globulins encoded by genes at the Glo-A1, Glo-B1, and Glo-D1 loci. The variability found among a collection of 51 bread and 81 durum wheats was very low: two allelic variants at Glo-A1 and no variants at Glo-B1 in each of the two species, and two allelic variants at Glo-D1 in bread wheat. Inheritance studies of 25-kDa globulin genes on group-1 chromosomes of bread and durum wheat were carried out on the F₂ progeny from four crosses, two in bread wheat and two in durum wheat. The linkage mapping of the 1A 25-kDa globulin genes of bread wheat was done based on four prolamin loci: Glu-A1, Glu-A3, Gli-A1 and Gli -A3. The percentages of recombination and the distances found allowed a re-evaluation of the linkage map of endosperm protein loci on this chromosome. The Glo-A1 locus was found to be located at the distal end of the short arm of 1A chromosome, at a distance of 5.23±1.99 cM from Gli-A1, 6.85±2.22 cM from Glu-A3, 22.64±3.62 cM from Gli-A1, and at a recombination percentage of 49.30±4.40 from Glu-A1. A similar distance between Gli-A1 and Glo-A1 (4.82±1.75 and 6.66±2.26 cM) was found in durum wheat. The distance between Gli-D1 and Glo-D1 on chromosome 1D was 2.86±1.39 cM.     

High-affinity binding of fungal β-glucan elicitors to cell membranes of species of the plant family Fabaceae

Microsomal preparations of six species of the plant family Fabaceae were screened for high-affinity binding of branched (1 3), (1 6)--glucans. Oligoglucosides of this type are specific elicitors of phytoalexin accumulation in soybean (Glycine max L.), a member of this family. The species studied were alfalfa (Medicago sativa L.), broadbean (Vicia faba L.), chickpea (Cicer arietinum L.), french bean (Phaseolus vulgaris L.), pea (Pisum sativum L.), and white lupin (Lupinus albus L.). A ¹²⁵I-labeled 4-(2-aminophenyl)ethylamine conjugate of a (1 3), (1 6)--glucan fraction with an average degree of polymerization (DP) of 18, obtained from mycelial walls of Phytophthora sojae, was used as radioligand for initial screening. The structural complexity of this fraction allowed the identification of binding sites with affinities for isomeric structures other than the (1 3), (1 6) hepta--glucoside for which soybean binding sites display highest affinity. Radioligand competition experiments against unlabeled fungal -glucan resulted in the identification of high-affinity binding in alfalfa, bean, lupin, and pea. Half-maximal competition concentrations (IC₅₀) for fungal -glucan in these species were between 5 and 30 nM. Pseudoheterologous radioligand competition by unlabeled hepta--glucoside showed that for alfalfa, lupin and pea the IC₅₀ values for this structure (4 to 16 nM) were similar to those of soybean (7.7 nM). Bean microsomes, however, displayed an IC₅₀ significantly higher than soybean (68 nM) suggesting that the structural motif recognized by its binding sites is not identical to that of soybean or the other three species. Radioligand saturation assays with alfalfa, lupin and pea microsomes using an ₁₂₅I-labeled aminophenylethylamine hepta--glucoside conjugate gave dissociation constants (K_d) of 5.3, 3.7, and 1.8 nM, respectively. The affinity of these sites for hepta- glucoside was in the same range as that of soybean (K_d 1–3 nM), whereas the affinity of the binding sites of bean for the same ligand was significantly lower (K_d = 33 nM). Good correlation was found between the presence of high-affinity binding and the accumulation of isoflavonoid phytoalexins in roots of alfalfa, bean, chickpea and pea seedlings after exposure to fungal -glucan. Lupin displayed a strong wound-induced accumulation of prenylated isoflavones which was independent of the presence of -glucan, making it impossible to determine phytoalexin induction in response to elicitor. No specific binding or phytoalexin accumulation in response to glucans was observed in broadbean. This is the first report on the existence of possibly homologous elicitor-binding sites within a plant taxonomic family and may provide preliminary evidence for putative evolutionary relationships in pathogen perception mechanisms in plants.Abbreviations DP degree of polymerization - EC₅₀ concentration of elicitor necessary to obtain a half-maximal biological response - HG synthetic (1 3), (1 6)-hepta--glucoside phytoalexin elicitor - HG-APEA 1-[4-(2-aminophenyl)ethylamino-1-hexaglucosyl]deoxyglucitol - IC₅₀ ligand concentration necessary to obtain half-maximal displacement of radioligand in competition binding assays - K_d dissociation constant - OS branched (1 3), (1 6)--glucan obtained by hydrolysis of mycelial walls of Phytophthora sojae - OS-APEA 1-[4-(2-armnophenyl)ethylamino-1-oligoglucosyl]deoxyglucitol conjugate of OS This work was supported by the Comision Interministerial de Ciencia y Tecnologia grant BI091-0366 (E.G.C.), the Volkswagen-Stiftung (E.G.C. and J.E.), the Deutsche Forschungsgemeinschaft, SFB-369 (J.E.), the Bundesministerium fiir Bildung, Wissenschaft, Forschung und Technologie (J.E.), Fonds der Chemischen Industrie (J.E.) and the EU Human Capital and Mobility Program (J.E. and E.G.C.).     

Sialyltransferase activity in FR3T3 cells transformed withras oncogene: decreased CMP-Neu5Ac:Galβ1-3GalNAc α-2,3-sialyltransferase

We have investigated the activity of CMP-Neu5Ac:Gal\1-3GalNAc -2,3-sialyltransferase (EC 2.4.99.4) in FR3T3 cells transformed by the Ha-ras oncogene in which we have previously demonstrated the higher expression of the -galactosidase -2,6-sialyltransferase (EC 2.4.99.1) [21]. We demonstrate that the presence of the activatedras gene decreases the activity of this specific -2,3-sialyltransferase fourfold. According to the kinetic parameters and to mixing experiments, we can assume that this decreased enzymatic activity reflects a decrease in the number of activeO-glycan -2,3-sialyltransferase polypeptides inras-transformed cells. However, no change in the binding of Peanut agglutinin was observed on the cell surface ofras-transformed FR3T3 suggesting that no change in the sialylation ofO-glycan core 1 appeared in these cells, although the activity of the -2,3-sialyltransferase was decreased.Abbreviations -2,3-ST(O) CMP-Neu5Ac:Gal1-3GalNAc-R -2,3-sialyltransferase - -2,3-ST(N/O) CMP-Neu5Ac:Gal1-3/4GlcNAc-R -2,3-sialyltransferase - -2,6-ST(N) CMP-Neu5Ac:Gal1-4GlcNAc-R -2,6-sialyltransferase - -2,6-ST(O)I CMP-Neu5Ac:R-GalNAc(1-O)Ser -2,6-sialyltransferase - -2,6-ST(O)II CMP-Neu5Ac:Neu5Ac2-3Gal1-3GalNAc-R -2,6-sialyltransferase - ASFet asialofetuin - FR3T3 Fisher rat fibroblast - FRras Ha-ras-transfected FR3T3 fibroblasts - NaCl/P_i sodium phosphate 10mm, NaCl 0.15m, pH 7.4, buffer - pNp p-nitrophenol     

Unusual antiproliferative effects of transforming growth factors-β 1 andβ 2 against primary cells from human tumors

Transforming growth factors 1 and2 (TGF-1 and2), tested in a clonogenic assay against primary cells from human tumors, suppress proliferation to different extents. In nineteen of twenty-six cell cultures, proliferation was < 50% of control with factor at 0.04 or 0.4 nM. Of these, TGF- 2 was more active than TGF-1 in fourteen; and TGF-1 was more active than TGF-2 in five. In seven of the nineteen, proliferation was 0% with one or the other factor. In contrast, cisplatin was much less effective in inhibiting proliferation of some of the same cells even at 1,000 or more times the molar concentration of the factors. Surprisingly, when TGF- 1 and TGF-2 were combined at equal concentrations, the antiproliferative effect of one was cancelled or markedly inhibited by the other.     

Folding versatility of the C-terminal tetrapeptide amide sequence of the lipopeptaibol antibiotics trichodecenin and trichogin

Summary An X-ray diffraction analysis ofZ-l-Leu-Aib-Gly-l-Ile-l-Leu-OMe, containing the N-acylated tetrapeptide amide sequence-l-Leu-Aib-Gly-l-Ile-, showed that in the crystal state the carbonyl group preceding thel-Leu¹ residue acts as the acceptor of two C=OH–N intramolecular H-bonds, which give rise to an-l-Leu¹-Aib²-type-III' -turn and an-l-Leu¹-Aib²-Gly³-l-Ile⁴--turn, respectively. A second (type-I') -turn encompasses the-Aib²-Gly³-sequence. This is the third type of folding motif known for that tetrapeptide sequence, considering also those already published for the C-terminal segment of the lipopeptaibol antibiotics trichodecenin I and trichogin A IV.     

Comparative Functional Analysis of Rat <Emphasis Type="Italic">TGF-β1</Emphasis> and <Emphasis Type="Italic">Xenopus laevis</Emphasis><Emphasis Type="Italic">TGF-β5</Emphasis> Promoters Suggest Differential Regulations

We have carried out a comparative functional analysis of the rat TGF-1 and Xenopus laevis TGF-5 promoters across several mammalian and amphibian cell lines. Progressive deletion constructs of both the promoters have been made using a PCR based approach and the basal promoter activities studied in Xenopus tadpole cell line (XTC), Xenopus adult kidney fibroblast cell line (A6), human hepatoma cell line (HepG2), normal rat kidney cell line (NRK), and Chinese hamster ovary cell line (CHO). Data suggests that the basal promoter activity of TGF-1 is low as compared to TGF-5 promoter in XTC cells but comparable in A6 cells, while TGF-5 promoter shows nearly negligible activity as compared to TGF-5 promoter in all the tested mammalian cell lines. Moreover, TGF-5 promoter is found to be repressed in XTC cells on treatment with TGF-5 protein. Thus, the regulation of TGF-1 and TGF-5 promoters is distinct in amphibian and mammalian species. We therefore suggest that contrary to the suggested functional equivalence of TGF-1 and TGF-5 proteins, TGF-1 and TGF-5 genes have distinct functions in their respective species. Present address (Kartiki V. Desai): Laboratory of Cell Regulation and Carcinogenesis, NCI, NIH Bldg 41, Room C619, Bethesda, MD 20892, USA     

Mating reaction in Saccharomyces cerevisiae

A diffusible sex-specific substance called substance-I (S-I) was isolated from culture filtrate of type strains of the yeast Saccharomyces cerevisiae. The isolated S-I, an oligopeptide, induced sexual cell agglutinability in inducible a type strains and enhanced the agglutinability in constitutive a type strains. The induction of sexual agglutinability was detected in 30 min and reached maximum in 90 min, when 0.2 g/ml of S-I was added to inducible a type cells. The a type-specific factor responsible for sexual cell agglutination, called a type agglutination factor (aAF), was shown to be produced during the induction or the enhancement of agglutinability of a type cells by S-I. The aAF produced in response to S-I was not different in the susceptibility to proteolytic enzymes and disulfide-cleaving agents from those produced constitutively in the absence of S-I.     

Enhancement of β-glucosidase stability and cellobiose-usage using surface-engineered recombinant Saccharomyces cerevisiae in ethanol production

To enhance the use of cellobiose by a recombinant Sachharomyces cerevisiae, the expressed -glucosidase that hydrolyzes cellobiose was stabilized using a surface-display system. The C-terminal half of -agglutinin was used as surface-display motif for the expression of -glucosidase in the cell wall. The surface-displayed -glucosidase had a half-life time (t _1/2) of 100 h in acidic culture broth conditions, while secreted -glucosidase had a t _1/2 of 60 h. With such stabilization of -glucosidase, the surface-engineered S. cerevisiae utilized 7.5 g cellobiose l^–1 over 60 h, while S. cerevisiae secreting -glucosidase into culture broth used 5.8 g cellobiose l^–1 over the same period.