Cyclic AMP and c-myc gene expression in PY815 mouse mastocytoma cells

The possibility was examined that inhibition of growth of PY815 mouse mastocytoma cells by N6,O2'-dibutyryladenosine 3',5'-cyclic monophosphate (DB cyclic AMP) results from inhibition of c-myc gene expression. Temporary increases in c-myc RNA which occurred soon after DB cyclic AMP treatment and upon removal of the drug were not consistent with direct inhibition of c-myc gene expression by DB cyclic AMP. The increases in c-myc RNA coincided with the passage through, or accumulation of cells in late G1-early S phase. It is proposed that cyclic AMP may stimulate c-myc gene expression which normally occurs only in late G1-early S phase in PY815 cells and that cyclic AMP prevents c-myc expression in cells at other phases of the cell cycle by inhibiting their progression past a cyclic AMP-sensitive restriction point in early G1 phase.     

Identification of pyrene-induced proteins in Mycobacterium sp. strain 6PY1: evidence for two ring-hydroxylating dioxygenases

In this study, the enzymes involved in polycyclic aromatic hydrocarbon (PAH) degradation were investigated in the pyrene-degrading Mycobacterium sp. strain 6PY1. [(14)C]pyrene mineralization experiments showed that bacteria grown with either pyrene or phenanthrene produced high levels of pyrene-catabolic activity but that acetate-grown cells had no activity. As a means of identifying specific catabolic enzymes, protein extracts from bacteria grown on pyrene or on other carbon sources were analyzed by two-dimensional gel electrophoresis. Pyrene-induced proteins were tentatively identified by peptide sequence analysis. Half of them resembled enzymes known to be involved in phenanthrene degradation, with closest similarity to the corresponding enzymes from Nocardioides sp. strain KP7. The genes encoding the terminal components of two distinct ring-hydroxylating dioxygenases were cloned. Sequence analysis revealed that the two enzymes, designated Pdo1 and Pdo2, belong to a subfamily of dioxygenases found exclusively in gram-positive bacteria. When overproduced in Escherichia coli, Pdo1 and Pdo2 showed distinctive selectivities towards PAH substrates, with the former enzyme catalyzing the dihydroxylation of both pyrene and phenanthrene and the latter preferentially oxidizing phenanthrene. The catalytic activity of the Pdo2 enzyme was dramatically enhanced when electron carrier proteins of the phenanthrene dioxygenase from strain KP7 were coexpressed in recombinant cells. The Pdo2 enzyme was purified as a brown protein consisting of two types of subunits with M(r)s of about 52,000 and 20,000. Immunoblot analysis of cell extracts from strain 6PY1 revealed that Pdo1 was present in cells grown on benzoate, phenanthrene, or pyrene and absent in acetate-grown cells. In contrast, Pdo2 could be detected only in PAH-grown cells. These results indicated that the two enzymes were differentially regulated depending on the carbon source used for growth.     

PY motifs of Epstein-Barr virus LMP2A regulate protein stability and phosphorylation of LMP2A-associated proteins

Latent membrane protein 2A (LMP2A) is expressed in latent Epstein-Barr virus (EBV) infection. We have demonstrated that Nedd4 family ubiquitin-protein ligases (E3s), AIP4, WWP2/AIP2, and Nedd4, bind specifically to two PY motifs present within the LMP2A amino-terminal domain. In this study, LMP2A PY motif mutant viruses were constructed to investigate the role of the LMP2A PY motifs. AIP4 was found to specifically associate with the LMP2A PY motifs in EBV-transformed lymphoblastoid cell lines (LCLs), extending our original observation to EBV-infected cells. Mutation of both of the LMP2A PY motifs resulted in an absence of binding of AIP4 to LMP2A, which resulted in an increase in the expression of Lyn and the constitutive hyperphosphorylation of LMP2A and an unknown 120-kDa protein. In addition, there was a modest increase in the constitutive phosphorylation of Syk and an unidentified 60-kDa protein. These results indicate that the PY motifs contained within LMP2A are important in regulating phosphorylation in EBV-infected LCLs, likely through the regulation of Lyn activity by specifically targeting the degradation of Lyn by ubiquination by Nedd4 family E3s. Despite differences between PY motif mutant LCLs and wild-type LCLs, the PY motif mutants still exhibited a block in B-cell receptor (BCR) signal transduction as measured by the induction of tyrosine phosphorylation and BZLF1 expression following BCR activation. EBV-transformed LCLs with mutations in the PY motifs were not different from wild-type LCLs in serum-dependent cell growth. Protein stability of LMP1, which colocalizes with LMP2A, was not affected by the LMP2A-associated E3s.     

Influence of mass transfer limitations on the enzymatic synthesis of β-lactam antibiotics catalyzed by penicillin G acylase immobilized on glioxil-agarose

Mass transfer effects were investigated for the synthesis of ampicillin and amoxicillin, at pH 6.5 and 25 degrees C, catalyzed by penicillin G acylase immobilized on agarose. The influence of external mass transfer was analysed using different stirring rates, ranging form 200 to 800 rpm. Above 400 rpm, the film resistance may be neglected. Intra-particle diffusion limitation was investigated using biocatalysts prepared with different enzyme loads and agarose with different mean pore diameters. When agarose with 6, 8 and 10% of crosslinking were used, for the same enzyme load, substrates and products concentration profiles presented no expressive differences, suggesting pore diameter is not important parameter. An increase on enzyme load showed that when more than 90 IU of enzyme activity were used per mL of support, the system was influenced by intra-particle mass transfer. A reactive-diffusive model was used to estimate effective diffusivities of substrates and products.     

PY54, a linear plasmid prophage of Yersinia enterocolitica with covalently closed ends

PY54 is a temperate phage isolated from Yersinia enterocolitica. Lysogenic Yersinia strains harbour the PY54 prophage as a plasmid (pY54). The plasmid has the same size (46 kb) as the PY54 genome isolated from phage particles. By electron microscopy, restriction analysis and DNA sequencing, it was demonstrated that the phage and the plasmid DNAs are linear, circularly permuted molecules. Unusually for phages of Gram-negative bacteria, the phage genome has 3'-protruding ends. The linear plasmid pY54 has covalently closed ends forming telomere-like hairpins. The equivalent DNA sequence of the phage genome is a 42 bp perfect palindrome. Downstream from the palindrome, an open reading frame (ORF) was identified that revealed strong DNA homology to the telN gene of Escherichia coli phage N15 encoding a protelomerase. Similar to PY54, the N15 prophage is a linear plasmid with telomeres. The N15 protelomerase has cleaving/joining activity generating the telomeres by processing a 56 bp palindrome (telomere resolution site tel RL). To study the activity of the PY54 protein, the telN-like gene was cloned and expressed in E. coli. A 77 kDa protein was obtained and partially purified. The protein was found to process recombinant plasmids containing the 42 bp palindrome. Telomere resolution of plasmids under in vivo conditions was also investigated in Yersinia infected with PY54. Processing required a plasmid containing the palindrome as well as adjacent DNA sequences from the phage including an additional inverted repeat. Regions on the phage genome important for plasmid maintenance were defined by the construction of linear and circular miniplasmid derivatives of pY54, of which the smallest miniplasmid comprises a 4.5 kb DNA fragment of the plasmid prophage.     

Broad-host-range Yersinia phage PY100: genome sequence, proteome analysis of virions, and DNA packaging strategy

PY100 is a lytic bacteriophage with a broad host range within the genus Yersinia. The phage forms plaques on strains of the three human pathogenic species Yersinia enterocolitica, Y. pseudotuberculosis, and Y. pestis at 37°C. PY100 was isolated from farm manure and intended to be used in phage therapy trials. PY100 has an icosahedral capsid containing double-stranded DNA and a contractile tail. The genome consists of 50,291 bp and is predicted to contain 93 open reading frames (ORFs). PY100 gene products were found to be homologous to the capsid proteins and proteins involved in DNA metabolism of the enterobacterial phage T1; PY100 tail proteins possess homologies to putative tail proteins of phage AaΦ23 of Actinobacillus actinomycetemcomitans. In a proteome analysis of virion particles, 15 proteins of the head and tail structures were identified by mass spectrometry. The putative gene product of ORF2 of PY100 shows significant homology to the gene 3 product (small terminase subunit) of Salmonella phage P22 that is involved in packaging of the concatemeric phage DNA. The packaging mechanism of PY100 was analyzed by hybridization and sequence analysis of DNA isolated from virion particles. Newly replicated PY100 DNA is cut initially at a pac recognition site, which is located in the coding region of ORF2.     

固定化米根霉发酵制L-乳酸

采用海藻酸钙包埋法固定化米根霉（Ｒｈｉｚｏｐｕｓｏｒｙｚａｅ）,菌体在颗粒表面形成一层菌丝膜,有利于氧气和其它营养物质的传递;三相流化床生物反应器结构简单、动力消耗低、反应器内物质混合均匀、氧传递量大于固定化米根霉的需氧量,非常适合好氧的固定化米根霉发酵。利用它进行重复使用固定化米根霉的间歇发酵或连续发酵制备Ｌ 乳酸,整个过程一般可持续两周以上。固定化米根霉的产酸速率达１６～１８ｇ／Ｌ ｂｅａｄ．ｈｒ,得率为７０～８０％,反应器生产能力约为传统搅拌罐的３倍。采用海藻酸钙包埋法固定化米根霉在三相流化床生物反应器中进行发酵可以有效地提高Ｌ 乳酸的生产效率,具有良好的工业应用前景。     

Substrate mass transport in two-phase partitioning bioreactors employing liquid and solid non-aqueous phases

The mass transfer of phenol and butyl acetate to/from water was studied in two-phase partitioning bioreactors using immiscible organic solvents and solid polymer beads as the partitioning phases in a 5-L stirred tank bioreactor. Virtually instantaneous mass transfer was observed with phenol in water/2-undecanone, and with butyl acetate in water/silicone oil systems. The mass transfer of butyl acetate to silicone oil was rapid irrespective of the viscosity of the partitioning phase. When Hytrel(?) polymer beads were employed as the partitioning phase, substrate transport to the polymer was found not to be externally mass transfer limited, but rather internally by substrate diffusion into the polymer. In contrast to gaseous, poorly soluble substrates studied in other works, mass transfer of soluble substrates such as phenol and butyl acetate to the polymer was unaffected by impeller speed but rather by polymer mass fraction.     

Purification and characterization of a novel carbaryl hydrolase from Aspergillus niger PY168

A fungus capable of using carbaryl as the sole source of carbon and energy was isolated from a soil enrichment, and characterized as Aspergillus niger and designated strain PY168. A novel carbaryl hydrolase from cell extract was purified 262-fold to apparent homogeneity with 13.6% overall recovery. It had a monomeric structure with a molecular mass of 50,000 Da and a pI of 4.6, and the enzyme activity was optimal at 45 degrees C and pH 7.5, The activities were strongly inhibited by Hg(2+), Ag+, rho-chloromercuribenzoate, iodoacetic acid, diisofluorophosphate and phenylmethylsulfonyl fluoride but not EDTA and phenanthroline. The purified enzyme hydrolyzed various N-methylcarbamate insecticides. Carbaryl is the preferred substrate.     

Cloning of the cel8Y gene from Pectobacterium chrysanthemi PY35 and its comparison to cel genes of soft-rot Pectobacterium

The phytopathogenic Pectobacterium chrysanthemi (Pch) PY35 secretes multiple isozymes of plant cell wall degrading enzyme cellulases. We cloned a second cel gene that encodes cellulase in Pch PY35. The inserted 2 kb fragment was subcloned in order to geneate pPY710 (cel8Y). The structural organization of the cel8Y gene consists of an open reading frame (ORF) of 999 bp that encodes 332 amino acid residues with a signal peptide of 23 amino acids. The predicted amino acid sequence of Cel8Y was very similar to that of Cellulomonas uda, but completely different from that of the Cel5Z of Pch PY35. It belonged to the glycoside hydrolase family 8, based on amino acid sequence similarities in contrast to Cel5Z of Pch PY35, which was confirmed as family 5. Cel8Y was not closely related to the known cellulases of Pectobacterium. It had the conserved region of the glycoside hydrolase family 8, ASDGDVLIAWALLKAGNKW. The apparent molecular mass of the Cel8Y protein was calculated to be approximately 34 kDa by a carboxymethylcellulosesodium dodecyl sulfate-polyacrylamide gel electrophoresis (CMC-SDS-PAGE). The Cel8Y had a calculated pl of 6.49. It was optimally active at pH 7 with an approximate optimal temperature around 40 degrees C. The cellulase activity of Cel8Y was lower than that of Cel5Z.     

Lipolytic activity of suspended and membrane immobilized lipase originating from indigenous Burkholderia sp. C20

In this work, a simple, inexpensive, and efficient method of preparing immobilized lipase is presented. The lipase originating from a newly isolated indigenous strain Burkholderia sp. C20 was immobilized onto cellulose nitrate (CN) membrane via filtration. The CN-immobilized lipase was able to retain 60% of its original activity after repeated uses for nine times. The thermal stability of the lipase was also slightly improved after immobilization. The optimal reaction conditions of CN-lipase were pH 9.0 and 55 degrees C, which are similar to those for the suspended lipase. Both suspended and immobilized lipase could hydrolyze the six oil substrates examined, while immobilized lipase displayed less specificity over the oil substrates. Kinetic analysis shows that the dependence of lipolytic activity of both suspended and immobilized lipase on oil substrate concentration can be described by Michaelis-Menten model with good agreement. The estimated kinetic constants for suspended lipase (v(max)=243.9 U/mg, K(m)=0.024 mM) and immobilized lipase (v(max)=32.8 U/mg, K(m)=5.61 mM) were quite different. Employment of immobilization seemed to result in a decrease in v(max) and an increase in K(m), most likely due to the mass transfer resistance arising from formation of micelles during the lipase immobilization process.     

Staining with pyronin Y detects changes in conformation of RNA during mitosis and hyperthermia of CHO cells

Cellular RNA in Chinese hamster ovary (CHO) cells synchronized in mitosis (M) or G2 phase, as well as in interphase cells subjected to hyperthermia (42 degrees C, 10 min), was stained with acridine orange (AO), ethidium bromide (EB), or pyronin Y (PY) and the resultant fluorescence was measured by flow cytometry. Total RNA content detected after staining with AO increased in M as compared to G2-phase cells, consistent with continued RNA synthesis during G2 phase. The content of double-stranded RNA, stained with EB (after DNase treatment), was also somewhat higher in M cells. In contrast, the stainability of RNA with PY decreased by 27% in M- compared to G2-phase cells. Furthermore, a decrease in stainability of RNA with PY was observed in G2 cells compared to cells in G1 phase. In separate experiments, RNA stainability with AO or EB was generally unaffected when interphase CHO cells were exposed to 42 degrees C for 10 min, though this same treatment resulted in a 26% decrease in RNA stainability with PY. The decreased PY stainability of cellular RNA in M or heat-treated cells was observed at a relatively narrow range of dye concentration (1.0-2.0 micrograms/ml). The observed hypochromicity of RNA coincides with dissociation of polyribosomes into single ribosomes known to occur during mitosis and following exposure to hyperthermia. It is presumed that the phenomenon involves selective denaturation and condensation of ribosomal (r) RNA by PY in single ribosomes which does not occur in polyribosomes. While the molecular mechanisms responsible for stabilization of rRNA in polyribosomes preventing its denaturation and condensation by PY are unknown, PY appears to be a sensitive probe that can be used to detect and study these changes in rRNA confirmation in situ.     

The repA gene of the linear Yersinia enterocolitica prophage PY54 functions as a circular minimal replicon in Escherichia coli

The Yersinia enterocolitica prophage PY54 replicates as a linear DNA molecule with covalently closed ends. For replication of a circular PY54 minimal replicon that has been derived from a linear minireplicon, two phage-encoded loci are essential in Escherichia coli: (i) the reading frame of the replication initiation gene repA and (ii) its 212-bp origin located within the 3' portion of repA. The RepA protein acts in trans on the origin since we have physically separated the PY54 origin and repA onto a two-plasmid origin test system. For this trans action, the repA 3' end carrying the origin is dispensable. Mutagenesis by alanine scan demonstrated that the motifs for primase and for nucleotide binding present in the protein are essential for RepA activity. The replication initiation functions of RepA are replicon specific. The replication initiation proteins DnaA, DnaG, and DnaB of the host are unable to promote origin replication in the presence of mutant RepA proteins that carry single residue exchanges in these motifs. The proposed origins of the known related hairpin prophages PY54, N15, and PKO2 are all located toward the 3' end of the corresponding repA genes, where several structure elements are conserved. Origin function depends on the integrity of these elements.     

Cd2 removal by Azomonas agilis PY101, a cadmium accumulating strain in continous aerobic culture

Azomonas agilis PY101 removed approximately >90% of Cd2+ from solution in continuous aerobic culture. After the unsteady state, approximately 5 days after inoculation, Cd2+ concentration in the artificial wastewater containing 1 mM CdCl2 remarkably decreased to below 92 to 96% of initial value during the growth of A. agilis PY101. A. agilis PY101 cells grown into the artificial wastewater actively uptaked Cd<2+ (from 2.37 to 6.28 mM/g dry weight cells) in the cell. © Rapid Science Ltd. 1998     

Liddle综合征触发蛋白ENaC的PY模体突变型的结合肽段的筛选

Liddle综合征是一种常染色体显性、盐敏感型的高血压综合征,其分子发病机制研究认为是上皮钠离子通道(epithelial Na+channel,ENaC)的β亚基或γ亚基的胞质侧羧基端区域低频率的点突变或缺失突变导致肾远曲小管钠离子重吸收增加.本研究提出了一种从分子水平上治疗Liddle综合征的设想,即构建一种可识别Liddle综合征患者中ENaC蛋白突变的PY模体的人工泛素连接酶E3,使其结合并降解突变的ENaC蛋白,从而使肾远曲小管上皮细胞膜上ENaC的表达数量和活性恢复.而识别PY突变体的E3,可通过用患者中的PY突变体筛选随机多肽文库获得与之结合的随机肽段,用其替换PY模体天然配体蛋白Nedd4的WW结构域,从而得到一个新的人工E3.本研究中以一种Liddle综合征突变型Y620H为诱饵蛋白,筛选新型随机多肽文库,获得了1个至少能与2种PY突变体(Y620H和P618L)特异性结合的随机肽段,为进一步构建可降解ENaC突变体的人工E3积累了重要的实验数据.     

Lipase hydration state in the gas phase: sorption isotherm measurements and inverse gas chromatography

The adsorption of water and substrate on immobilized Candida antarctica lipase B was studied by performing adsorption isotherm measurements and using inverse gas chromatography (IGC). Water adsorption isotherm of the immobilized enzyme showed singular profile absorption incompatible with the Brunauer-Emmet-Teller model, probably due to the hydrophobic nature of the support, leading to very low interactions with water. IGC allowed determining the evolution with water thermodynamic activity (a(W)) of both dispersive surface energies and acidity and basicity constants of immobilized enzyme. These results showed that water molecules progressively covered immobilized enzyme, when increasing a(W), leading to a saturation of polar groups above a(W) 0.1 and full coverage of the surface above a(W) 0.25. IGC also enabled relevant experiments to investigate the behavior of substrates under a(W) that they will experience, in a competitive situation with water. Results indicated that substrates had to displace water molecules in order to adsorb on the enzyme from a(W) values ranging from 0.1 to 0.2, depending on the substrate. As the conditions used for these adsorption studies resemble the ones of the continuous enzymatic solid/gas reactor, in which activity and selectivity of the lipase were extensively studied, it was possible to link adsorption results with particular effects of water on enzyme properties.     

Enzyme immobilized reactor design for ammonia removal from waste water

Removal of nitrogen compound from waste, water is essential and often accomplished by biological process. To prevent washout and to develop an efficient bioreactor, immobilization of suitable microorganisms could be sensible approach. Strains and permeabilized cells encapsulated in cellulose nitrate microcapsules and immobilized on polystyrene, films were prepared by the method described in the previous study. In the wastewater, treatment system, nitrification of ammonia component is generally known as rate controlling step. To enhance the rate of nitrification, firstly nitrifying strainsNitrosomonas europaea (IFO 14298), are permeabilized chemically, and immobilized on polystyrene, films and secondly oxidation rates of strain system and permeabilized strain system are compared in the same condition. With 30 minute permeabilized cells, it took about 25 hours to oxidize 70% of ammonia in the solution, while it took about 40 hours to treat same amount of ammonia with untreated cells. All the immobilization procedures did not harm to the enzyme activity and no mass transfer resistance through the capsule wall was shown. In the durability test of immobilized system, the system showed considerable activity for the repeated operation for 90 days. With these results, the system developed in this study showed the possibility to be used in the actual waste water treatment system.     

Epstein-Barr Virus Latent Membrane Protein 2 Effects on Epithelial Acinus Development Reveal Distinct Requirements for the PY and YEEA motifs

Epstein-Barr virus (EBV) is a gammaherpesvirus associated with numerous cancers, including the epithelial cancers nasopharyngeal carcinoma (NPC) and gastric carcinoma. The latent membrane protein 2 (LMP2) encoded by EBV is consistently detected in NPC tumors and promotes a malignant phenotype when expressed in epithelial cells by inducing transformation and migration and inhibiting differentiation. Grown in three dimensions (3D) on Matrigel, the nontumorigenic mammary epithelial cell line MCF10A forms hollow, spherical acinar structures that maintain normal glandular features. Expression of oncogenes in these cells allows for the study of multiple aspects of tumor development in a 3D culture system. This study sought to examine the effects of LMP2 on the generation of MCF10A acini. LMP2 expression induced abnormal acini that were large, misshapen, and filled, indicating that LMP2 induced proliferation, impaired cellular polarization, and induced resistance to cell death, leading to luminal filling. Induction of cell death resistance required the PY, immunoreceptor tyrosine activation motif (ITAM), and YEEA signaling domains of LMP2 and activation of the Src and Akt signaling pathways. The PY domain was required for the inhibition of anoikis and also the delayed proliferative arrest of the LMP2-expressing cells. In addition to directly altering acinus formation, expression of LMP2 also induced morphological and protein expression changes consistent with epithelial-mesenchymal transition (EMT) in a manner that required only the YEEA signaling motif of LMP2. These findings indicate that LMP2 has considerable transforming properties that are not evident in standard tissue culture and requires the ability of LMP2A to bind ubiquitin ligases and Src family kinases.     

Nutrient control of release of pancreatic enzymes in yellowtail (Seriola quinqueradiata): involvement of CCK and PY in the regulatory loop

Cholecystokinin (CCK) and neuropeptide Y (NPY)-related peptides are key regulators of pancreatic enzyme secretion in vertebrates. CCK stimulates enzyme secretion whereas peptide Y (PY), a NPY-related peptide, plays an antagonistic role to that of CCK. In fish, very little is known about how different nutrients affect the synthesis of CCK and PY in the digestive tract, and the mechanism by which CCK and PY actually regulate digestive enzyme secretion is not well understood. In order to determine how different nutrients stimulate the synthesis of CCK and PY in yellowtail (Seriola quinqueradiata), CCK and PY mRNA levels in the digestive tract were measured after oral administration of a single bolus of either phosphate-buffered saline (PBS: control), starch (carbohydrate), casein (protein), oleic acid (fatty acid) or tri-olein (triglyceride). In addition, in order to confirm the synthesis and secretion of digestive enzymes, the mRNA levels and enzymatic activities of three digestive enzymes (lipase, trypsin and amylase) were also analyzed. Casein, oleic acid and tri-olein increased the synthesis of lipase, trypsin and amylase, while starch and PBS did not affect the activity of any of these enzymes. CCK mRNA levels rose, while PY mRNA levels were reduced in fish administered casein, oleic acid and tri-olein. These results suggest that in yellowtail, CCK and PY maintain antagonistic control of pancreatic enzyme secretion after intake of protein and/or fat.