Characterization and immunofluorescence localization analysis of carboxypeptidase A in molt fluid of silkworm / 生物工程学报

Molting is an important physiological phenomenon of many metamorphosis insects, during which the old and new epidermis are separated by enzymes present in the molting fluid. Various proteomic studies have discovered the presence of Bombyx mori carboxypeptidase A (Bm-CPA) in the molting fluid of silkworm, but its function remains unclear. In order to better understand the role of Bm-CPA in the molting process of silkworm, Bm-CPA was analyzed by bioinformatics analysis, real-time fluorescence quantitative PCR, antibody preparation, immunofluorescence staining, and expression in Pichia pastoris. The results showed that Bm-CPA had a conserved M14 zinc carboxypeptidase domain and glycosylation site. Its expression was regulated by ecdysone 20E, and large expression was observed in the epidermis of the upper cluster stage. Immunofluorescence staining showed that Bm-CPA was enriched in the epidermis during the molting stage, and the inhibitor of Bm-CPA led to the larval death due to the inability to molt. We also successfully obtained a large number of recombinant Bm-CPA proteins by Pichia pastoris expression in vitro. These results may facilitate further understanding the molting development process of silkworm.

Proximate Composition of Banana and Pineapple Wine Fermented by Meyerozyma guilliermondii and Pichia guilliermondii

Wine is an alcoholic beverage produced from juices of a variety of fruits by the fermentative action of microorganisms. There is a quest for alternative sources of must for wine fermentation, however, the proximate composition should be known to ascertain how nutritious it is. The study was thus aimed at determining the proximate composition of the wines fermented by Meyerozyma guilliermondii and Pichia guilliermondii. Two isolates identified as Meyerozyma guilliermondii strain 1621 and Pichia guilliermondii strain PAX-PAT 18S were used for the fermentation of the substrates obtained from a mixture of pineapple and banana pulp. The fermentation process was for 28 days, followed by a series of racking, clarification, and aging process which was for 2 months. The fermentation process comprised two setups: one was fermented by Meyerozyma guilliermondii strain 1621 and the other by Pichia guilliermondii strain PAX-PAT 18S. The process was monitored and the proximate analysis of the wines was ascertained. The wine produced by Meyerozyma guilliermondii strain 1621 had a moisture content of 82.56 %, ash content of 1.41 %, fat content of 0.08 %, protein content of 1.43%, and carbohydrate content of 9.77%. The wine produced by Pichia guilliermondii strain PAX-PAT 18S had a moisture content of 79.51%, ash content of 1.19%, fat content of 0.15%, protein content of 0.49%, and carbohydrate content of 10.49%. Although this study is not exhaustive, it shows that wines with good nutritional composition can be successfully produced using Meyerozyma guilliermondii strain 1621 and Pichia guilliermondii strain PAX-PAT 18S.

Bioprocess optimization of interferon ß-1-a in Pichia pastoris and its improved inhibitory effect against hepatocellular carcinoma cells

Interferon-ß-1a (INF-ß-1a) has gained significant attention due to its emerging applications in the treatment of different human diseases. Therefore, many researchers have attempted to produce it in large quantities and also in a biologically active form using different expression systems. In the present study, we aimed to improve the expression level of INF-ß-1a by Pichia pastoris using optimization of culture conditions. The codon-optimized INF-ß- 1a gene was cloned into pPICZαA plasmid under the control of alcohol oxidase I (AOX1) promoter. The protein expression was induced using different concentrations of methanol at different pHs and temperatures. The biological activity of produced protein was evaluated by anti-proliferative assay. The ideal culture conditions for the expression of INF-ß-1a by P. pastoris were found to be induction with 2% methanol at pH 7.0 culture medium at 30 C which yielded a concentration of 15.5 mg/L INF-ß-1a in a shake flask. Our results indicate that differences in glycosylation pattern could result in different biological activities as INF- ß-1a produced by P. pastoris could significantly more reduce the cell viability of HepG-2 cells, a hepatocellular carcinoma cell line, than a commercially available form of this protein produced by CHO

Optimization of SARS-CoV-2 spike protein receptor binding domain expression in Pichia pastoris and evaluation of its immunogenicity / 中华微生物学和免疫学杂志

Objective:To effectively express the receptor binding domain (RBD) of SARS-CoV-2 spike protein in Pichia pastoris and to evaluate its immunogenicity. Methods:The gene encoding the RBD protein was synthesized and cloned into the pPICZαA plasmid. After linearization, the plasmid was transferred and integrated into the genome of Pichia pastoris. The expressed RBD protein in culture supernatant was analyzed by Western blot and Biolayer interferometry. After screening, a single clone expressing the RBD protein was selected. The high-level expression of RBD protein was achieved by optimizing the fermentation process, including the salt concentration adjusting of the medium and induction condition optimization (pH, temperature and duration). The immunogenicity of the expressed RBD protein was evaluated in a mouse model. Results:A single clone with a high expression level of RBD protein was obtained and named RBD-X33. The expression level of RBD protein in the fermentation supernatant reached up to 240 mg/L after optimization of the induction condition (HBSM medium, pH=6.5±0.3, 22℃ and 120 h). In the mouse experiment, the recombinant RBD protein was formulated with Alum+ CpG dual adjuvant and injected into mice. The binding IgG antibody levels were up to 2.7×10 6 tested by ELISA and the neutralizing antibody levels were up to 726.8 tested by live virus neutralizing antibody assay (prototype). Conclusions:The RBD protein could be efficiently expressed in Pichia pastoris and induce stronger immune response in animals. This study suggested that the recombinant SARS-CoV-2 RBD protein expressed in Pichia pastoris could serve as a candidate antigen in the development of SARS-CoV-2 vaccine.

Expression of recombinant PreS2-S protein from the hepatitis B virus surface antigen in Pichia pastoris

The aim of this work is the expression of the PreS2-S region of surface antigen of hepatitis B virus (HBV) in yeast Pichia pastoris. A cDNA fragment encoding the Pres2-S protein of HBV was cloned to yeast transfer vectors. Based on cloned new plasmids pPIC3.5-PreS2-S (8707 bp) and pPIC9-PreS2-S (8980 bp) the recombinant strains of P. pastoris producing the PreS2-S region of surface antigen of HBV were obtained. The PAGE electrophoresis and immunoblotting of obtained recombinant PreS2-S protein confirm the molecular weight (34 kDa) and high specificity to the HBV antibodies)AU)

El objetivo de este trabajo es la expresión de la región PreS2-S del antígeno de superficie del virus de la hepatitis B en la levadura Pichia pastoris. Se clonó un fragmento de ADNc que codifica la proteína PreS2-S del VHB en vectores de transferencia de levadura. A partir de los nuevos plásmidos clonados pPIC3.5-PreS2-S (8707 pb) y pPIC9-PreS2-S (8980 pb) se obtuvieron las cepas recombinantes de P. pastoris productoras de la región PreS2-S del antígeno de superficie del VHB. La electroforesis PAGE y la inmunotransferencia de la proteína PreS2-S recombinante obtenida confirman el peso molecular (34 kDa) y la alta especificidad a los anticuerpos contra el VHB(AU)

Immunogenicity of a Recombinant Gonadotropin-releasing Hormone Associated to the B Subunit of Escherichia coli Heat-labile Enterotoxin Expressed in Pichia pastoris and Escherichia coli Platforms

Abstract Gonadotropin-releasing hormone (GnRH) is one of the main targets for the development of immunocontraceptives vaccines. The aim of this study was to clone and express the recombinant GnRH fused to the B subunit of Escherichia coli heat-labile enterotoxin (LTB) molecule in Pichia pastoris and Escherichia coli platforms and evaluate their immunogenicity in mice. P. pastoris (pGnRH/LTB) and E. coli (eGnRH/LTB) platforms were able to express GnRH/LTB expected band with ~ 21 kDa. Both constructions were immunogenic in mice. Similar IgG kinetics was observed for both construction when it was used as ELISA antigen respectively, showing significant (p<0.05) IgG levels 5-fold higher than a commercial vaccine and 14-fold higher than the controls. The histological effects of pGnRH/LTB as well as eGnRH/LTB proteins demonstrated a significant effect on the gonads, characterized by atrophy of seminiferous tubules, absence of spermatogenesis and reduction of Leydig cells. Both constructions were able to induce antibodies that block the hormone effect, suggesting the potential of GnRH/LTB, independently of the P. pastoris or E. coli platform used, as a vaccine candidate for immunocontraception.

Production of high-purity recombinant human vascular endothelial growth factor (rhVEGF165) by Pichia pastoris / 生物工程学报

Vascular endothelial growth factor (VEGF165) is a highly specific vascular endothelial growth factor that can be used to treat many cardiovascular diseases. The development of anti-tumor drugs and disease detection reagents requires highly pure VEGF165 (at least 95% purity). To date, the methods for heterologous expression and purification of VEGF165 require multiple purification steps, but the product purity remains to be low. In this study, we optimized the codons of the human VEGF165 gene (vegf165) according to the yeast codon preference. Based on the Pichia pastoris BBPB vector, we used the Biobrick method to construct a five-copy rhVEGF165 recombinant expression vector using Pgap as the promoter. In addition, a histidine tag was added to the vector. Facilitated by the His tag and the heparin-binding domain of VEGF165, we were able to obtain highly pure rhVEGF165 (purity > 98%) protein using two-step affinity chromatography. The purified rhVEGF165 was biologically active, and reached a concentration of 0.45 mg/mL. The new design of the expression vector enables production of active and highly pure rhVEGF165 ) in a simplified purification process, the purity of the biologically active natural VEGF165 reached the highest reported to date.

Expression of / 浙江大学学报（英文版）（B辑：生物医学和生物技术）

Acetylcholinesterase (AChE) is a key enzyme used to detect organophosphorus pesticide residues by the enzyme inhibition method. An accidental discovery of a mutant strain with AChE activity was made in our laboratory during the process of AChE expression by

Synthesis and antibacterial activity of C-7 haloacyl cephalosporins / 药学学报

Cephalosporins are widely used in the treatment of infectious diseases. The structural differences in cephalosporin drugs mainly lie in the C-7 amino side chain and the C-3 substituent. In this study, twenty-five haloacylated cephalosporins of five series were designed by using a strategy of introducing simple substituents at the C-7 amino group in four cephalosporin parent nucleus with different C-3 substituents and efficiently synthesized under optimized conditions. Their activities against human pathogenic bacteria, Pichia pastoris, citrus canker and citrus pathogenic fungi were evaluated. The results showed that most of the molecules had activity against human pathogenic bacteria, of which seven compounds including TM1f had stronger or equivalent inhibitory activities against eight human pathogens than the marketed drugs cefalotin, cefoxitin sodium and ceftizoxime sodium. The inhibitory activity of TM1s against Alternaria alternate Al.6 was stronger than that of cephalosporins and comparable to that of the positive control prochloraz. TM1f and TM1s are worthy of further study.

Development and evaluation of a novel method for rapid screening of Pichia pastoris strains capable of efficiently expressing recombinant proteins / 生物工程学报

Pichia pastoris is one of the most widely used recombinant protein expression systems. In this study, a novel method for rapid screening of P. pastoris strains capable of efficiently expressing recombinant proteins was developed. Firstly, the ability to express recombinant proteins of the modified strain GS115-E in which a functional Sec63-EGFP (Enhanced green fluorescent protein) fusion protein replaced the endogenous endoplasmic reticulum transmembrane protein Sec63 was tested. Next, the plasmids carrying different copy numbers of phytase (phy) gene or xylanase (xyn) gene were transformed into GS115-E to obtain recombinant strains with different expression levels of phytase or xylanase, and the expression levels of EGFP and recombinant proteins in different strains were tested. Finally, a flow cytometer sorter was used to separate a mixture of cells with different phytase expression levels into sub-populations according to green fluorescence intensity. A good linear correlation was found between the fluorescence intensities of EGFP and the expression levels of the recombinant proteins in the recombinant strains (0.8<|R|<1). By using the flow cytometer, high-yielding P. pastoris cells were efficiently screened from a mixture of cells. The expression level of phytase of the selected high-fluorescence strains was 4.09 times higher than that of the low-fluorescence strains after 120 h of methanol induction. By detecting the EGFP fluorescence intensity instead of detecting the expression level and activity of the recombinant proteins in the recombinant strains, the method developed by the present study possesses the greatly improved performance of convenience and versatility in screening high-yielding P. pastoris strains. Combining the method with high-throughput screening instruments and technologies, such as flow cytometer and droplet microfluidics, the speed and throughput of this method will be further increased. This method will provide a simple and rapid approach for screening and obtaining P. pastoris with high abilities to express recombinant proteins.

Release of formaldehyde during the biofiltration of methanol vapors in a peat biofilter inoculated with Pichia pastoris GS115

BACKGROUND: Methanol can be effectively removed from air by biofiltration (Shareefdeen et al., 1993; Babbitt et al., 2009 [1,2]). However, formaldehyde is one of the first metabolic intermediates in the consumption of methanol in methylotrophic microorganisms (Negruta et al., 2010 [3]), and it can be released out of the cell constituting a secondary emission. RESULTS: The total removal of methanol was achieved up to input loads of 263 g m−3 h−1 and the maximum elimination capacity of the system was obtained at an empty bed residence times of 90 s and reached 330 g m−3 h−1 at an input methanol load of 414 g m−3 h−1 and 80% of removal efficiency. Formaldehyde was detected inside the biofilter when the input methanol load was above 212 g m−3 h−1 . Biomass in the filter bed was able to degrade the formaldehyde generated, but with the increase of the methanol input load, the unconsumed formaldehyde was released outside the biofilter. The maximum concentration registered at the output of the system was 3.98 g m−3 when the methanol load was 672 g m−3 h−1 in an empty bed residence times of 60 s. CONCLUSIONS: Formaldehyde is produced inside a biofilter when methanol is treated in a biofiltration system inoculated with Pichia pastoris. Biomass present in the reactor is capable of degrading the formaldehyde generated as the concentration of methanol decreases. However, high methanol loads can lead to the generation and release of formaldehyde into the environment.

Evaluation of Toxocara canis Glycosylated TES Produced in Pichia pastoris for Immunodiagnosis of Human Toxocariasis

Abstract Recombinant proteins are a suggested alternative for the diagnosis of toxocariasis. The current Escherichia coli recombinant protein overexpression system usually produces insoluble products. As an alternative, yeast such as Pichia pastoris have secretory mechanisms, which could diminish the cost and time for production. This study aimed to produce recombinant proteins in Pichia pastoris and verify their sensibility and specificity in an indirect ELISA assay. Two sequences (rTES-30 and rTES-120) of Toxocara canis excretory-secretory antigens were cloned in a pPICZαB vector and expressed in P. pastoris KM71H. Sera samples collected from human adults infected by Toxocara spp. were tested by indirect ELISA using rTES-30 and rTES-120 as antigens. Recombinant proteins were detected at 72 hours after induction, in the supernatant, as pure bands between 60~70 kDa with hyperglycosylation. Regarding diagnosis potential, recombinant antigens had high specificity (95.6%); however, sensitivity was 55.6% for rTES-30 and 68.9% for rTES-120. Further deglycosylation of the P. pastoris antigens did not seem to affect ELISA performance (p>0.05). The low sensitivity in the serodiagnosis diminished any advantage that P. pastoris expression could have. Therefore, we do not recommend P. pastoris recombinant TES production as an alternative for the diagnosis of toxocariasis.

Expression of a Lactobacillus casei L-lactate dehydrogenase mutant in Pichia pastoris for asymmetric reduction of phenylpyruvate / 生物工程学报

To improve the productivity of L-phenyllactic acid (L-PLA), L-LcLDH1(Q88A/I229A), a Lactobacillus casei L-lactate dehydrogenase mutant, was successfully expressed in Pichia pastoris GS115. An NADH regeneration system in vitro was then constructed by coupling the recombinant (re) LcLDH1(Q88A/I229A) with a glucose 1-dehydrogenase for the asymmetric reduction of phenylpyruvate (PPA) to L-PLA. SDS-PAGE analysis showed that the apparent molecular weight of reLcLDH1(Q88A/I229A) was 36.8 kDa. And its specific activity was 270.5 U/mg, 42.9-fold higher than that of LcLDH1 (6.3 U/mg). The asymmetric reduction of PPA (100 mmol/L) was performed at 40 °C and pH 5.0 in an optimal biocatalytic system, containing 10 U/mL reLcLDH1(Q88A/I229A), 1 U/mL SyGDH, 2 mmol/L NAD⁺ and 120 mmol/L D-glucose, producing L-PLA with 99.8% yield and over 99% enantiomeric excess (ee). In addition, the space-time yield (STY) and average turnover frequency (aTOF) were as high as 9.5 g/(L·h) and 257.0 g/(g·h), respectively. The high productivity of reLcLDH1(Q88A/I229A) in the asymmetric reduction of PPA makes it a promising biocatalyst in the preparation of L-PLA.

Expression of Ietalurus punetaus β-defensin based on recombinant Pichia pastoris / 生物工程学报

β-defensin is a primary protein immune factor in channel catfish's (Ietalurus punetaus) resistance to pathogenic microorganisms. Its primary structure contains a signal peptide composed of 24 amino acid residues at the N-terminal and a mature peptide composed of 43 amino acid residues at the C-terminal. The mature peptide region is responsible for the biological activity of β-defensin. In the present study, a recombinant strain of Pichia pastoris that produces channel catfish β-defensin, was constructed to realize the biosynthesis of channel catfish β-defensin based on eukaryotic expression. First, the β-defensin gene "IPBD" was isolated from the skin of channel catfish by RT-PCR. After linking it with the expression vector pPICZA, pPICZA-IPBD was transferred into competent P. pastoris X-33 cells to obtain recombinant P. pastoris strains. The yeast transformants with multi-copy gene inserts were obtained by using the culture medium containing 1 000 μg/mL zeocin. Using BMM culture medium (without amino nitrogen culture medium) instead of BMMY culture medium (with amino nitrogen culture medium), the fermentation and culture conditions of the recombinant strain were optimized, and the optimal conditions for producing channel catfish β-defensin were determined as follows: the expression was induced for 96 h with 1.0% methanol at 28 °C , 250 r/min. Purified protein with molecular weight of 5.98 kDa was obtained by nickel affinity chromatography, and MALDI-TOF/TOF mass spectrometry proved that it was the expected recombinant IPBD. The antibacterial test results showed that the inhibitory rates of recombinant IPBD on Gram-positive Staphylococcus aureus and Listeria monocytogenes and Gram-negative Pseudomonas aeruginosa were 69.6%, 71.6% and 65.8%, respectively. This study provides a recombinant DNA technique for the development of small molecule natural antibacterial peptide from fish.

Impact of gene dosage on recombinant transglutaminase production of Pichia pastoris / 生物工程学报

Based on the rDNA sequence of Pichia pastoris, a multi-copy gene expression vector of transglutaminase (pPICZα-rDNA-mtg) was constructed and transformed to the host strain (pGAP9-pro/GS115) expressing pro peptide, to obtain the co-expression strain pro/rDNA-mtg (GS115). Real-time fluorescence quantitative PCR (qPCR) was used to analyze transglutaminase gene copy number in the 4 positive strains. We further studied the effect of gene copy on the enzyme production of recombinant Pichia pastoris as well as high-density fermentation of higher expression strain in a 3-L fermenter. The mtg copy numbers of the 4 positive strains were 2.21, 3.36, 5.72 and 7.62 (mtg-2c, mtg-3c, mtg-6c and mtg-8c), respectively, and the enzyme production capacity and protein expression level were mtg-3c>mtg-2c>mtg-6c>mtg-8c. Mtg-3c and mtg-6c of high-density fermentation had the highest enzymatic activity and enzymatic activity per unit wet weight in the supernatant of 3.12 U/mL, 52.1 U/g (wet weight) and 2.07 U/mL and 36.5 U/g (wet weight), respectively. In terms of enzyme activity per unit wet weight, mtg-3c is 1.4 times higher than that of mtg-6c. The activity of purified enzyme (mtg-3c) was up to 7.21 U/mL and the protein concentration was 437.2 μg/mL. By analyzing the effect of mtg copy number on the enzyme production of recombinant strains, mtg-3c is suitable for the co-expression of two genes (pro and mtg) in pro/rDNA-mtg, and its enzyme activity is related to higher protein secretion of the strain.

Optimization of enterokinase secretion in Pichia pastoris / 生物工程学报

Enterokinase is a class of serine proteases that specifically recognize the cleavage DDDDK sequences. Therefore, enterokinase has been widely used as a tool enzyme in the field of biomedicine. Currently, the expression level of enterokinase in Pichia pastoris is low, which hinders related practical applications. In this study, the effects of six different signal peptides SP1, SP2, SP3, SP4, SP7 and SP8 on the secretory expression of enterokinase in Pichia pastoris were studied. Compared with α-factor, SP1 significantly increased the secretory expression of enterokinase (from 6.8 mg/L to 14.3 mg/L), and the enterokinase activity increased from (2 390±212) U/mL to (4 995±378) U/mL in shaking flask cultures. On this basis, the enterokinase activity was further enhanced to (7 219±489) U/mL by co-expressing the endogenous protein Kex2. Moreover, the activity that the mutant strain with N-terminal fusion of three amino acids of WLR was increased to (15 145±920) U/mL with a high specific activity of (1 174 600±53 100) U/mg. The efficient secretory expression of enterokinase laid a foundation for its applications in near future.

Release of formaldehyde during the biofiltration of methanol vapors in a peat biofilter inoculated with Pichia pastoris GS115

Background: Methanol can be effectively removed from air by biofiltration. However, formaldehyde is one of the first metabolic intermediates in the consumption of methanol in methylotrophic microorganisms, and it can be released out of the cell constituting a secondary emission. Results: The total removal of methanol was achieved up to input loads of 263 g m−3 h−1 and the maximum elimination capacity of the system was obtained at an empty bed residence times of 90 s and reached 330 g m− 3 h−1 at an input methanol load of 414 g m−3 h−1 and 80% of removal efficiency. Formaldehyde was detected inside the biofilter when the input methanol load was above 212 g m−3 h−1 . Biomass in the filter bed was able to degrade the formaldehyde generated, but with the increase of the methanol input load, the unconsumed formaldehyde was released outside the biofilter. The maximum concentration registered at the output of the system was 3.98 g m−3 when the methanol load was 672 g m−3 h−1 in an empty bed residence times of 60 s. Conclusions: Formaldehyde is produced inside a biofilter when methanol is treated in a biofiltration system inoculated with Pichia pastoris. Biomass present in the reactor is capable of degrading the formaldehyde generated as the concentration of methanol decreases. However, high methanol loads can lead to the generation and release of formaldehyde into the environment

Diversity of yeasts during fermentation of cocoa from two sites in the Brazilian Amazon

The purpose of this study was to identify the yeasts involved in spontaneous fermentation of cocoa from the Brazilian Amazon region. The fermentation process was carried out experimentally with cocoa seeds from two sites (Medicilândia and Tucumã), State of Pará, northern Brazil, during a six-day period. Totals of 44 yeasts were isolated from Medicilândia and 29 from Tucumã. Molecular identification was carried out by sequencing the D1/D2 region fragment of the rRNA 26S gene, expanded with universal primers for the NL1GC and LS2 eukaryotes. Pichia manshurica and Saccharomyces cerevisiae were identified in Medicilândia and five yeast species (Pichia fermentans, P. kudriavzevii, P. manshurica, S. cerevisiae and Zygosaccharomyces bailii) were identified in Tucumã. The results showed that P. manshurica and S. cerevisiae may have potential for use as starter cultures in future studies to improve the quality of cocoa seeds fermented in the Brazilian Amazon region. (AU)

A proposta deste estudo foi identificar as leveduras envolvidas na fermentação espontânea de cacau da Amazônia brasileira. A fermentação foi realizada em Medicilândia e Tucumã, Pará, Brasil, durante 6 dias. Em total foram obtidos 44 isolados de leveduras de Medicilândia e 29 de Tucumã. A identificação molecular foi realizada por sequenciamento do fragmento da região D1/D2 do gene rRNA 26S, amplificado com primers universais para eucariotos NL1GC e LS2. Em Medicilândia, foram identificadas Pichia manshurica e Saccharomyces cerevisiae. Em Tucumã foram identificadas cinco espécies (Pichia fermentans, P. kudriavzevii, P. manshurica, S. cerevisiae e Zygosaccharomyces bailii). Os resultados sugerem que P. manshurica e S. cerevisiae podem ter potencial para uso como culturas starter em estudos futuros, para melhorar a qualidade das sementes de cacau fermentadas na Amazônia brasileira.(AU)

High-cell density cultivation of recombinant Pichia pastoris harboring fungal endoinulinase and prebiotics applications of inulo-oligosaccharides

Aim: The objective of the present study was to clone and express A. niger endoinulinase gene in P. pastoris for high-level expression. Further to explore high cell density cultivation, biochemical characterization of recombinant endoinulinase and application of inulo-oligosaccharides (IOS) as prebiotics was also studied. Methodology: Molecular cloning of A. niger endoinulinase gene in P. pastoris, screening of positive clones by genomic DNA PCR, shake flask studies, high cell density fermentation performed with both conventional and temperature shift approach, biochemical characterization of endoinulinase and in-vitro fermentation of IOS was carried out to confirm prebiotic efficacy. Results: The endoinulinase gene of 1482 bp from Aspergillus niger was genetically engineered in the GS115 host and was secreted extracellularly using α signal sequence. As a result of fermentation with the conventional approach, recombinant endoinulinase activity was enhanced to 65.7 U ml-1. Recombinant endoinulinase showed absolute substrate specificity for inulin, hydrolyzing inulin to IOS with the DP range 3-4. Interpretation: Hydrolysis of inulin by recombinant endoinulinase was characterized. In-vitro fermentation of IOS by lactic acid and bifidogenic bacteria was studied as a part of industrial application and functional properties of IOS was similar to commercial prebiotics.

Expressão da L-asparaginase II de Saccharomyces cerevisiae recombinante extracelular com glicosilação humanizada em Pichia pastoris / Extracellular expression of Saccharomyces cerevisiae's L-asparaginase II in Pichia pastoris with humanized glycosylation

L-asparaginase é um inibidor eficiente do crescimento tumoral, usado em sessões de quimioterapia contra a Leucemia Linfoblástica Aguda (LLA), resultando na remissão completa da doença em 90% dos pacientes tratados. A L-asparaginase II de Saccharomyces cerevisiae (ScASNaseII) tem alto potencial de superar os efeitos adversos da L-asparaginase de bactéria, porém sua produção endógena resulta em uma proteína hipermanosilada e, consequentemente, imunogênica. A cepa de Pichia pastoris Glycoswitch tem a maquinaria para expressar e secretar altas quantidades de enzima com glicosilação humanizada. Nesse trabalho, descrevemos o processo genético para expressar a ScASNaseII no meio extracelular pela P. pastoris Glycoswitch, e também os parâmetros bioquímicos, perfil cinético, citotoxicidade contra células leucêmicas e a interferência da glicosilação na atividade da enzima obtida. Nossos dados mostram que a cepa aplicada foi capaz de expressar ScASNaseII no meio extracelular passível de purificação de proteínas contaminantes com apenas um passo cromatográfico. A atividade específica para asparagina foi 218,2 UI/mg e a atividade glutaminásica representou 3,1% da atividade asparaginásica. Os parâmetros cinéticos foram KM = 120,5 µM e a eficiência catalítica de 3,8 x 105 M-1s-1. Análises por meio de gel nativo sugerem uma conformação tetramérica de aproximadamente 150 kDa. Essa é uma nova estratégia de produzir essa enzima de forma extracelular, com mais facilidade de purificação e com melhores propriedades biotecnológicas

L-asparaginase is an efficient inhibitor of tumor development, used in chemotherapy sessions against acute lymphoblastic leukemia (ALL) tumor cell; its use results in 90% complete remission of the disease in treated patients. Saccharomyces cerevisiae's L-asparaginase II (ScASNaseII) has a high potential to overcome the side effects of bacteria L-asparaginase, but the endogenous production of it results in hypermannosylated immunogenic enzyme. However, Pichia pastoris Glycoswitch strain has the machinery to express and secrete high quantity of the enzyme and with humanized glycosylation. Here we describe the genetic process to acquire the ScASNaseII in the extracellular medium expressed by P. pastoris Glycoswitch, and the biochemical properties of the resultant enzyme, kinetic profile, cytotoxicity against ALL cell line and the interference of glycosylation in its activity. Our data show that the strain employed is able to express extracellular asparaginase active and possible to be purified of contaminant proteins using a single chromatographic step. The specific activity using asparagine was 218.2 IU.mg-1 and the glutaminase activity represents 3.1% of its asparaginase activity. The kinetics parameters were KM=120.5 µM and a catalytic efficiency of 3.8x105 M-1s-1. The Native-PAGE suggested a tetrameric protein conformation, with approximately 150 kDa. This is a novel strategy to produce this enzyme extracellularly, easier to purify and with better biotechnological properties