1.Recent development of Pichia pastoris system: current status and future perspective.
Chinese Journal of Biotechnology 2015;31(6):929-938
With more than 20 years of development, Pichia pastoris system has been extensively used both on a lab and industrial scale. This review outlines the progress made on P. pastoris from aspects of protein expression, molecular engineering tools and methods, and biochemical production. This review also provides perspectives on the current challenges and future directions of this important system.
Bioengineering
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Industrial Microbiology
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Pichia
2.Estimation of Cell Concentration by Light Transmitter During the Culture of Methylotrophic Yeast Pichia pastoris.
Du Bok CHOI ; Enoch Y S PARK ; Yong Bo LEE ; Young Hee NA ; Chae Kyu LIM
Mycobiology 2003;31(4):226-228
The multiple correlation coefficient between the values determined by dry weight and those determined by fluorometer was observed with r = 0.96 and the standard error of calibration was 0.034. Using the best calibration data, in order to reconfirm the reliability of the fluorometer results in comparison with those obtained by dry weight on the cell concentration, fedbatch cultures were carried out. The results obtained by fluorometer measurements were in good agreement with those obtained by dry weight. The on-line monitoring of cell concentration by the fermentor system linked to a computer equipped with fluorometer was successfully carried out.
Bioreactors
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Calibration
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Pichia*
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Yeasts*
3.Expression of Pichia pastoris tRNAProCCG and its function.
Meng PENG ; Ming TAN ; Yan ZENG ; Hongchen ZHENG ; Hui SONG
Chinese Journal of Biotechnology 2019;35(1):70-80
Translocation ribonucleic acid (tRNA) is one of the important components in protein synthesis. In order to explore the effect of the changes of tRNAs corresponding to rare codons (rarity tRNAs) on the expression of exogenous genes, the co-expression system of rare tRNA gene and exogenous gene in Pichia pastoris was constructed. The expression of GFP in P. pastoris can be greatly reduced when a repressor region composed of four continuous proline rare codon CCG was added into the GFP gene. The expression amount of the repressed GFP could be increased about 4.9% when tRNAProCCG gene was cointegrated to the 3' of the repressed GFP gene through pPIC9K to the genome of P. pastoris GS115. Meanwhile, the expression amount of the repressed GFP increased about 12.5% by integrating the repressed GFP gene and tRNAProCCG gene to the genome of P. pastoris GS115 through pPIC9K and pFLDα, respectively. Using the same method, NFATc3T-GFP fusion gene and tRNAProCCG gene were co-expressed in P. pastoris GS115 resulting in 21.3% increased of the expression amount of NFATc3T-GFP fusion protein. In conclusion, tRNAProCCG gene has been confirmed to be a kind of rare tRNAs in P. pastoris GS115. Through co-expression of tRNAProCCG gene and heterologous genes which containing the continuous rare codon CCG, the expression of the repressed heterologous genes could be increased significantly. Furthermore, this co-expression system would contribute to screening and determining the other rare tRNAs.
Codon
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Pichia
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Recombinant Proteins
5.Successful Treatment of Fungemia Caused by Cyberlindnera fabianii with Anidulafungin: A Case Report.
Jeong In LEE ; Shinae YU ; Jong Sin PARK ; Eun Jeong JOO ; Jong Hee SHIN ; Min Jung KWON
Annals of Clinical Microbiology 2015;18(3):94-97
Cyberlindnera fabianii (previously known as Hansenula fabianii, Pichia fabianii, and Lindnera fabianii) is a yeast species that forms a biofilm, allowing it to resist azole drugs. In this study, we report a case of fungemia with C. fabianii that was successfully treated with anidulafungin. In this case, the organism was initially misidentified as Candida utilis (with a high probability of 93%, suggesting good identification) using the VITEK 2 yeast identification card (YST ID; bio-Merieux, USA). The species responsible for the patient's fungemia was correctly identified after sequencing the internally transcribed spacer region and the D1/D2 domain of the large subunit (26S) rDNA gene. The CLSI M27-A3 broth microdilution method was used to determine the in vitro antifungal activity of anidulafungin and fluconazole against C. fabianii. The MICs of anidulafungin and fluconazole were found to be 0.03 microg/mL and 2 microg/mL, respectively. The patient recovered after 14 days of anidulafungin treatment.
Biofilms
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Candida
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Danazol
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DNA, Ribosomal
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Fluconazole
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Fungemia*
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Humans
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Pichia
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Yeasts
6.Synthesis of diisooctyl adipate catalyzed by lipase-displaying Pichia pastoris whole-cell biocatalysts.
Na ZHANG ; Zi JIN ; Ying LIN ; Suiping ZHENG ; Shuangyan HAN
Chinese Journal of Biotechnology 2013;29(7):1027-1031
An enzyme-displaying yeast as a whole-cell biocatalyst is an alternative to immobilized enzyme, due to its low-cost preparation and simple recycle course. Here, lipase-displaying Pichia pastoris whole-cell was used as a biocatalyst to synthesize diisooctyl adipate in the non-aqueous system. The maximum productivity of diisooctyl adipate was obtained as 85.0% in a 10 mL reaction system. The yield could be reached as high as 97.8% when the reaction system was scaled up to 200 mL. The purity obtained is 98.2% after vacuum distillation. Thus, the lipase-displaying P. pastoris whole-cell biocatalyst was promising in commercial application for diisooctyl adipate synthesis in non-aqueous phase.
Adipates
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metabolism
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Industrial Microbiology
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Lipase
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metabolism
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Pichia
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metabolism
7.Production and Its Anti-hyperglycemic Effects of γ-Aminobutyric Acid from the Wild Yeast Strain Pichia silvicola UL6-1 and Sporobolomyces carnicolor 402-JB-1.
Mycobiology 2017;45(3):199-203
This study was done to produce γ-aminobutyric acid (GABA) from wild yeast as well as investigate its anti-hyperglycemic effects. Among ten GABA-producing yeast strains, Pichia silvicola UL6-1 and Sporobolomyces carnicolor 402-JB-1 produced high GABA concentration of 134.4 µg/mL and 179.2 µg/mL, respectively. P. silvicola UL6-1 showed a maximum GABA yield of 136.5 µg/mL and 200.8 µg/mL from S. carnicolor 402-JB-1 when they were cultured for 30 hr at 30℃ in yeast extract-peptone-dextrose medium. The cell-free extract from P. silvicola UL6-1 and S. carnicolor 402-JB-1 showed very high anti-hyperglycemic α-glucosidase inhibitory activity of 72.3% and 69.9%, respectively. Additionally, their cell-free extract-containing GABA showed the anti-hyperglycemic effect in streptozotocin-induced diabetic Sprague-Dawley rats.
gamma-Aminobutyric Acid
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Pichia*
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Rats, Sprague-Dawley
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Yeasts*
8.Development and evaluation of a novel method for rapid screening of Pichia pastoris strains capable of efficiently expressing recombinant proteins.
Yongan CHEN ; Qingyan YUAN ; Cheng LI ; Shuli LIANG ; Ying LIN
Chinese Journal of Biotechnology 2021;37(3):939-949
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.
6-Phytase/genetics*
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Pichia/genetics*
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Plasmids
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Recombinant Proteins/genetics*
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Saccharomycetales
9.Fermentation optimization based on cell self-adaptation to environmental stress - a review.
Jian DING ; Hongzhen LUO ; Zhongping SHI
Chinese Journal of Biotechnology 2019;35(10):1986-2002
In industrial fermentation processes, bacteria have to adapt environmental stresses. Sometimes, such a self-adaption does not work and will cause fermentation failures, although such adaptation also can generate unexpected positive effects with improved fermentation performance. Our review introduces cell self-adaption to environmental variations or stress, process optimization based on such self-adaptions, with heterologous proteins production by Pichia pastoris and butanol fermentation as examples. Our review can sever as reference for fermentation optimization based on cell self-adaption.
Adaptation, Physiological
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Butanols
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metabolism
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Environment
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Fermentation
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Pichia
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cytology
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metabolism
10.Development and application of a droplet-based microfluidic high-throughput screening of Pichia pastoris.
Tong LÜ ; Ran TU ; Huiling YUAN ; Hao LIU ; Qinhong WANG
Chinese Journal of Biotechnology 2019;35(7):1317-1325
Pichia pastoris is one of the most convenient and widely used heterologous protein expression systems. To further improve its ability to express heterologous proteins, we developed a high-throughput P. pastoris screening method based on droplet microfluidic and demonstrated the method by screening and obtaining mutants with enhanced xylanase expression and secretion abilities. We used PCR (Polymerase Chain Reaction) amplification to obtain a fusion fragment of xylanase xyn5 gene and green fluorescent protein gfp gene, and cloned this fragment into pPIC9K, the expression vector of Pichia pastoris, to construct the plasmid pPIC9K-xyn5-gfp that recombined the DNA fragments of xylanase and green fluorescent protein. After this plasmid entered P. pastoris GS115 by electroporation, the P. pastoris SG strain that could express xylanase and green fluorescent protein was obtained. The above-said strains were then mutagenized by atmospheric room temperature plasma and subsequently encapsulated to form single-cell droplets. After 24-hour cultivation of the droplets, microfluidic screening was carried out to obtain the mutant strain with high xylanase expression for further construction and screening of the next mutagenesis library. After five rounds of droplet microfluidic screening, a highly productive strain P. pastoris SG-m5 was obtained. The activity of the expressed xylanase was 149.17 U/mg, 300% higher than that of those expressed by the original strain SG. This strain's ability to secrete heterologous protein was 160% higher than that of the original strain. With a screening throughput of 100 000 strains per hour, the high-throughput P. pastoris screening system based on single-cell droplet microfluidic developed by the present study screens a library with million strains in only 10 hours and consumes only 100 μL of fluorescent reagent, thus reducing the reagent cost by millions of times compared with the traditional microplate screening and more importantly, providing a novel method to obtain P. pastoris with high abilities to express and secret heterologous proteins by efficient and low-cost screening.
Microfluidics
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Mutagenesis
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Pichia
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Plasmids
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Polymerase Chain Reaction
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Recombinant Proteins