• Microbiology and Biotechnology Letters
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• v.14 no.5
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• pp.365-369
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• 1986

The activity of glucoamylase and pullulanase, properties of glucoamylase and ethanol productivities of fusants were studied. Glucoamylase and pullulanase activity of fusants were higher than parents. The optimal pH and temperature of glucoamylase of fusants were very similar to the those produced by S. diastaticus. In alcohol fermentation. fermenting ability and fermentation rate of fusants were higher and faster than either of its parental strain. The maximum of alcohol yield in 15% of liquefied potato starch was 7.8% (v/v)

• Journal of environmental and Sanitary engineering
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• v.5 no.1
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• pp.49-64
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• 1990

Glucoamylase from the culture filtrate of Aspergillus nicer was purified by ammonium sulfate precipitation, aceton precipitation, DEAE-cellulose ion exchange chromatography and Sephadex G-50 gel fillration. Glucoamylase was secreted into the medium upon growth on glucose, sucrose or a variety of other hexose sugars or hexose sugar polymers and little or no glucoamylase activity was found when glycerol or xylose was used as the carbon source. The optimum pH and temperature (or the maximum enzyme activity were found to be 5.0 and $50^{\circ}C$, respectively. The enzyme was considerably thermostable, for no loss of activity was observed when the enzyme was preincubated at $60^{\circ}C$ for 30 min. The enzyme activity was inhibited by 20 mM of $Hg^{2+}$, $Fe^{2+}$. The km value for starch was 0.045%.

• The Korean Journal of Mycology
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• v.27 no.6 s.93
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• pp.386-393
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• 1999

Ethanol is considered as one of the most suitable substitutes for the petroleum, since it offers attractive functional features at an economical cost. Glucoamylase producing yeasts were isolated and characterized. Based on the morphological character, carbon fermentations, assimilation of carbon and nitrate, growth on vitamine-free medicine, and urease activity, five isolates of Saccharomyces diastaticus, two isolates of Saccharomycopsis fibuligera, and two of Schwanniomyces occidentalis, and each isolate of Ambrosiozyma monospora and Lipomyces kononenkoae were identified. Among 12 isolates, one of the S. diastaticus, E3 showed the highest activity of glucoamylase and identified as Saccharomyces diastaticus. The hydrolysis of starch by the E3 strain showed the release of considerable amount of reducing sugar, along with the reduction in iodine staining capacity. The product of action of glucoamylase, glucose was determined by thin-layer chromatography. The enzyme activity was found to be stable in broad pH range of $5.0{\sim}7.0$ with optimal activity at pH $5.0{\sim}6.0$. The enzyme showed optimal antivity at $50^{\circ}C{\sim}60^{\circ}C$. Soluble starch and glucose were better carbon sources for the enzyme production than xylose and glycerol. $Na^+\;and\;Mg^{2+}$ increased the glucoamylase activity, however $Hg^{2+}\;and\;Ag^{2+}$ inhibited the activity. Soluble starch was the best substrate for the enzyme activity.

• Korean Journal of Food Science and Technology
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• v.16 no.4
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• pp.398-402
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• 1984

These experiments were conducted to investigate the substrate specificity, the hydrolysis products on the various carbohydrates and the hydrolysis rate on the various raw starches of the two purified glucoamylase produced by Rhizopus oryzae. Both of the glucoamylases hydrolyzed amylose, amylopectin, glycogen, soluble starch, pullulan, maltose, maltotriose, maltotetraose, maltopentaose, maltohexaose, maltoheptaose and maltooctaose, but did not act on ${\alpha}-cyclodextrin$, ${\beta}-cyclodextrin$, raffinose, sucrose and lactose. When the reaction mixture of glucoamylase and polysaccharides were incubated $37^{\circ}C$for 32 hours, glucoamylase I hydrolyzed amylopectin, soluble starch and amyloses completely, but hydrolyzing glycogen up to only about 88%. Glucoamylase II hydrolyzed the previous four polysaccharides up to about 100%. Both of the glucoamylases produced only glucose for various substrates and did not have any ${\alpha}-glucosyl$ transferase activity. Both of the glucoamylases hydrolyzed raw glutinous rice starch almost complety, wheras they acted on raw potato starch, raw green banana starch, raw arrow root starch, raw corn starch, raw yam starch and raw high amylose corn starch weakly. Glucoamylase II hydrolyzed raw starches at the higher rate than glucoamylase I.

• Microbiology and Biotechnology Letters
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• v.24 no.6
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• pp.712-716
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• 1996

The effects of non-ionic surfactants (Triton X-100 and Tween 80) on cloned glucoamylase production and secretion in recombinant Saccharomyces cerevisiae culture were studied. Even though the extracellular glucoamylase activity was increased by addition of Tween 80 due to the increase of the cell mass, Tween 80 did not play a role in the increase of glucoamylase secretion. On the addition of Triton X-100 addition, the secretion efficiency was increased while the cell growth was inhibited. Triton X-100 was added to the culture broth after 24 hr of culture to minimize the inhibition of the cell growth, and consequently the glucoamylase activity in the culture broth was increased by 12%.

• Journal of Industrial Technology
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• v.39 no.1
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• pp.15-19
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• 2019

This work focused on characterization of the starch degradation activity from extremophile strain Deinococcus geothermalis. Glucoamylase gene from D. geothermalis was cloned and overexpressed by pET-21a vector using E. coli BL21 (DE3). In order to characterize starch degrading activity of recombinant glucoamylase, enzyme was purified using HisPur Ni-NTA column. The recombinant glucoamylase from D. geothermalis exhibited the optimum temperature as $45^{\circ}C$ for starch degradation activity. And highly acido-stable starch degrading activity was shown at pH 2. For further optimization of starch degrading activity with metal ion, various metal ions ($AgCl_2$, $HgCl_2$, $MnSO_4{\cdot}4H_2O$, $CoCl_2{\cdot}6H_2O$, $MgSO_4$, $ZnSO_4{\cdot}7H_2O$, $K_2SO_4$, $FeCl_2{\cdot}4H_2O$, NaCl, or $CuSO_4$) were added for enzyme reaction. As results, it was found that $FeCl_2{\cdot}4H_2O$ or $MnSO_4{\cdot}4H_2O$ addition resulted in 17% and 9% improved starch degrading activity, respectively. The recombinant glucoamylase from D. geothermalis might be used for simultaneous saccharification and fermentation (SSF) process at high acidic conditions.

• Korean Journal of Microbiology
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• v.31 no.2
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• pp.136-140
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• 1993

The A. nidulans expression vector which contained trpC marker gene from A. nidulans was constructed to produce glucoamy]ase. The recombinant plasmid was introduced into auxotrophic mutant A. nidulans B17. Southern blot analysis of the genomic DNA from transformant showed that pKHG2 DNA had integrated into the A. nidulans chromosomes. Northern analysis of the total RNA from transform ant showed that mRNA of glucoamylase gene was synthesized in induction condition. Specific activity of glucoamylase was increased in transform ants. G]ucoamylase was shown to be active in non-denaturing acrylamide gel.

• Korean Journal of Food Science and Technology
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• v.16 no.3
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• pp.322-328
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• 1984

These experiments were conducted to purify the glucoamylase produced by Rhizopus oryzae. Two forms of glucoamylase (GI and GII) from Phizopus oryzae were purified by $(NH_2)_2SO_4$ fractionation, acetone fractionation and successive column chromatography on DEAE-cellulose and CM-cellulose. The specific activities of GI and GII toward soluble starch were 157.6 U/㎎. protein (37.5 fold of crude extract), and 164.7 U/㎎. protein (39.2 fold of curde extract), respectively, and the yields of them were 4.3% and 3.8%, respectively. The two purified enzymes have shown a single band by polyacrylamide disc gel electrophoresis and SDS-polyacrylamide gel electrophoresis. The protein bands of their electrophoresis gel were revealed to have glucoamylase activity by iodine staining and were proved to be glycoprotein by periodic acid Schiff's staining.

• Journal of Mushroom
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• v.9 no.2
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• pp.53-58
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• 2011

In order to confirm the presence of putative glucoamylase gene in Tricholoma matsutake genome, the genomic DNA was prepared from T. matsutake NBRC30773 strain and was used as template to clone the glucoamylases gene (TmGlu1). We obtained the nucleotide sequence of TmGlu1 and its franking region. The coding region (from ATG to stop codon) is 2,186 bp. The locations of exons and introns were determined from the nucleotide sequences of 3'- and 5'-RACE PCR and RT-PCR products. On the other hand, to investigate the relationship between composition of medium and glucoamylase expression, we checked the expression level of glucoamylase gene by realtime reverse transcription PCR and measurement of glucoamylase enzyme activity. It was found that enzyme activity of glucoamylase was very low in different medium. Expression of glucoamylases gene appeared to not be affected by different carbon source.

• Korean Journal of Microbiology
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• v.28 no.3
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• pp.181-187
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• 1990

STA gene coding glucoamylase was introduced into haploid Saccharomyces cerevisiae SHY3 and polyploid Saccharomyces cerevisiae 54. We constructed the recombinant plasmid by substituting the promoter region of alcohol dehydrogenase isoenzyme I gene for that of STA gene to increase the expression of STA gene and found that the activity of glucoamylase was increased in transformants. The plasmid stability was improved remarkably when we got the STA gene into the plasmid which had centromere. The activity of glucoamylase and transformation frequency of it, however, was decreased because of low copy number. Industrial polyploid strain was transformed with the recombinant plasmid having the $2\mu$ origin of replication and STA gene. It produced more alcohol than host when fermented in liquefied starch media. The industrial strain, however, was not transformed with the autonomously replicating plasmid containing centromere.