• 한국미생물·생명공학회지
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• 제15권2호
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• pp.104-111
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• 1987

Lysine 생산균주를 개량하기 위한 시도로서 Brevibacterium flavum ATCC 21528R 과 Brevibacterium flvum ATCC 21529S의 동종간 및 Brevibacterium flavum ATCC 21528R 과 Corynebacterium glutamicum ATCC 13058S 와 의 이속간 원형질체 융합을 실시하였다. 이들 균주들에 대한 원형질체 형성의 최적조건을 조사하고 재생과 융합에서의 plasma expander의 효과를 검토하였다. 융합주 No. CH23과 No. CH41은 최적 배양조건 하에서 L-lysine 생산성이 모균에서보다 각각 21％와 8.9％ 향상된 것이었다. L-Lysine 생합성 회로상의 중심효소인 asparto-kinase를 포함한 주요효소의 활성을 측정하였고, 융합주 No. CH23과 No. CH41에서의 L-lysine 생합성 대사제어를 친주와 비교하였다.

• 한국미생물·생명공학회지
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• 제26권5호
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• pp.387-392
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• 1998

B. lactofermentum의 lysine 생합성에 있어서 DDH경로 및 ddh gene이 지닌 중요성을 조사하기 위하여, site-specific mutagenesis technique를 통하여 B. lactofermentum의 ddh gene을 disruption함으로서 DDH 경로를 차단시켰다. B. lactofermentum ddh mutant는 wild type 및 AEC내성 균주보다 성장이 매우 저조하였으며 lysine 생산량에서도 급격한 저하를 가져왔다. 이와 같이 B. lactofermentum이 DAP 경로만을 가졌을 때 세포의 성장 및 lysine 생산량에 있어서 극적인 저하를 가져왔기 때문에 B. lactofermentum에서의 DDH 경로는 meso-DAP 및 lysine 생합성에 있어 필수적인 경로로 작용한다는 것을 확인하였다. 그러므로 C. glutamicum과 B. lactofermentum과 같은 corynebacteria가 lysine을 많이 생산하는 것은 DDH 경로가 부가적으로 존재하기 때문이며, 이러한 DDH 경로는 metabolic flux가 증가되면 중간 대사물을 lysine으로 변화시키는 중요한 경로로 작용할 것이라 사료된다.

• Journal of Microbiology and Biotechnology
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• 제26권2호
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• pp.226-232
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• 2016

Dihydrodipicolinate reductase is an enzyme that converts dihydrodipicolinate to tetrahydrodipicolinate using an NAD(P)H cofactor in L-lysine biosynthesis. To increase the understanding of the molecular mechanisms of lysine biosynthesis, we determined the crystal structure of dihydrodipicolinate reductase from Corynebacterium glutamicum (CgDapB). CgDapB functions as a tetramer, and each protomer is composed of two domains, an Nterminal domain and a C-terminal domain. The N-terminal domain mainly contributes to nucleotide binding, whereas the C-terminal domain is involved in substrate binding. We elucidated the mode of cofactor binding to CgDapB by determining the crystal structure of the enzyme in complex with NADP⁺ and found that CgDapB utilizes both NADH and NADPH as cofactors. Moreover, we determined the substrate binding mode of the enzyme based on the coordination mode of two sulfate ions in our structure. Compared with Mycobacterium tuberculosis DapB in complex with its cofactor and inhibitor, we propose that the domain movement for active site constitution occurs when both cofactor and substrate bind to the enzyme.

• Journal of Microbiology and Biotechnology
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• 제7권2호
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• pp.95-100
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• 1997

• Journal of Microbiology and Biotechnology
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• 제21권6호
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• pp.652-658
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• 2011

The growth kinetics of Streptomyces noursei NRRL 5126 was investigated under different aeration and agitation combinations in a 5.0 l stirred tank fermenter. Poly-${\varepsilon}$-lysine biosynthesis, cell mass formation, and glycerol utilization rates were affected markedly by both aeration and agitation. An agitation speed of 300 rpm and aeration rate at 2.0 vvm supported better yields of 1,622.81 mg/l with highest specific productivity of 15 mg/l.h. Fermentation kinetics performed under different aeration and agitation conditions showed poly- ${\varepsilon}$-lysine fermentation to be a growth-associated production. A constant DO at 40% in the growth phase and 20% in the production phase increased the poly-${\varepsilon}$-lysine yield as well as cell mass to their maximum values of 1,992.35 mg/l and 20.73 g/l, respectively. The oxygen transfer rate (OTR), oxygen utilization rate (OUR), and specific oxygen uptake rates ($qO_2$) in the fermentation broth increased in the growth phase and remained unchanged in the stationary phase.

• Journal of Applied Biological Chemistry
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• 제62권2호
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• pp.157-165
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• 2019

Di- and tri-methylation of lysine 4 on histone H3 (H3K4me2 and H3K4me3, respectively) are epigenetic markers of active genes. Complex associated with Set1 (COMPASS) mediates these H3K4 methylations. The involvement of COMPASS activity in secondary metabolite (SM) biosynthesis was first demonstrated with an Aspergillus nidulans cclA knockout mutant. The cclA knockout induced the transcription of two cryptic SM biosynthetic gene clusters, leading to the production of the cognate SM. Monascus spp. are filamentous fungi that have been used for food fermentation in eastern Asia, and the pigment Monascus azaphione (MAz) is their main SM. Monascus highly produces MAz, implying that the cognate biosynthetic genes are highly active in transcription. In the present study, we examined how COMPASS activity modulates MAz biosynthesis by inactivating Monascus purpureus cclA (Mp-cclA) and swd1 (Mp-swd1). For both ${\Delta}Mp-cclA$ and ${\Delta}Mp-swd1$, a reduction in MAz production, accompanied by an abated cell growth, was observed. Suppression of MAz production was more effective in an agar culture than in the submerged liquid culture. The fidelity of the ${\Delta}Mp-swd1$ phenotypes was verified by restoring the WT-like phenotypes in a reversion recombinant mutant, namely, trpCp: Mp-swd1, that was generated from the ${\Delta}Mp-swd1$ mutant. Real-time quantitative Polymerase chain reaction analysis indicated that the transcription of MAz biosynthetic genes was repressed in the ${\Delta}Mp-swd1$ mutant. This study demonstrated that MAz biosynthesis is under the control of COMPASS activity and that the extent of this regulation is dependent on growth conditions.

• 한국미생물학회:학술대회논문집
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• 한국미생물학회 2005년도 International Meeting of the Microbiological Society of Korea
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• pp.204.4-204
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• 2005

• Journal of Microbiology and Biotechnology
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• 제7권5호
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• pp.287-292
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• 1997

The role of glyoxylate bypass in lysine production by Corynebacterium glutamicum ssp. lactofermentum ATCC21799 was analyzed by using cloned aceA and aceB genes which encode enzymes catalyzing the bypass. Introduction of a plasmid carrying aceA and aceB to the strain increased enzyme activities of the bypass to approximately 5 fold on acetate minimal medium. The strain with amplified glyoxylate bypass excreted 25% more lysine to the growth medium than the parental strain, apparently due to the increased availability of intracellular oxaloacetate. The final cell yield was lower in the strain with amplified glyoxylate bypass. These changes were specific to the lysine-producing C. glutamicum ssp. lactofermentum ATCC21799, since the lysine-nonproducing wild type Corynebacterium glutamicum strain grew faster and achieved higher cell yield when the glyoxylate bypass was amplified. These findings suggest that the lysine producing C. glutamicum ssp. lactofermentum ATCC21799 has the ability to efficiently channel oxaloacetate, the TCA cycle intermediate, to the lysine biosynthesis pathway whereas lysine-nonproducing strains do not. Our results show that amplification of the glyoxylate bypass efficiently increases the intracellular oxaloacetate in lysine producing Corynebacterium species and thus results in increased lysine production.

• 한국식품영양과학회지
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• 제30권5호
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• pp.802-805
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• 2001

산업적으로 lysine 발효 산업에 이용되고 있는 B. lactofermentum으로부터 lysine 생합성에 관여하는 tetrahyrodipicolinate N-succinyl transferase를 지령하는 dapD 유전자를 E. coli의 dapD 결손변이주와의 complementation test를 통하여 cloning하였다. 재조합 plamid는 3.6 kb의 DNA 단편을 함유하고 있었으며 Southern blot hybridization을 통하여 dapD 유전자는 B. lactofermentum으로부터 유래하였으며 염색체 DNA내에 single copy로 존재함을 알 수 있었다. 또한 lysine 생성량 분석을 통하여 E. coli에서 B. lactofermentum dapD 유전자의 발현을 확인하였다.

• Journal of Microbiology and Biotechnology
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• 제25권11호
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• pp.1819-1826
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• 2015

Poly(ε-ʟ-lysine) (ε-PL) is a novel bioactive polymer secreted by filamentous bacteria. Owing to lack of a genetic system for most ε-PL-producing strains, very little research on enhancing ε-PL biosynthesis by genetic manipulation has been reported. In this study, an effective genetic system was established via intergeneric conjugal transfer for Streptomyces albulus PD-1, a famous ε-PL-producing strain. Using the established genetic system, the Vitreoscilla hemoglobin (VHb) gene was integrated into the chromosome of S. albulus PD-1 to alleviate oxygen limitation and to enhance the biosynthesis of ε-PL in submerged fermentation. Ultimately, the production of ε-PL increased from 22.7 g/l to 34.2 g/l after fed-batch culture in a 5 L bioreactor. Determination of the oxygen uptake rate, transcriptional level of ε-PL synthetase gene, and ATP level unveiled that the expression of VHb in S. albulus PD-1 enhanced ε-PL biosynthesis by improving respiration and ATP supply. To the best of our knowledge, this is the first report on enhancing ε-PL production by chromosomal integration of the VHb gene in an ε-PL-producing strain, and it will open a new avenue for ε-PL production.