• 생명과학회지
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• 제33권11호
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• pp.944-949
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• 2023

이 연구의 목적은 122종의 고세균 종에 보존된 대사 경로와 보존된 유전자를 확인하는 것이었다. 각각의 122개 고세균이 63개의 COG 대사 경로, 이를 구성하는 822개의 COG, 총 4,877개의 COG를 보유하고 있는지 분석했다. 대사경로에서는 archaeal ribosomal proteins만이 가장 보존적이었다. 122종의 고세균 모두에 공통적인 COG는 7개의 COG pathways에서 46개, 그리고 그 외가 20개였다. COG pathways에서는 ribosome을 구성하는 29개, tRNA synthetase와 전사인자가 각각 5개, RNA polymerase를 구성하는 3개, 그리고 tRNA modification에 관련된 2개의 COG가 공통적이었다. COG pathways에 속하지 않고 122종의 고세균에 공통적인 보존적 유전자까지 고려하면 외부와 세포질을 구분 짓는 세포벽과 세포외기질의 합성, 복제, 전사, 번역, 단백질 대사에 관련된 유전자들 중에서 일부가 공통적이었다. 계통수에서 구한 각 고세균의 distance value를 분류단위로 보면 Euryarchaeota 문의 Halobacteria강의 평균이 가장 낮았고 표준편차는 Thaumarchaeota 문의 Nitosospharia강, 강을 알 수 없는 Thaumarchaeota문의 고세균, Euryarchaeota 문의 Halobacteria 강, Crenarchaeota 문의 Thermoprotei 강, 기타 고세균(OA)이 높았다. 계통수 분석으로 6가지의 공통점을 찾았다. 본 연구결과는 보존된 유전자에 관한 자료 외에도 의약품 개발, 균주 개선을 위한 유전자의 선택 등에 활용될 수 있을 것이다.

• Macromolecular Research
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• 제16권1호
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• pp.1-5
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• 2008

The enzymatic hydrolysis of chitin has been studied for almost a century, and early work established that at least two enzymes are required, a chitinase that mainly yields the disaccharide N,N'-diacetylchitobiose, or $(GlcNAc)_2$, and a "chitobiase", or ${\beta}$-N-acetylglucosaminidase, which gives the final product G1cNAc. This pathway has not been completely identified but has remained the central concept for the chitin catabolism through the $20^{th}$ century1 including in marine bacteria. However, the chitin catabolic cascade is quite complex, as described in this review. This report describes three biologically functional genes involved in the chitin catabolic cascade of Vibrios in an attempt to better understand the metabolic pathway of chitin.

• Journal of Microbiology and Biotechnology
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• 제26권4호
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• pp.710-716
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• 2016

Gamma-aminobutyric acid (GABA) is a non-protein amino acid, which is an important inhibitor of neurotransmission in the human brain. GABA is also used as the precursor of biopolymer Nylon-4 production. In this study, the carbon flux from the tricarboxylic acid cycle was directed to the GABA shunt pathway for the production of GABA from glucose. The GABA shunt enzymes succinate-semialdehyde dehydrogenase (GabD) and GABA aminotransferase (GabT) were co-localized along with the GABA transporter (GadC) by using a synthetic scaffold complex. The co-localized enzyme scaffold complex produced 0.71 g/l of GABA from 10 g/l of glucose. Inactivation of competing metabolic pathways in mutant E. coli strains XBM1 and XBM6 increased GABA production 13% to reach 0.80 g/l GABA by the enzymes co-localized and expressed in the mutant strains. The recombinant E. coli system developed in this study demonstrated the possibility of the pathway of the GABA shunt as a novel GABA production pathway.

• 한국미생물생명공학회:학술대회논문집
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• 한국미생물생명공학회 2005년도 2005 Annual Meeting & International Symposium
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• pp.285-286
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• 2005

• Journal of Microbiology and Biotechnology
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• 제33권10호
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• pp.1370-1375
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• 2023

In this study, we aimed to enhance the accumulation of chorismate (CHR) and anthranilate (ANT), key intermediates in the shikimate pathway, by modifying a shikimate over-producing recombinant strain of Corynebacterium glutamicum [19]. To achieve this, we utilized a CRISPR-driven genome engineering approach to compensate for the deletion of shikimate kinase (AroK) as well as ANT synthases (TrpEG) and ANT phosphoribosyltransferase (TrpD). In addition, we inhibited the CHR metabolic pathway to induce CHR accumulation. Further, to optimize the shikimate pathway, we overexpressed feedback inhibition-resistant Escherichia coli AroG and AroH genes, as well as C. glutamicum AroF and AroB genes. We also overexpressed QsuC and substituted shikimate dehydrogenase (AroE). In parallel, we optimized the carbon metabolism pathway by deleting the gntR family transcriptional regulator (IolR) and overexpressing polyphosphate/ATP-dependent glucokinase (PpgK) and glucose kinase (Glk). Moreover, acetate kinase (Ack) and phosphotransacetylase (Pta) were eliminated. Through our CRISPR-driven genome re-design approach, we successfully generated C. glutamicum cell factories capable of producing up to 0.48 g/l and 0.9 g/l of CHR and ANT in 1.3 ml miniature culture systems, respectively. These findings highlight the efficacy of our rational cell factory design strategy in C. glutamicum, which provides a robust platform technology for developing high-producing strains that synthesize valuable aromatic compounds, particularly those derived from the shikimate pathway metabolites.

• Journal of Microbiology and Biotechnology
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• 제13권4호
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• pp.578-583
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• 2003

The desulfurization genes (dszABC) were cloned from Gordonia nitida. Nucleotide sequences similarity between the dszABC genes of G. nitida and those of Rhodococcus rhodochrous IGTS8 was 89%. The similarities of deduced amino acids between the two were 86% for DszA, 86% for DszB, and 90% for DszC. The G. nitida dszABC genes were expressed in several different Escherichia coli strains under an inducible trc promoter. Cultivation of these metabolically engineered E. coli strains in the presence of 0.2 mM dibenzothiophene (DBT) allowed the conversion of DBT to 2-hydroxybiphenyl (2-HBP), which is the final metabolite of the sulfur-specific desulfurization pathway. The maximum conversion of DBT to 2-HBP was 16% in 60 h. Recombinant E. coli was applied for the deep desulfurization of diesel oil supplemented into the medium at 5% (v/v). Sulfur content in diesel oil was decreased from 250 mg sulfur/1 to 212.5 mg sulfur/1, resulting in the removal of 15% of sulfur in diesel oil in 60 h.

• 한국생물공학회:학술대회논문집
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• 한국생물공학회 2005년도 생물공학의 동향(XVII)
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• pp.71-72
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• 2005

• Journal of Plant Biotechnology
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• 제29권3호
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• pp.199-207
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• 2002

The tropane alkaloids hyoscyamine (its racemic form being atropine) and scopolamine are used medicinally as anticholinergic agents that act on the parasympathetic nerve system. Because they differ in their actions on the central nervous system, currently there is a 10-fold higher commercial demand for scopolamine, in the N-butylbromide form, than there is for hyoscyamine and atropine combined. Several solanaceous species have been used as the commercial sources of these alkaloids, but the scopolamine contents in these plants often are much lower than those of hyoscyamine. For this reason there has been long-standing interest in increasing the scopolamine contents of cultivated medicinal plants. Naturally occurring and artificial interspecific hybrids of Duboisia have high scopolamine contents and are cultivated as a commercial source of scopolamine in Australia and other countries. Anther culture combined with conventional interspecific hybridization also has been used to breed high scopolamine-containing plants in the genera Datura and Hyoscyamus, but without much success. The use of recombinant DNA technology for the manipulation of metabolic processes in cells promises to provide important contributions to basic science, agriculture, and medicine. In this review, I introduce on the enzymes and genes involved in tropane alkaloid biosynthesis and current progress in metabolic engineering approaches for tropane alkaloid, especially scopolamine, production.

• Journal of Microbiology and Biotechnology
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• 제8권6호
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• pp.719-722
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• 1998

The addition of decane to biotransfonnation media containing Yarrowia lipolytica led to the accumulation of intennediate L-phenylacetaldehyde and L-phenethyl acetate during bioconversion of L-phenylalanine, whilst none of these products were obtained in conventional aqueous fennentations. The results obtained support an earlier hypothesis (Spinnler et al. 1996. Proc. Natl. A cad. Sci. USA 93: 3373-3376) that organic solvents, acting as "thermodynamic traps" for hydrophobic intermediates, can substantially alter metabolic fluxes.

• 생명과학회지
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• 제29권1호
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• pp.123-128
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• 2019

원핵생물 분류의 기본단위인 종(species)의 동정에 16S rDNA가 사용되지만 한계가 있고 원핵생물의 속(genus)에 대한 연구가 많지 않다. 본 연구에서는 보존 유전자를 확보한 COG database와 대사경로를 확보한 MetaCyc database에 공통적인 원핵생물 중 속이 같고 종이 다른 13개 속 28개의 원핵생물을 대상으로 속 수준에서 연구하였다. 전체 유전자에서 core-genome인 속 보존 유전자의 비율은 최저 27.62%(Nostoc 속)에서 71.76%(Spiribacter 속)의 범위로 평균 46.72%였다. 각 원핵생물에서 core-genome의 비율이 낮으면 특이한 생명현상을 보이거나 서식지가 다양할 수 있을 것이다. 속 수준의 공통 대사경로의 비율은 최저 58.79%(Clostridium 속)에서 최대 96.31%(Mycoplasma 속), 평균 75.86%로 core-genome의 비율보다 높았다. 비교대상을 확장하면 속 특이 보존 유전자와 대사경로는 확인할 수 없었다. 보존 유전자와 대사경로 보유 계통수에서는 대체로 같은 속의 구성원들이 가장 인접하였으며, Bacillus속과 Clostridium 속이 그룹을 형성하였고, 고세균끼리 그룹을 형성하였다. 보존 유전자 보유계통수에서는 Acidobacteria, Cyanobacteria, Proteobacteria 문(phylum)의 Granulicella, Nostoc, Bradyrhizobium의 3개 속이 하나의 그룹을 형성하였다. 본 연구 결과는 (i) 각 계통 단계에서 보존유전자와 대사경로의 확인, (ii) 수평적 유전자 전달 또는 부위 지정 돌연변이를 통한 균주의 개선 등의 분야에 기초자료로 활용될 수 있을 것이다.