• 제목/요약/키워드: arabinose

검색결과 429건 처리시간 0.023초

Candida parapsilosis에 의한 Xylitol 발효시 Arabinose가 미치는 영향

  • 오덕근;김상용
    • 한국미생물·생명공학회지
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    • 제25권2호
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    • pp.197-202
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    • 1997
  • Effect of arabinose on xylitol production from xylose by Candida parapsilosis KFCC 10875 was investigated at the different concentrations of arabinose. When the arabinose was added in xylose medium, the cell growth increased and the final cell concentration was maximum at 10 g/l arabinose. The consumption rate of arabinose was greatly lower than those of xylose and arabinose. Above 10 g/l arabinose, it was not completely consumed and then remained in the medium during xylitol fermentation. Estimated cell mass obtained from arabinose increased with increasing consumed arabinose. As arabinose concentration was increased, xylitol production decreased but ethanol production increased. The inhibitory effect of ethanol, a major by-product, on xylitol production was also studied. As the ethanol concentration added increased, xylitol production decreased. When cells were inoculated in a xylose medium after removing ethanol, xylitol production was not inhibited. This results suggested that the inhibition of xylitol production resulted from ethanol which was formed by adding arabinose. It was also interesting that total products(xylitol and ethanol) yield was constant regardless of the arabinose concentration. This result suggested that the total amount of products such as xylitol and ethanol from xylose was constant regardless of the arabinose concentration and arabinose shifted the carbon flow from xylitol to ethanol.

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Corn-fiber의 희석된 황산 가수분해에 의한 L-arabinose의 생산 (L-Arabinose Production from Diluted Sulfuric Acid Hydrolysis of Corn-fiber)

  • 이형주;이원규;유연우
    • KSBB Journal
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    • 제22권4호
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    • pp.201-206
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    • 2007
  • 농산 폐자원 및 견과류 껍질의 산 가수분해를 통하여 L-arabinose를 생산하기 위한 최적조건의 결정에 대한 연구를 수행하였다. 다양한 원료들을 분말로 제조하여 희석된 황산으로 가수분해 시킨 결과 corn fiber에서 arabinose가 가장 많이 생성되어, 이를 원료로 선정하였다. Corn fiber로부터 arabinose를 생성하기 위한 산 가수분해 반응의 최적조건은 0.4%의 황산으로 130$^{\circ}C$에서 60분간 처리하는 것이며, arabinose의 생성 수율은 기질의 농도가 낮을수록 증가하였으나 생성농도는 기질의 농도가 높을수록 증가하였다. 최종적으로 90 g/L의 corn fiber를 최적조건에서 산 가수분해 시킨 결과 20.1 g/L의 glucose, 10.1 g/L의 xylose, 7.8 g/L의 arabinose 및 1.8 g/L의 galactose가 생성되었다. 산 가수분해 용액을 암모니아수로 pH를 5.5로 조정하고 C. tropicalis를 접종하여 배양한 결과 7.6 g/L의 arabinose, 0.6 g/L의 xylose, 0.5 g/L의 xylitol 및 0.5 g/L의 galactose만이 존재하였다. 이는 효모의 배양에 의하여 당 혼합물로부터 L-arabinose의 비율을 증가시킬 수 있다는 것을 보여주었다. 막 여과에 의하여 고형물을 제거시킨 배양액에 activate carbon을 처리하여 organic contaminants와 색소를 제거하고 양이온과 음이온 교환 수지를 통과시켜 이온물질들을 제거시킨 후에 농축시켜 3.1 g의 L-arabinose의 분말을 얻었다.

Metabolic Engineering for Improved Fermentation of L-Arabinose

  • Ye, Suji;Kim, Jeong-won;Kim, Soo Rin
    • Journal of Microbiology and Biotechnology
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    • 제29권3호
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    • pp.339-346
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    • 2019
  • L-Arabinose, a five carbon sugar, has not been considered as an important bioresource because most studies have focused on D-xylose, another type of five-carbon sugar that is prevalent as a monomeric structure of hemicellulose. In fact, L-arabinose is also an important monomer of hemicellulose, but its content is much more significant in pectin (3-22%, g/g pectin), which is considered an alternative biomass due to its low lignin content and mass production as juice-processing waste. This review presents native and engineered microorganisms that can ferment L-arabinose. Saccharomyces cerevisiae is highlighted as the most preferred engineering host for expressing a heterologous arabinose pathway for producing ethanol. Because metabolic engineering efforts have been limited so far, with this review as momentum, more attention to research is needed on the fermentation of L-arabinose as well as the utilization of pectin-rich biomass.

L-ribose와 L-arabinose 분리를 위한 Aspen chromatography를 이용한 SMB [Simulated moving bed] 전산모사 (Simulation of SMB [Simulated Moving Bed] Chromatography for Separation of L-ribose and L-arabinose by ASPEN chromatography)

  • 이선희;이은;김인호
    • KSBB Journal
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    • 제23권2호
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    • pp.135-141
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    • 2008
  • SMB 크로마토그래피를 위한 예비 실험으로서 L-ribose와 L-arabinose의 혼합물의 분리 특성을 $NH_2$ 컬럼을 사용하여 확인하였고 두 성분 분리 최적 조건으로 Acetonitrile과 증류수의 조성이 85/15 (v/v)에서 실험을 수행하였다. PIM(Pulse input method)과 Aspen chromatography 전산모사를 통해 L-ribose와 L-arabinose가 선형 흡착등온식을 따르는 것을 알 수 있었으며 각 성분의 Henry상수를 추산하였고 다음과 같다. $$C_{S,Ribose}=3.51{\cdot}C_{M.Ribose}$$ $$C_{S,Arabinose}=5.07{\cdot}C_{M.Arabinose}$$ 이를 바탕으로 SMB 크로마토그래피의 최적 운전조건을 수립하기 위하여 Triangle 이론에 의한 운전 조작변수를 추산함으로서 $m_2\;=\;3.51$, $m_3\;=\;5.07$일 때 즉, 삼각형에서 꼭지점의 조건에서 L-ribose와 L-arabinose의 순도가 각각 85, 80% 정도로 두 성분의 분리에 있어서 가장 효과적인 운전 조건임을 확인 할 수 있었다.

Inhibition of biofilm formation of periodontal pathogens by D-Arabinose

  • An, Sun-Jin;Namkung, Jong-Uk;Ha, Kyung-Won;Jun, Hye-Kyoung;Kim, Hyun Young;Choi, Bong-Kyu
    • International Journal of Oral Biology
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    • 제46권3호
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    • pp.111-118
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    • 2021
  • Periodontitis and periimplantitis are caused as a result of dental biofilm formation. This biofilm is composed of multiple species of pathogens. Therefore, controlling biofilm formation is critical for disease prevention. To inhibit biofilm formation, sugars can be used to interrupt lectin-involving interactions between bacteria or between bacteria and a host. In this study, we evaluated the effect of D-Arabinose on biofilm formation of putative periodontal pathogens as well as the quorum sensing activity and whole protein profiles of the pathogens. Crystal violet staining, confocal laser scanning microscopy, and scanning electron microscopy revealed that D-Arabinose inhibited biofilm formation of Porphyromonas gingivalis, Fusobacterium nucleatum, and Tannerella forsythia. D-Arabinose also significantly inhibited the activity of autoinducer 2 of F. nucleatum and the expression of representative bacterial virulence genes. Furthermore, D-Arabinose treatment altered the expression of some bacterial proteins. These results demonstrate that D-Arabinose can be used as an antibiofilm agent for the prevention of periodontal infections.

농산 폐기물을 이용한 xylose, arabinose, cellulose 생산공정

  • 신현승;유연우
    • 한국신재생에너지학회:학술대회논문집
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    • 한국신재생에너지학회 2005년도 제17회 워크샵 및 추계학술대회
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    • pp.286-298
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    • 2005
  • 농산 폐자원으로부터 식품 및 의약품 소재로 쓰이는 xylose, arabinose, cellulose를 생산하였다. 농산 폐자원은 우리나라 실정에 적합한 볏짚과 옥수수 껍질을 선택하였으며, 공정수율은 xylose와 arabinose는 약 15$\sim$20%(w/w), cellulose 는 20%(w/w)로 나타났다. 폐자원을 활용하는 개발된 공정중에는 미생물 유전자 재조합 기술을 응용하여 고역가의 효소생산 system을 개발하여, 생산된 효소를 가수분해 공정 과정에 투입하여 경제성이 높고 친환경적인 기술로 확립하였다. 재조합 미생물과 xylose, arabinose 정제공정은 신뢰 높은 재연성을 나타냈으며 xylose 제조법과 xylitol 발효법은 package 형태로 기술 이전을 준비하고 있다.

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신규 기능성당 L-아라비노스: 생리활성, 이용, 생산방법 (Novel Functional Sugar L-Arabinose: Its Functionality, Uses and Production Methods)

  • 윤향식;김정호;김태집;금인경;한남수
    • 한국식품과학회지
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    • 제35권5호
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    • pp.757-763
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    • 2003
  • L-Arabinose inhibits intestinal sucrase in an uncompetitive manner and, consequently, inhibits the absorption of sucrose from the small intestine. The addition of $3{\sim}5%$ L-arabinose to sucrose causes about a 60% reduction in the digestion of sucrose in the small intestine. In addition, it reduces the increase of the levels of blood sugar, insulin, triglycerides, and cholesterol caused by the ingestion of sucrose. The taste of L-arabinose is quite similar to that of sucrose, with approximately 50% the sweetness of sucrose. Naturally occurring arabinose is an L-form and a noncaloric sugar that is not metabolized in animals. L-Arabinose is a common component of plant cell walls and is widely distributed in the plant kingdom. It is the main component of cereal hemicellulose, such as corn, wheat, and rice, pectic substances of beet, apple pulps, and some plant gums. L-Arabinose can be produced by either the acid hydrolysis or the enzymatic hydrolysis of some plant gums, corn fiber, and beet pulps. This novel sugar has a potential to be used as a food additive for improving obesity and maintaining good health.

감과실의 성숙과 추숙중의 세포벽 다당류의 비섬유성 단당류의 변화 (Changes in the Non-cellulosic Monosaccharides of Cell Wall Polysaccharides of Persimmon Fruits during Maturation and Postharvest)

  • 신승렬;송준희;김순동;김광수
    • 한국식품과학회지
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    • 제22권7호
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    • pp.743-747
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    • 1990
  • 감과실의 성숙중 알콜 불용성 물질의 glucose, arabinose 및 총 비섬유성 중성당의 함량은 증가하였으나, 연시에서는 감소하였다. 세포벽을 구성하는 주요 비섬유성 중성당은 galactose, arabinose, glucose이었고, arabinose와 galactose는 성숙과 연화중에 감소하였다. Pectin질은 uronic acid가 $70{\sim}82%$ 정도 차지하였으며 uronic acid, galactose, arabinose는 성숙과 추숙중에 감소하였다. Hemicellulose의 주요 중성당은 glucose, xylose, galactose이었고, 성숙과 추숙 중 특히 galactose가 감소하였으며 연시에서는 대부분의 구성당이 감소하였다.

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Selection of L-arabinase gene to degrade Corn fiber

  • Ahn, Mi-Sun;Lee, Hyoung-Joo;Ryu, Yeon-Woo
    • 한국생물공학회:학술대회논문집
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    • 한국생물공학회 2005년도 생물공학의 동향(XVI)
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    • pp.317-321
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    • 2005
  • L- arabinose residues are widely distributed in plant cell walls, where they are present in polymers such as arabinans, arabinoxylans, arabinogalactans and arabinogalactan proteins. L-arabinose suppress intestinal sucrase and decrease the adsorption of sugar in the small intestine, consequently, weight loss and fatness prevent. Now, xylose be used replacement sugar and arabinose be utilized fatness prevent of our time. Various Agricultural surplus like com fiber, contain $20\;{\sim}\;40%$ of hemicellulose. Corn fiber from Agricultural Renewable Biomass was chosen the best suitable material for arabinose production. In this work, we searched about for L-arabinose gene in compost, metagenome pool and indonesian soil. So, the B1029 TS2-8 of L-arabinase gene in compost was selected by YNB media(5% yeast nitrogen base, 5% arabinogalactan). After enzyme reaction with corn fiver, B1029 TS2-8 produced 2.15 g/L of L-arabonose.

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농산폐자원을 이용한 Arabinose의 생산

  • 최기섭;이형주;홍성갑;유연우
    • 한국생물공학회:학술대회논문집
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    • 한국생물공학회 2003년도 생물공학의 동향(XII)
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    • pp.595-599
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    • 2003
  • Arabinose is five-carbon sugar that have been used a precursor of chemical synthetic pharmaceutics and an additives for an diet foods. Its contents in the hemicellulose among varied cellulosic materials is approximately $0.2%\;{\sim}\;4.0%$. In previous papers, it was focused in the production of xylose. But this study was subjected to an effective production of arabinose. High arabinose yield and selectivty was achieved at 0.6% sulfuric-acid concentration and $100^{\circ}C$. We will present how to remove an insoluble substances and the process for arabinose separation.

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