• 미생물학회지
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• 제23권3호
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• pp.172-176
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• 1985

본 연구는 효모세포 (Saccharomyces uvarum)의 ACPase, ALPase의 Isoenzyme type을 규명함과 아울러, iso-enzyme type중 어느 것이 constituitive 또는 repressible enzyme type인가를 조사하고, 각각의 isoenzyme활성도 비율을 살펴보아 배양조건(catabolic repression and derepression) 및 무기인산 제한에 따른 각 type의 세포내 조절기능을 분석하고자 하였다. Acid phosphatase는 또 다른 isoenzyme type이 발견되지 않았으나, alkaline phosphatase의 경우는 3가지 type이 p-NPP에 specificity를 지녔다. 세포질의 수용성단백질 분석결과 exponential phase의 세포는 주로 음전하를 띤 단백질이 높은 함량을 나타내었다. 당과 인산이 결핍된 배지에서 생육권(catabolic repression)세포에서 AL P Pase isoenzyme 중 type “B"의 활성도가 매우 높아졌으나, 완전배지에서 배양된 (catabolic derepression)세포에서는 type “B"의 활성도 감소 및 type “C"의 활성도 증가 현상을 볼 수 있었다. ALPase 중 “A" peak는 constituitive enzyme, “B" peak는 repressible enzyme, peak “C"는 L-histidinol phosphatase로 추정되었다.

• 한국미생물·생명공학회지
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• 제19권1호
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• pp.37-44
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• 1991

진핵세포 유전자의 기초대사발현의 조절계를 밝히기 위한 일환으로, 효모의 histidine생합성계 효소의 구조유전자 HIS5를 이용하였다. HIS5 유전자는 충분한 아미노산 조건하에서는 발현이 억제되어 비교적 높은 기초발현만을 하나, 어떤 아미노산이 결핍되면 탈억제되어 높은 발현량을 보이며 탈억제는 cis의 작용인자인 promoter상의 5'-TGACTC-3' 및 trans 작용인자 GCN4와 GCD17 GCN2등이 관여한다. trans 작용인자들에 의한 HIS5 유전자의 발현량의 변화를 간단하게 측정하기 위하여, HIS5 promoter와 repressible acid phoshates(APase)의 구조유전자중 promoter를 제거한 DNA단편을 연결시켜 HIS5-PHO5 융합유전자를 이용하였다. gcn2 및 gcn4 변이주의 APase 활성은 야생주와 비교하여 3내지 4배 낮았으며, gcn2변이주와 gcn2 gcn4 이중변이주의 APase 활성은 유사하였다.

• 한국초지조사료학회지
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• 제17권3호
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• pp.285-292
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• 1997

This study was conducted to obtain the transgenic Brnssica napus plants with tobacco Apase gene using the binary vector system of Agrobacteriurn fumefociens. The results obtained were summarized as follows: A repressible acid phosphatase gene of Saccharon~yces cerevisiae, pho105 was used for screening of tobacco Apase cDNA. In order to identify Apase gene in tobacco genome, Southern blot analysis was pcrformed and the Apase gcnc may be present as a single copy, or at most two or three copies, in tobacco genome. To isolate the tobacco Apase gene, tobacco cDNA library was constructed using purifed mRNA from -Pi treated tobacco root and the plaque forming unit of the library was 2.8 x $10^5$ pfu/m${\ell}$, therefore the library might cover all expressed mRNAs. Using pho5 as a probe. tobacco Apase cDNA was cloned, and restriction mapping and Southern blot analysis of cDNA insert were revealed that the 3.6 kb cDNA contained tobacco acid phosphatase cDNA. Plasmid pGA695 -tcAPl was constructed by subcloning tobacco Apase cDNA into the Hind site of pGA695 with 35s promoter which can be expressed constitutively in plants. The Brassica napus cotyledonary petioles were cocultivated with the ,4 grobacteriunz and transferred to the selection medium. The transformed and regenerated plants were transplanted to soil medium. Southern blot analysis was done on the transformed plants, and it was confirmed that a foregin gene was stably integrated into the genonies of B. nnpus plants.

• Journal of Microbiology and Biotechnology
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• 제7권2호
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• pp.127-131
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• 1997

Alkaline phosphatase (APase) was found to be inducible in Anabaena sp. strain CA Growth was less than control in presence of most amino acids except glycine and serine, but most amino acids enhanced APase activity. Highest APase activity was recorded in tyrosine supplemented culture followed by hydroxyproline, cystein, valine and glutamic acid. Threonine supplemented material showed lowest APase level (1.8 nmol/mg protein/min). Lactose, glucose, sodium pyruvate and succinate stimulated growth but not APase activity. APase activity was high in the presence of sucrose, mellibiose, mannitol, arabinose, maltose and sorbose, even though the growth in these supplements was less than in control. Organic phosphate sources supported good growth of the organism. Best growth occurred in presence of inorganic phosphate, adenosine diphosphate, fructose 1,6-diphosphate or ribulose 1,5-diphosphate, followed by other phosphorus sources tested. APase activity in presence of any of the organic phosphate sources was 3 to 5 fold low as compared to phosphate limited culture. Also, there was no APase activity in cultures grown on inorganic phosphate. These data indicate that most amino acids and a few carbohydrates (sucrose, mellibiose, arabinose and sorbose) are suitable for APase production. Lactose, glucose, pyruvate or succinate may be used as a carbon source during photoheterotrophic growth of the cyanobacterium. Glycine and serine are preferred nitrogen sources for its growth. Phosphate repressible APase activity has been found in Anabaena sp. strain CA.