Saccharomyces uvarum의 Alkaline 및 Acid Phosphatase의 Isoenzyme 양상에 대하여

Isoenzyme pattern of Aldaline and Acid Phosphatase in the Culture of Saccharomyces uvarum

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.

The present study was designed to investigate isoenzyme (ACPase, ALPase) pattern and its refulatory function between catabolically repressed and derepressed states in yeast, Saccharomyces uvarum. As the results, no other isoenzyme was detectable in acid phosphatase, but there were three isoenzyme types in aldaline phosphatase. Type "B" isoenzyme among alkaline phosphatases in catabolically repressed cell was derepressed, but in normally cultivated cell, type "C" isoenzyme was derepressed while type "B" activity was lowered. Type "B" isoenzyme could be postulated as repressible enzyme, type "A" as constityityve enzyme and type "C" as L-histidinol phosphatase, respectively, Also, it could be shown that type "B" ALPase, repressible enzyme, compensated for phosphate group supplier under catabolically repressed states. Protein profile in cytoplasmic soluble fraction of exponential phase cell was characterized by negative charged protein.