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Mechanisms of protection of trehalase against heat inactivation in Neurospora.粗糙脉孢菌中海藻糖酶抗热失活的保护机制。
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10
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Role of Trehalose in Ascospores of Neurospora Tetrasperma.海藻糖在四孢囊壳孢中的作用。
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Genetic Determination of Tyrosinase Thermostability in Neurospora.脉孢菌中酪氨酸酶热稳定性的遗传决定因素
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Endogenous Substrates of Dormant, Activated and Germinating Ascospores of Neurospora Tetrasperma.四孢脉孢菌休眠、活化和萌发子囊孢子的内源性底物
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Chemical Activation of Ascospore Germination in Neurospora crassa.粗糙脉孢菌子囊孢子萌发的化学激活
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A gene affecting the repression of invertase and trehalase in Neurospora.一个影响粗糙脉孢菌中转化酶和海藻糖酶抑制作用的基因。
Arch Biochem Biophys. 1962 Mar;96:468-74. doi: 10.1016/0003-9861(62)90322-3.
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LOCALIZATION OF DISACCHARIDASES IN EXTRACTS OF NEUROSPORA AFTER ELECTROPHORESIS IN POLYACRYLAMIDE GELS.在聚丙烯酰胺凝胶中进行电泳后,粗糙脉孢菌提取物中双糖酶的定位
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9
PURIFICATION AND PROPERTIES OF TREHALASE (S) FROM NEUROSPORA.来自脉孢菌的海藻糖酶(S)的纯化及性质
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10
Exogenous enzymes of Neurospora conidia and mycelia.粗糙脉孢菌分生孢子和菌丝体的外源酶
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脉孢菌中海藻糖酶和转化酶活性的发展

DEVELOPMENT OF TREHALASE AND INVERTASE ACTIVITY IN NEUROSPORA.

作者信息

HILL E P, SUSSMAN A S

出版信息

J Bacteriol. 1964 Dec;88(6):1556-66. doi: 10.1128/jb.88.6.1556-1566.1964.

DOI:10.1128/jb.88.6.1556-1566.1964
PMID:14240937
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC277452/
Abstract

Hill, E. P. (University of Michigan, Ann Arbor), and A. S. Sussman. Development of trehalase and invertase activity in Neurospora. J. Bacteriol. 88:1556-1566. 1964.-The levels of trehalase and invertase found during the development of Neurospora have been studied. Invertase activity is highest in the mycelium after growth has been completed, whereas the most trehalase activity is found in ungerminated conidia. Both enzymes show the least activity in the ascospore. Although the specific activity of trehalase varies no more than 3-fold during the spore stages, there is a 60-fold change in the mycelium. Similar but less pronounced variations in the specific activity of invertase in the mycelium occur. The lowest ratios of invertase to trehalase activity in the soluble fraction are found in conidia and ascospores, except in dormant ascospores where the ratio approaches that of older mycelium. Similar results are obtained for the enzymes in the wall fraction, except for dormant and newly activated ascospores. Moreover, the walls of young mycelium appear to have relatively more trehalase than is found at all other times. The activities of both enzymes vary about 20-fold in the wall fraction, but invertase activity fluctuates more widely than that of trehalase. Invertase activity always exceeds that of trehalase, and the cytoplasmic fraction contains more activity than that of the wall. These results are shown to contradict the hypothesis that trehalase and invertase activities are coordinately controlled. Finally, the role of trehalase in the activation of ascospores is considered in the light of these results.

摘要

希尔,E.P.(密歇根大学安娜堡分校)和A.S.苏斯曼。粗糙脉孢菌中海藻糖酶和转化酶活性的发育。《细菌学杂志》88:1556 - 1566。1964年。——对粗糙脉孢菌发育过程中发现的海藻糖酶和转化酶水平进行了研究。生长完成后,菌丝体中的转化酶活性最高,而未萌发的分生孢子中海藻糖酶活性最高。两种酶在子囊孢子中的活性最低。尽管在孢子阶段海藻糖酶的比活性变化不超过3倍,但在菌丝体中却有60倍的变化。菌丝体中转化酶的比活性也有类似但不太明显的变化。在可溶性部分,分生孢子和子囊孢子中转化酶与海藻糖酶活性的比率最低,休眠子囊孢子除外,其比率接近较老菌丝体的比率。除了休眠和新激活的子囊孢子外,壁部分的酶也得到了类似的结果。此外,年轻菌丝体的壁似乎比其他任何时候都含有相对更多的海藻糖酶。两种酶在壁部分的活性变化约为20倍,但转化酶活性的波动比海藻糖酶更大。转化酶活性总是超过海藻糖酶,细胞质部分的活性比壁部分更多。这些结果表明与海藻糖酶和转化酶活性受到协同控制的假设相矛盾。最后,根据这些结果考虑了海藻糖酶在子囊孢子激活中的作用。