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本文引用的文献

1
THE RELATIONSHIP OF SODIUM, POTASSIUM, AND DEOXYCORTICOSTERONE IN NEUROSPORA CRASSA.粗糙脉孢菌中钠、钾和脱氧皮质酮的关系
Proc Natl Acad Sci U S A. 1959 Dec;45(12):1792-801. doi: 10.1073/pnas.45.12.1792.
2
Permeability and metabolism of lactose in Neurospora crassa.粗糙脉孢菌中乳糖的渗透性与代谢
J Bacteriol. 1962 Aug;84(2):217-27. doi: 10.1128/jb.84.2.217-227.1962.
3
The effects of deoxycorticosterone and other steroids on Neurospora crassa.脱氧皮质酮及其他类固醇对粗糙脉孢菌的影响。
Arch Biochem Biophys. 1958 May;75(1):196-214. doi: 10.1016/0003-9861(58)90410-7.
4
Sorbose transport in Neurospora crassa.粗糙脉孢菌中的山梨糖转运
Biochim Biophys Acta. 1967 Feb 1;135(1):100-5. doi: 10.1016/0005-2736(67)90011-9.
5
The effect of sorbose on metabolism and morphology of Neurospora.
Biochim Biophys Acta. 1968 Feb 1;156(1):1-8. doi: 10.1016/0304-4165(68)90097-4.
6
Tryptophan transport in Neurospora crassa. II. Metabolic control.粗糙脉孢菌中的色氨酸转运。II. 代谢控制。
J Bacteriol. 1968 Mar;95(3):959-66. doi: 10.1128/jb.95.3.959-966.1968.
7
Regulation of sugar transport in Neurospora crassa.粗糙脉孢菌中糖转运的调控。
J Bacteriol. 1971 May;106(2):487-92. doi: 10.1128/jb.106.2.487-492.1971.
8
Kinetic characteristics of the two glucose transport systems in Neurospora crassa.粗糙脉孢菌中两种葡萄糖转运系统的动力学特性
J Bacteriol. 1971 May;106(2):479-86. doi: 10.1128/jb.106.2.479-486.1971.
9
A derepressible active transport system for glucose in Neurospora crassa.
J Biol Chem. 1971 Mar 10;246(5):1294-301.
10
Sugar transport in Neurospora crassa. II. A second glucose transport system.粗糙脉孢菌中的糖转运。II. 第二种葡萄糖转运系统。
J Biol Chem. 1970 Aug 10;245(15):3985-7.

粗糙脉孢菌中半乳糖转运的表征与调控

Characterization and regulation of galactose transport in Neurospora crassa.

作者信息

Rand J B, Tatum E L

出版信息

J Bacteriol. 1980 Feb;141(2):707-14. doi: 10.1128/jb.141.2.707-714.1980.

DOI:10.1128/jb.141.2.707-714.1980
PMID:6444943
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC293679/
Abstract

Two galactose uptake systems were found in the mycelia of Neurospora crassa. In glucose-grown mycelia, galactose was transported by a low-affinity (Km = 400 mM) constitutive system which was distinct from the previously described glucose transport system I (R. P. Schneider and W. R. Wiley, J. Bacteriol. 106:479--486, 1971). In carbon-starved mycelia or mycelia incubated with galactose, a second galactose transport activity appeared which required energy, had a high affinity for galactose (Km = 0.7 mM), and was shown to be the same as glucose transport system II. System II also transported mannose, 2-deoxyglucose, xylose, and talose and is therefore a general monosaccharide transport system. System II was derepressed by carbon starvation, completely repressed by glucose, mannose, and 2-deoxyglucose, and partially repressed by fructose and xylose. Incubation with galactose yielded twice as much activity as starvation. This extra induction by galactose required protein synthesis, and represented an increase in activity of system II rather than the induction of another transport system. Glucose, mannose, and 2-deoxyglucose caused rapid degradation of preexisting system II; fructose and xylose caused a slower degradation of activity.

摘要

在粗糙脉孢菌的菌丝体中发现了两种半乳糖摄取系统。在以葡萄糖培养的菌丝体中,半乳糖通过一种低亲和力(Km = 400 mM)的组成型系统进行转运,该系统与先前描述的葡萄糖转运系统I不同(R. P. 施奈德和W. R. 威利,《细菌学杂志》106:479 - 486,1971)。在碳饥饿的菌丝体或用半乳糖培养的菌丝体中,出现了第二种半乳糖转运活性,它需要能量,对半乳糖具有高亲和力(Km = 0.7 mM),并且被证明与葡萄糖转运系统II相同。系统II还转运甘露糖、2 - 脱氧葡萄糖、木糖和塔罗糖,因此是一种通用的单糖转运系统。系统II在碳饥饿时去阻遏,被葡萄糖、甘露糖和2 - 脱氧葡萄糖完全阻遏,被果糖和木糖部分阻遏。用半乳糖培养产生的活性是饥饿时的两倍。半乳糖的这种额外诱导需要蛋白质合成,并且代表系统II活性的增加,而不是诱导另一种转运系统。葡萄糖、甘露糖和2 - 脱氧葡萄糖会导致预先存在的系统II迅速降解;果糖和木糖会导致活性降解较慢。