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Sorbose resistant mutants of Aspergillus nidulans.

作者信息

Elorza M V, Arst H N

出版信息

Mol Gen Genet. 1971;111(2):185-93. doi: 10.1007/BF00267792.

DOI:10.1007/BF00267792
PMID:5564468
Abstract
摘要

相似文献

1
Sorbose resistant mutants of Aspergillus nidulans.构巢曲霉的山梨糖抗性突变体。
Mol Gen Genet. 1971;111(2):185-93. doi: 10.1007/BF00267792.
2
The alternative D-galactose degrading pathway of Aspergillus nidulans proceeds via L-sorbose.构巢曲霉的另一条D-半乳糖降解途径是通过L-山梨糖进行的。
Arch Microbiol. 2004 Jan;181(1):35-44. doi: 10.1007/s00203-003-0622-8. Epub 2003 Nov 18.
3
[Uptake of the sugars sorbose, fructose and glucose by sorbose-resistant mutants of Neurospora crassa].[粗糙脉孢菌对山梨糖具有抗性的突变体对山梨糖、果糖和葡萄糖的摄取]
Z Naturforsch B. 1967 Mar;22(3):327-35.
4
Competition of sugars for the hexose transport system in yeast.酵母中糖对己糖转运系统的竞争。
Biochim Biophys Acta. 1968 Apr 29;150(3):424-34. doi: 10.1016/0005-2736(68)90141-7.
5
The effect of sorbose on NAD(P)ase production by Aspergillus nidulans.山梨糖对构巢曲霉产生NAD(P)酶的影响。
Braz J Med Biol Res. 1988;21(4):735-45.
6
[Analysis of sorbose resistance in Neurospora crassa in heterokaryons of sorbose resistant mutants; contribution to the genetics of active transport].
Mol Gen Genet. 1967;100(2):117-39. doi: 10.1007/BF00333599.
7
Properties of the hexose transport systems of Aspergillus nidulans.构巢曲霉己糖转运系统的特性
Biochim Biophys Acta. 1971 Oct 12;249(1):216-26. doi: 10.1016/0005-2736(71)90098-8.
8
Permeability properties of Aspergillus nidulans protoplasts.构巢曲霉原生质体的通透性特性
J Bacteriol. 1969 Jul;99(1):113-5. doi: 10.1128/jb.99.1.113-115.1969.
9
Pathway of L-sorbose metabolism in Aerobacter aerogenes.产气气杆菌中L-山梨糖的代谢途径。
J Biol Chem. 1972 Mar 10;247(5):1479-83.
10
Selective permeability of the small intestine for fructose.小肠对果糖的选择性通透性。
Am J Physiol. 1971 Oct;221(4):1051-6. doi: 10.1152/ajplegacy.1971.221.4.1051.

引用本文的文献

1
Deletion of the Transcription Factor Gene and a Point Mutation in the F-Box Protein Gene Confer Sorbose Resistance in .转录因子基因的缺失和F-Box蛋白基因中的一个点突变赋予了对山梨糖的抗性。
J Fungi (Basel). 2022 Nov 6;8(11):1169. doi: 10.3390/jof8111169.
2
The role of aneuploidy in the emergence of echinocandin resistance in human fungal pathogen Candida albicans.非整倍体在人类真菌病原体白色念珠菌棘白菌素耐药性产生中的作用。
PLoS Pathog. 2021 May 27;17(5):e1009564. doi: 10.1371/journal.ppat.1009564. eCollection 2021 May.
3
The High Osmolarity Glycerol Mitogen-Activated Protein Kinase regulates glucose catabolite repression in filamentous fungi.

本文引用的文献

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Protein measurement with the Folin phenol reagent.使用福林酚试剂进行蛋白质测定。
J Biol Chem. 1951 Nov;193(1):265-75.
2
[Phosphorylation of ketose in the liver].[肝脏中酮糖的磷酸化作用]
Helv Physiol Pharmacol Acta. 1950;8(4):C67-9.
3
THE EFFECT OF MUTATION OF TWO FORMS OF PHOSPHOGLUCOMUTASE IN SACCHAROMYCES.两种形式的磷酸葡萄糖变位酶突变对酿酒酵母的影响。
高渗透压甘油丝裂原活化蛋白激酶调节丝状真菌的葡萄糖分解代谢物阻遏。
PLoS Genet. 2020 Aug 25;16(8):e1008996. doi: 10.1371/journal.pgen.1008996. eCollection 2020 Aug.
4
Regulation of CreA-Mediated Catabolite Repression by the F-Box Proteins Fbx23 and Fbx47.CreA 介导的代谢物阻遏的调控作用由 F-Box 蛋白 Fbx23 和 Fbx47 执行。
mBio. 2018 Jun 19;9(3):e00840-18. doi: 10.1128/mBio.00840-18.
5
High-affinity glucose transport in Aspergillus nidulans is mediated by the products of two related but differentially expressed genes.构巢曲霉中的高亲和力葡萄糖转运由两个相关但表达有差异的基因的产物介导。
PLoS One. 2014 Apr 21;9(4):e94662. doi: 10.1371/journal.pone.0094662. eCollection 2014.
6
Chromosome 5 monosomy of Candida albicans controls susceptibility to various toxic agents, including major antifungals.白色念珠菌 5 号染色体单体缺失控制了对各种有毒物质的易感性,包括主要的抗真菌药物。
Antimicrob Agents Chemother. 2013 Oct;57(10):5026-36. doi: 10.1128/AAC.00516-13. Epub 2013 Jul 29.
7
Principles of carbon catabolite repression in the rice blast fungus: Tps1, Nmr1-3, and a MATE-family pump regulate glucose metabolism during infection.水稻恶苗病菌中碳分解代谢物阻遏的原理:Tps1、Nmr1-3 和一个 MATE 家族泵在侵染过程中调节葡萄糖代谢。
PLoS Genet. 2012;8(5):e1002673. doi: 10.1371/journal.pgen.1002673. Epub 2012 May 3.
8
L-rhamnose induction of Aspergillus nidulans α-L-rhamnosidase genes is glucose repressed via a CreA-independent mechanism acting at the level of inducer uptake.L-鼠李糖诱导的构巢曲霉α-L-鼠李糖苷酶基因的表达受葡萄糖阻遏,这种阻遏是通过 CreA 非依赖的机制在诱导物摄取水平上发挥作用的。
Microb Cell Fact. 2012 Feb 21;11:26. doi: 10.1186/1475-2859-11-26.
9
Global carbon utilization profiles of wild-type, mutant, and transformant strains of Hypocrea jecorina.野生型、突变型和转化型里氏木霉菌株的全球碳利用概况。
Appl Environ Microbiol. 2006 Mar;72(3):2126-33. doi: 10.1128/AEM.72.3.2126-2133.2006.
10
Positive regulation in a eukaryote, a study of the uaY gene of Aspergillus nidulans: I. Characterization of alleles, dominance and complementation studies, and a fine structure map of the uaY--oxpA cluster.真核生物中的正调控:构巢曲霉uaY基因的研究I. 等位基因的特征、显性和互补研究以及uaY-oxpA簇的精细结构图谱
Genetics. 1982 Feb;100(2):185-208. doi: 10.1093/genetics/100.2.185.
Biochim Biophys Acta. 1964 Dec 23;92:513-20. doi: 10.1016/0926-6569(64)90011-2.
4
METABOLIC STUDIES WITH 2-DEOXYHEXOSES. II. RESISTANCE TO 2- DEOXYGLUCOSE IN A YEAST MUTANT.2-脱氧己糖的代谢研究。II. 酵母突变体对2-脱氧葡萄糖的抗性
Biochim Biophys Acta. 1964 May 11;86:224-8. doi: 10.1016/0304-4165(64)90046-7.
5
METABOLIC STUDIES WITH 2-DEOXYHEXOSES. I. MECHANISMS OF INHIBITION OF GROWTH AND FERMENTATION IN BAKER'S YEAST.2-脱氧己糖的代谢研究。I. 对面包酵母生长和发酵的抑制机制。
Biochim Biophys Acta. 1964 May 11;86:216-23. doi: 10.1016/0304-4165(64)90045-5.
6
The genetic analysis of carbohydrate utilization in Aspergillus nidulans.构巢曲霉碳水化合物利用的遗传分析。
J Gen Microbiol. 1963 Apr;31:45-58. doi: 10.1099/00221287-31-1-45.
7
A mutation in saccharomyces that affects phosphoglucomutase activity and galactose utilization.酿酒酵母中的一种突变,影响磷酸葡萄糖变位酶活性和半乳糖利用。
Biochim Biophys Acta. 1961 Sep 2;52:209-11. doi: 10.1016/0006-3002(61)90924-6.
8
The ketokinase activity of the intestinal mucosa.肠黏膜的酮激酶活性。
Biochim Biophys Acta. 1960 Aug 26;42:490-8. doi: 10.1016/0006-3002(60)90828-3.
9
[Characteristics of the resistance to sorbose in the mycelium of Coprinus fimetarius (Fr. ex L.)].[粪生鬼伞(弗里斯,原载于林奈著作)菌丝体对山梨糖的抗性特征]
C R Hebd Seances Acad Sci. 1958 Nov 24;247(21):1897-9.
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The determination of glucosamine and galactosamine.葡萄糖胺和半乳糖胺的测定
Biochem J. 1955 Dec;61(4):586-9. doi: 10.1042/bj0610586.