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1
Genetic regulation of maltosaccharide utilization in Pneumococcus.肺炎链球菌中麦芽糖利用的基因调控
Genetics. 1968 Dec;60(4):685-706. doi: 10.1093/genetics/60.4.685.
2
Characterization of the Streptococcus pneumoniae maltosaccharide regulator MalR, a member of the LacI-GalR family of repressors displaying distinctive genetic features.肺炎链球菌麦芽糖调节因子MalR的特性分析,MalR是LacI-GalR阻遏物家族的成员,具有独特的遗传特征。
J Biol Chem. 1993 Dec 5;268(34):25402-8.
3
Mutational alteration of the maximal level of Lac operon expression.乳糖操纵子表达最大水平的突变改变。
Cold Spring Harb Symp Quant Biol. 1966;31:403-8. doi: 10.1101/sqb.1966.031.01.052.
4
Mapping of the pneumococcus chromosome. Linkage between the genes conferring resistances to erythromycin and tetracycline and its implication to the replication of the chromosome.肺炎链球菌染色体的图谱绘制。赋予对红霉素和四环素抗性的基因之间的连锁关系及其对染色体复制的影响。
J Gen Microbiol. 1973 Nov;79(1):31-44. doi: 10.1099/00221287-79-1-31.
5
The recA gene of Streptococcus pneumoniae is part of a competence-induced operon and controls an SOS regulon.肺炎链球菌的recA基因是感受态诱导操纵子的一部分,并控制一个SOS调节子。
Dev Biol Stand. 1995;85:293-300.
6
Integration efficiency and genetic recombination in pneumococcal transformation.肺炎球菌转化中的整合效率与基因重组
Genetics. 1966 Jan;53(1):207-35. doi: 10.1093/genetics/53.1.207.
7
Genetic and biochemical studies of suppression of ribosomal resistance to streptomycin and erythromycin in Pneumococcus.肺炎球菌中核糖体对链霉素和红霉素耐药性抑制的遗传学与生物化学研究
Genetics. 1969 Jan;61(1):23-40. doi: 10.1093/genetics/61.1.23.
8
Heterospecific transformation of Pneumococcus and Streptococcus. IV. Variations in hybrid DNA produced by recombination.肺炎球菌和链球菌的异种特异性转化。IV. 重组产生的杂交DNA的变异
Mol Gen Genet. 1971;110(1):1-22. doi: 10.1007/BF00276040.
9
The recA gene of Streptococcus pneumoniae is part of a competence-induced operon and controls lysogenic induction.肺炎链球菌的recA基因是感受态诱导操纵子的一部分,并控制溶原性诱导。
Mol Microbiol. 1995 Jan;15(2):367-79. doi: 10.1111/j.1365-2958.1995.tb02250.x.
10
Increased dihydrofolate reductase synthesis in Diplococcus pneumoniae following translatable alteration of the structural gene. 3. Further evidence on the extent of genic involvement.肺炎双球菌结构基因可翻译性改变后二氢叶酸还原酶合成增加。3. 关于基因参与程度的进一步证据。
Genetics. 1970 Jul;65(3):391-406. doi: 10.1093/genetics/65.3.391.

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1
A single change in the aptamer of the Lactiplantibacillus plantarum rib operon riboswitch severely impairs its regulatory activity and leads to a vitamin B - overproducing phenotype.植物乳杆菌核糖体操纵子核糖开关适体的单个变化严重损害了其调节活性,并导致维生素 B 过度产生表型。
Microb Biotechnol. 2022 Apr;15(4):1253-1269. doi: 10.1111/1751-7915.13919. Epub 2021 Oct 2.
2
Recognition of Streptococcal Promoters by the Pneumococcal SigA Protein.肺炎球菌SigA蛋白对链球菌启动子的识别。
Front Mol Biosci. 2021 Jun 24;8:666504. doi: 10.3389/fmolb.2021.666504. eCollection 2021.
3
Molecular analysis of an enigmatic virulence factor: The raffinose-family oligosaccharide utilization system.分子分析一个神秘的毒力因子:棉子糖家族寡糖利用系统。
J Biol Chem. 2019 Nov 15;294(46):17197-17208. doi: 10.1074/jbc.RA119.010280. Epub 2019 Oct 7.
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Two complementary α-fucosidases from promote complete degradation of host-derived carbohydrate antigens.两种互补的 α-岩藻糖苷酶来自 可促进宿主来源的碳水化合物抗原的完全降解。
J Biol Chem. 2019 Aug 23;294(34):12670-12682. doi: 10.1074/jbc.RA119.009368. Epub 2019 Jul 2.
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The Streptococcus pneumoniae pezAT Toxin-Antitoxin System Reduces β-Lactam Resistance and Genetic Competence.肺炎链球菌pezAT毒素-抗毒素系统降低β-内酰胺抗性和遗传感受态。
Front Microbiol. 2016 Aug 25;7:1322. doi: 10.3389/fmicb.2016.01322. eCollection 2016.
6
The 5'-tail of antisense RNAII of pMV158 plays a critical role in binding to the target mRNA and in translation inhibition of repB.pMV158反义RNAII的5'末端在与靶mRNA结合以及对repB的翻译抑制中起关键作用。
Front Genet. 2015 Jun 30;6:225. doi: 10.3389/fgene.2015.00225. eCollection 2015.
7
Maltose-Dependent Transcriptional Regulation of the mal Regulon by MalR in Streptococcus pneumoniae.肺炎链球菌中MalR对mal操纵子的麦芽糖依赖性转录调控
PLoS One. 2015 Jun 1;10(6):e0127579. doi: 10.1371/journal.pone.0127579. eCollection 2015.
8
Functional validation of putative toxin-antitoxin genes from the Gram-positive pathogen Streptococcus pneumoniae: phd-doc is the fourth bona-fide operon.革兰阳性病原体肺炎链球菌中假定毒素-抗毒素基因的功能验证:phd-doc 是第四个真正的操纵子。
Front Microbiol. 2014 Dec 5;5:677. doi: 10.3389/fmicb.2014.00677. eCollection 2014.
9
Construction and validation of a mCherry protein vector for promoter analysis in Lactobacillus acidophilus.用于嗜酸乳杆菌启动子分析的mCherry蛋白载体的构建与验证
J Ind Microbiol Biotechnol. 2015 Feb;42(2):247-53. doi: 10.1007/s10295-014-1567-4. Epub 2014 Dec 23.
10
Expression of bacterial genes involved in maltose metabolism.参与麦芽糖代谢的细菌基因的表达。
World J Microbiol Biotechnol. 1993 Jul;9(4):455-60. doi: 10.1007/BF00328033.

本文引用的文献

1
Molecular fate of DNA in genetic transformation of Pneumococcus.肺炎球菌基因转化中DNA的分子命运
J Mol Biol. 1962 Jul;5:119-31. doi: 10.1016/s0022-2836(62)80067-9.
2
[BIOCHEMICAL AND GENETIC ASPECTS OF MALTOSE METABOLISM IN ESCHERICHIA COLI K12].[大肠杆菌K12中麦芽糖代谢的生化与遗传方面]
C R Hebd Seances Acad Sci. 1965 Mar 1;260:2613-6.
3
GENETIC ASPECTS OF METABOLIC CONTROL.代谢控制的遗传学方面
Annu Rev Microbiol. 1964;18:95-110. doi: 10.1146/annurev.mi.18.100164.000523.
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[THE PROMOTOR, A GENETIC ELEMENT NECESSARY TO THE EXPRESSION OF AN OPERON].[启动子,操纵子表达所必需的遗传元件]
C R Hebd Seances Acad Sci. 1964 Mar 16;258:3125-8.
5
The characterization of the pathway of maltose utilization by Escherichia coli. III. Adescription of the concentrating mechanism.大肠杆菌利用麦芽糖途径的特性。III. 浓缩机制的描述。
Biochim Biophys Acta. 1960 Apr 22;39:440-7. doi: 10.1016/0006-3002(60)90196-7.
6
Genetic regulatory mechanisms in the synthesis of proteins.蛋白质合成中的遗传调控机制。
J Mol Biol. 1961 Jun;3:318-56. doi: 10.1016/s0022-2836(61)80072-7.
7
Nonsense codons and polarity in the tryptophan operon.色氨酸操纵子中的无义密码子与极性
J Mol Biol. 1966 Nov 14;21(2):313-34. doi: 10.1016/0022-2836(66)90102-1.

Genetic regulation of maltosaccharide utilization in Pneumococcus.

作者信息

Lacks S

出版信息

Genetics. 1968 Dec;60(4):685-706. doi: 10.1093/genetics/60.4.685.

DOI:10.1093/genetics/60.4.685
PMID:4389668
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1212124/
Abstract
摘要