Backbone resonance assignments of a promiscuous aminoglycoside antibiotic resistance enzyme; the aminoglycoside phosphotransferase(3′)-IIIa

Engin H. Serpersu; Can Özen; Adrianne L. Norris; Carlos Steren; Neil Whittemore

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Backbone resonance assignments of a promiscuous aminoglycoside antibiotic resistance enzyme; the aminoglycoside phosphotransferase(3′)-IIIa

机译：混杂的氨基糖苷类抗生素抗性酶的骨干共振分配；氨基糖苷磷酸转移酶（3'）-IIIa

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The aminoglycoside phosphotransferase(3′)-IIIa (APH) is a promiscuous enzyme and renders a large number of structurally diverse aminoglycoside antibiotics useless against infectious bacteria. A remarkable property of this ~31 kDa enzyme is in its unusual dynamic behavior in solution; the apo-form of the enzyme exchanges all of its backbone amide protons within 15 h of exposure to D ₂ O while aminoglycoside-bound forms retain ~40% of the amide protons even after >90 h of exposure. Moreover, the number of observable peaks and their dispersion in HSQC spectra varies with each aminoglycoside, rendering the resonance assignments very challenging. Therefore, the binary APH–tobramycin complex, which shows the largest number of well-resolved peaks, was used for the backbone resonance assignments (Cα, C, N, H, and some Cβ) of this protein (BMRB-16337).

机译：氨基糖苷磷酸转移酶（3'）-IIIa（APH）是一种混杂酶，使大量结构多样的氨基糖苷抗生素对传染性细菌毫无用处。约31 kDa的酶的显着特性是其在溶液中的异常动态行为。暴露于D _{2 O 15小时内，酶的脱辅基形式交换了其所有骨架酰胺质子，而氨基糖苷结合形式甚至在暴露> 90 h后仍保留了约40％的酰胺质子。。此外，可观察到的峰的数量及其在HSQC光谱中的分散度随每个氨基糖苷的含量而变化，这使得共振分配非常具有挑战性。因此，二元APH-妥布霉素复合物（显示出最大数量的分辨峰）被用于该蛋白质（BMRB-16337）的骨架共振分配（Cα，C，N，H和某些Cβ）。}

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《Biomolecular NMR Assignments》 |2010年第1期|p.9-12|共4页
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Engin H. Serpersu; Can Özen; Adrianne L. Norris; Carlos Steren; Neil Whittemore;
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正文语种 eng
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Antibiotic resistance; Aminoglycoside; Phosphotransferase; Backbone resonance; Assignments; Promiscuous enzyme;

机译：抗生素耐药性;氨基糖苷;磷酸转移酶;骨干共振;作业;混杂酶;

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1. Backbone resonance assignments of a promiscuous aminoglycoside antibiotic resistance enzyme; the aminoglycoside phosphotransferase(3;)-IIIa [J] . Engin H. Serpersu, Can Ozen, Adrianne L. Norris, Biomolecular NMR assignments . 2010,第1期

机译：混杂的氨基糖苷类抗生素抗性酶的骨干共振分配;氨基糖苷磷酸转移酶（3;）-IIIa
2. Small-angle x-ray scattering analysis of the bifunctional antibiotic resistance enzyme aminoglycoside (6′) acetyltransferase-Ie/aminoglycoside (2″) phosphotransferase-Ia reveals a rigid solution structure [J] . CaldwellS.J., BerghuisA.M. Antimicrobial agents and chemotherapy. . 2012,第4期

机译：双功能抗生素抗性酶氨基糖苷（6'）乙酰转移酶-Ie /氨基糖苷（2″）磷酸转移酶-Ia的小角X射线散射分析显示了刚性溶液结构
3. Dissection of aminoglycoside-enzyme interactions: A calorimetric and NMR study of neomycin B binding to the aminoglycoside phosphotransferase(3 ')-IIIa [J] . Ozen C, Malek JM, Serpersu EH Journal of the American Chemical Society . 2006,第47期

机译：解剖氨基糖苷-酶相互作用：新霉素B与氨基糖苷磷酸转移酶（3'）-IIIa结合的量热法和NMR研究
4. DETOXIFICATION OF AMINOGLYCOSIDE ANTIBIOTICS THROUGH CHEMICAL MODIFICATIONS TO ENHANCE BINDING TO BACTERIAL RIBOSOMES [C] . Sivan Louzoun Zada, Micha Fridman International Carbohydrate Symposium . 2018

机译：通过化学修饰解毒氨基糖苷类抗生素，增强与细菌核糖体的结合
5. Discovery of New Antimicrobial Options and Evaluation of Aminoglycoside Resistance Enzyme-Associated Resistance Epidemic [D] . Holbrook, Selina Y.L. 2018

机译：发现新的抗菌剂选择和氨基糖苷类抗性酶相关性抗性的评价
6. Small-Angle X-Ray Scattering Analysis of the Bifunctional Antibiotic Resistance Enzyme Aminoglycoside (6′) Acetyltransferase-Ie/Aminoglycoside (2″) Phosphotransferase-Ia Reveals a Rigid Solution Structure [O] . Shane J. Caldwell, Albert M. Berghuis 2012

机译：双功能抗生素抗性酶氨基糖苷（6）乙酰转移酶-Ie /氨基糖苷（2″）磷酸转移酶-Ia的小角X射线散射分析表明溶液结构坚固
7. Small-Angle X-Ray Scattering Analysis of the Bifunctional Antibiotic Resistance Enzyme Aminoglycoside (6′) Acetyltransferase-Ie/Aminoglycoside (2″) Phosphotransferase-Ia Reveals a Rigid Solution Structure [O] . Shane J. Caldwell, Albert M. Berghuis 2012

机译：双官能抗生素抗性酶氨基糖苷（6'）乙酰转移酶 - 即/氨基糖苷（2“）磷酸转移酶-1A的小角X射线散射分析揭示了刚性溶液结构
8. Aminoglycoside Resistance: Structure, Occurrence, and Identification of Genes Encoding Aminoglycoside-Modifying Enzymes [R] . Vliegenthart, J. S. 1991

机译：氨基糖苷类抗药性：氨基糖苷类修饰酶基因的结构，发生和鉴定

Backbone resonance assignments of a promiscuous aminoglycoside antibiotic resistance enzyme; the aminoglycoside phosphotransferase(3′)-IIIa

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