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Optical control of filamentation-induced damage to DNA by intense ultrashort near-infrared laser pulses

机译：强烈超短近红外激光脉冲对细丝诱导的DNA损伤的光学控制

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摘要

We report on damage to DNA in an aqueous medium induced by ultrashort pulses of intense laser light of 800 nm wavelength. Focusing of such pulses, using lenses of various focal lengths, induces plasma formation within the aqueous medium. Such plasma can have a spatial extent that is far in excess of the Rayleigh range. In the case of water, the resulting ionization and dissociation gives rise to in situ generation of low-energy electrons and OH-radicals. Interactions of these with plasmid DNA produce nicks in the DNA backbone: single strand breaks (SSBs) are induced as are, at higher laser intensities, double strand breaks (DSBs). Under physiological conditions, the latter are not readily amenable to repair. Systematic quantification of SSBs and DSBs at different values of incident laser energy and under different external focusing conditions reveals that damage occurs in two distinct regimes. Numerical aperture is the experimental handle that delineates the two regimes, permitting simple optical control over the extent of DNA damage.

机译：我们报道了由800 nm波长的强激光的超短脉冲对水介质中DNA的损害。使用各种焦距的透镜对这些脉冲进行聚焦会在水性介质中引起等离子体的形成。这样的等离子体可以具有远远超过瑞利范围的空间范围。在水的情况下，所产生的电离和离解会原位产生低能电子和OH自由基。这些与质粒DNA的相互作用在DNA主链中产生缺口：单链断裂（SSB）会在较高的激光强度下被诱导为双链断裂（DSB）。在生理条件下，后者不易于修复。在不同的入射激光能量值和不同的外部聚焦条件下，对SSB和DSB的系统量化表明，在两种不同的情况下会发生损坏。数值孔径是描绘两种状态的实验手柄，可以对DNA损伤的范围进行简单的光学控制。

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期刊名称 Scientific Reports
作者
J. A. Dharmadhikari; A. K. Dharmadhikari; K. C. Kasuba; H. Bharambe; J. S. D’Souza; K. D. Rathod; D. Mathur;
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年(卷),期 -1(6),-1
年度 -1
页码 27515
总页数 9
原文格式 PDF
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专利

1. Optical control of filamentation-induced damage to DNA by intense, ultrashort, near-infrared laser pulses [J] . J. A. Dharmadhikari, A. K. Dharmadhikari, K. C. Kasuba, Scientific reports. . 2016,第1期

机译：强烈，超短，近红外激光脉冲对丝状体引起的DNA损伤的光学控制
2. Selective S Cone Damage and Retinal Remodeling Following Intense Ultrashort Pulse Laser Exposures in the Near-Infrared [J] . Christina Schwarz, Robin Sharma, Soon Keen Cheong, Investigative ophthalmology & visual science . 2018,第15期

机译：强烈的超短脉冲激光暴露于近红外后，选择性S锥损伤和视网膜重塑
3. Selective S Cone Damage and Retinal Remodeling Following Intense Ultrashort Pulse Laser Exposures in the Near-Infrared [J] . Schwarz Christina, Sharma Robin, Cheong Soon Keen, Investigative ophthalmology & visual science . 2018,第15期

机译：近红外线激光脉冲激光曝光的选择性S锥损伤和视网膜重塑
4. Histopathology of ultrashort pulsed laser retinal damage: changing retinal pathology with variation in spot size for near-infrared laser lesions [C] . Cynthia A. Toth, M.D., Duke Univ. Eye Ctr., Laser-Tissue Interaction X: Photochemical, Photothermal, and Photomechanical . 1999

机译：超短脉冲激光视网膜损伤的组织病理学：随着近红外激光病变的斑点大小变化而改变视网膜病理学
5. Coherent control of multiphoton processes in ultrashort and super intense pulsed laser fields. [D] . Carrera Espinoza, Juan Jose. 2007

机译：超短和超强脉冲激光场中多光子过程的相干控制。
6. Selective S Cone Damage and Retinal Remodeling Following Intense Ultrashort Pulse Laser Exposures in the Near-Infrared [O] . Christina Schwarz, Robin Sharma, Soon Keen Cheong, -1

机译：强烈的超短脉冲激光暴露于近红外后选择性S锥损伤和视网膜重塑
7. Optical control of filamentation-induced damage to DNA by intense, ultrashort, near-infrared laser pulses [O] . J. A. Dharmadhikari, A. K. Dharmadhikari, K. C. Kasuba, 2016

机译：通过激烈，超薄，近红外激光脉冲对细丝诱导的DNA损伤的光学控制
8. High Energy, Ultrashort Pulse Green Laser-Light Exposure of Cultured Human Cells Yields Evidence of DNA Damage [R] . Obringer, J. W. , Phipps, S. , Johnson, M. D. 1999

机译：高能量，超短脉冲绿色激光照射培养的人类细胞产生DNa损伤的证据

Optical control of filamentation-induced damage to DNA by intense ultrashort near-infrared laser pulses

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