Nanoscale spatial induction of ultraviolet photoproducts in cellular DNA by three-photon near-infrared absorption

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Nanoscale spatial induction of ultraviolet photoproducts in cellular DNA by three-photon near-infrared absorption

Rosalind A Meldrum1, 3, Stanley W Botchway2, 4, Christopher W Wharton1 & Graeme J Hirst2
1 School of Biosciences, University of Birmingham, Birmingham, UK
2 Central Laser Facility, Central Laboratory of the Research Council, Rutherford Appleton Laboratory, Oxford, UK
3 School of Biosciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, UK
4 Central Laser Facility, CLRC, Rutherford Appleton Laboratory, Chilton, Didcot, Oxford OX11 0QX, UK

Abstract

The high-resolution spatial induction of ultraviolet (UV) photoproducts in mammalian cellular DNA is a goal of many scientists who study UV damage and repair. Here we describe how UV photoproducts can be induced in cellular DNA within nanometre dimensions by near-diffraction-limited 750 nm infrared laser radiation. The use of multiphoton excitation to induce highly localized DNA damage in an individual cell nucleus or mitochondrion will provide much greater resolution for studies of DNA repair dynamics and intracellular localization as well as intracellular signalling processes and cell–cell communication. The technique offers an advantage over the masking method for localized irradiation of cells, as the laser radiation can specifically target a single cell and subnuclear structures such as nucleoli, nuclear membranes or any structure that can be labelled and visualized by a fluorescent tag. It also increases the time resolution with which migration of DNA repair proteins to damage sites can be monitored. We define the characteristics of localized DNA damage induction by near-infrared radiation and suggest how it may be used for new biological investigations.

See alo:

Localised induction of UV damage in cellular DNA for the study of DNA repair
dynamics. Comparison of the methods using a focused near infra-red laser beam
and a focused 248nm UV beam

Del Mar Photonics offers industry's most extensive portfolio of ultrafast lasers
We offer femtosecond oscillators and amplifiers based based on Ti:Sapphire (Trestles, Teahupoo, Cortes), Cr:Forsterite (Mavericks, Jaws), Yb- Solid State (Tourmaline-SS), Er-doped fiber (Tamarack, Buccaneers) and Yb- doped fibers (Tourmaline series). Main specifications of the basic standard models are summarized in the table below:

Laser brand-name	Brief description	Output parameters	Sample specifications	Pdf brochures
Trestles	Ti:Sapphire oscillator	wavelength tuning range 710-950 nm (@6W pump); output power >600 mW (@6W pump, 800 nm) pulse duration <20 fs - 100 fs	Trestles-100 without pump laser Ti:Sapphire oscillator having a tuning range of 710-950 nm (@6W pump); output power >600 mW (@6W pump, 800 nm); beam quality TEMoo; polarization - linear horizontal; pulse duration <100 fs; repetition rate 80 MHz	Trestles Ti:Sapphire laser Trestles Finesse Ti:Sapphire laser Manual Pump lasers HPG DPSS green laser Finesse DPSS green laser
Teahupoo Rider	Ti:Sapphire one-box Oscillator/Amplifier
Mavericks	Cr:Forsterite oscillator	tuning range – 1230-1270nm output power – up to 1W pulse duration – 60 fs - 80 fs repetition rate – 120/76 MHz (fixed)	Mavericks 65P Femtosecond Cr:Forsterite laser system Ytterbium pump laser included. tuning range – 1230-1270nm output power – 250 mW beam quality – TEMoo polarization – linear horizontal pulse duration – <65 fs repetition rate – 120/76 MHz (fixed) Electronic starter included. Peltier crystal head with temperature controller included.	Mavericks Cr:Forsterite femtosecond lasers Multiphoton Imaging with Mavericks - introductory brochure New compact version of Mavericks CrF:65P chromium forsterite femtosecond laser
Tourmaline Yb-SS400	Ytterbium-doped Solid- State Femtosecond Oscillator	Wavelength, nm 1059±2 Pulse duration fs < 150 Output power, mW* >400 Repetition rate, MHz 80*	Tourmaline Yb-SS400/150 Pulse duration (FWHM), fs < 150 Wavelength, nm 1059±2 Output power, mW* >400 Repetition rate, MHz 80* Output power stability** ± 1% (see graph) Spatial mode TEMoo Polarization, linear >100:1 (horizontal) Laser head dimensions, mm 710x165x110 Power supply dimensions, mm 230x200x85	Ytterbium-doped Solid- State Femtosecond Oscillator
Tamarack	Er-doped fiber femtosecond oscillator	Wavelength, nm 1560±10 Pulse Width, fs <80 - 250 Output power, mW >10	Tamarack 80 (RFQ) Pulse Width (FWHM), fs <80 Wavelength, nm 1560±10 Average output power, mW >10 Peak output power, kW up to 1 Repetition rate, MHz 70 Power output: 10 mW, TEM00, linearly polarized or fiber output (FC/APC) Laser head dimensions, mm 180x210x50 Power supply unit dimensions, mm 230x200x85	Tamarack Er-doped femtosecond fiber laser
Buccaneer	Er-doped fiber femtosecond oscillator/amplifier		Buccaneer 100 Femtosecond fiber-based laser system Wavelength (fixed) 1560±10nm; output power >100 mW; beam quality TEM00 pulse duration (fixed) 150-300 fs; repetition rate (fixed) 60-80 MHz	Buccaneer Er-doped femtosecond fiber laser
Buccaneer SHG	Er-doped fiber femtosecond oscillator/amplifier +SHG	Wavelength 780+-10 nm Pulse Width < 120 fs Output power >40 mW	Buccaneer with a SHG unit Fiber laser with SH generation Pulse Width (FWHM) < 120 fs Wavelength 780+-10 nm (fixed) Average output power >40 mW Repetition rate 40 MHz Spectral width ~ 7.5 nm RF Out: SMA Mode lock status: SMA Polarization: vertical	Buccaneer Er-doped femtosecond fiber laser with build in SHG unit Manual
Tourmaline	Femtosecond Yb-based seed oscillator	Output power 20mW Wavelength 1040-1064 nm Pulse duration 100 fs	Tourmaline 100 Average power 20mW Wavelength 1040-1064 nm Repetition rate 60-80 MHz Pulse duration 100 fs Output pulse energy 0.25nJ	Femtosecond Yb-based seed oscillator
Tourmaline 300-1	Femtosecond Yb-based laser system	Pulse duration 300 fs Average power 1 W	Tourmaline 300-1 Yb-based laser system Pulse duration 300 fs Average power 1 W Repetition rate 10 kHz Pulse energy 100 mkJ
Tourmaline Yb- ULRepRate-07	Yb-based high-energy fiber laser development kit, model Tourmaline Yb- ULRepRate-07	Wavelength: 1.07 nm ±0.1 nm Pulse duration: 500 fs - 3 ns Pulse energy: up to 10 µJ	Tourmaline Yb-ULRepRate-07 Yb-based high-energy fiber laser system kit includes: - low-repetition-rate high-energy mode-locked Yb- doped all-fiber laser with open architecture which provides possibility of educational & experimental work for obtaining ultra-low-repetition-rate (up to 10 kHz) and study of parabolic shaped pulses Wavelength: 1.07 nm ±0.1 nm Pulse duration: 500 fs - 3 ns Repetition rate: 25-5 MHz and low (up to 10 kHz) Pulse energy: up to 10 µJ (microJoule)

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