Русский

Optical properties of Xinggory Cy3.5 amine/NH2 labeling experiment

973
2024-03-29 15:03:26
Посмотреть перевод

The optical properties of the Cy3.5 amine labeling experiment are an important reason for its application in biomarkers and fluorescence imaging. Cy3.5 is a fluorescent dye belonging to the Cyanine dye family, with high molar extinction coefficient and quantum yield, making it excellent in trace analysis and fluorescence imaging.

In the Cy3.5 amine labeling experiment, the dye covalently binds to specific functional groups on biomolecules (such as proteins, nucleic acids, etc.) through its amine group, thereby achieving the labeling of the target molecule. This labeling not only maintains the biological activity of the target molecule, but also endows it with fluorescence characteristics, making it convenient for qualitative and quantitative analysis in complex biological samples.

The maximum excitation wavelength of Cy3.5 dye is usually in the range of 550-570nm, while the maximum emission wavelength is in the range of 570-590nm. This gives Cy3.5 dye unique emission characteristics between green and red fluorescence, enabling good spectral separation from other commonly used fluorescent dyes such as GFP, FITC, etc., avoiding signal interference.

In addition to fluorescent signals with high sensitivity and specificity, Cy3.5 dyes also exhibit good photostability. Under continuous laser irradiation, its fluorescence signal can remain relatively stable and is not prone to bleaching or quenching. This makes Cy3.5 dye have better application prospects in long-term fluorescence imaging experiments.

In summary, the optical properties of the Cy3.5 amine labeling experiment make it a tool in the fields of biomarkers and fluorescence imaging. Its high sensitivity, specificity, good spectral separation, and excellent photostability make this dye valuable in biomedical research.

Source: Sohu

Связанные рекомендации
  • French research team successfully develops new orange laser

    A research team in France has reported a novel laser that emits light in the orange region of the spectrum, indicating its potential applications in flow cytometry and astronomical laser guidance.In the research results just published in Optics Express, the team (including researchers from the É cole Polytechnique in Caen, France and Oxxius, a laser manufacturer based in Lannion) claimed that the ...

    03-04
    Посмотреть перевод
  • Scientists have developed a palm sized femtosecond laser using a glass substrate

    Researchers at the Federal College of Technology in Lausanne (EPFL) have shown that femtosecond lasers suitable for palm size can be manufactured using glass substrates.Can femtosecond lasers made entirely of glass become a reality? This interesting question prompted Yves Bellouard, the head of the Galata laboratory at the Federal Institute of Technology in Lausanne, to embark on a journey after y...

    2023-10-04
    Посмотреть перевод
  • New Method - Observing how materials emit polarized light

    Many materials emit light in ways that encode information in its polarization. According to researchers at École Polytechnique Fédérale de Lausanne (EPFL), Switzerland, polarization is key for future technologies, from quantum computers to secure communication and holographic displays.Among such phenomena is a form known as circularly polarized luminescence (CPL), a special type of light emission ...

    07-04
    Посмотреть перевод
  • Shanghai Institute of Optics and Fine Mechanics has made significant breakthroughs in the study of laser damage performance of mid infrared anti reflective coatings

    Recently, the Thin Film Optics Research and Development Center of the High Power Laser Component Technology and Engineering Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, collaborated with researchers from Hunan University and Shanghai University of Technology to make new progress in the study of laser damage performance of mid infrared anti reflect...

    04-07
    Посмотреть перевод
  • Commitment to achieving 100 times the speed of on-chip lasers

    Although lasers are common in daily life, their applications go far beyond the scope of light shows and barcode reading. They play a crucial role in telecommunications, computer science, and research in biology, chemistry, and physics. In the latter field, lasers that can emit extremely short pulses are particularly useful, approximately one trillionth of a second or less.By operating these lasers...

    2023-11-13
    Посмотреть перевод