The Fluorescence Probes market is projected to grow at a CAGR of 6.3% from 2023 to 2032.
Fluorescence Probes refers to a subatomic cytogenetic technique that uses fluorescent probes to visualize genetic material. These probes are molecules that absorb specific wavelengths of light and emit light when bound to specific DNA/RNA sequences. They are used to identify structural and numerical abnormalities in chromosomes, monitor therapeutic agents, and identify rare genetic diseases. Locus-specific probes, alphaid/centromere repeats, and whole-chromosome probes are some of the commonly used FISH probe types. It has various beneficial properties such as B. High sensitivity and precision in detecting target sequences, direct application to both metaphase chromosomes and interphase nuclei, and accurate visualization of hybrid signals at the single-cell level.
Fluorescence Probes provide the most sensitive measurement of your sample's optical properties. Our probe technology enables you to characterize the optical properties of your samples from nanometers to hundreds of microns in length, including spectral shifts due to pH changes, redox reactions and interactions between solutes in solution. Our Fluorescence Probes are the ideal tool for studying cellular metabolism. They allow researchers to analyze metabolic processes in cells and tissues at single-cell resolution, using standard fluorescence microscopy techniques. These fluorescent probes do not require any light source, so they can be applied to the skin with simple tools such as Q-tips and fingers. Simply slip a fluorescent probe under the edge of your fingertip and hold it against a surface for 30 seconds. The probe will then turn black, indicating that the blood vessel has been identified.
Recent Development:
Thermo Fisher Scientific Launches a More Sustainable Solution for Large-Scale Cell Culture Harvesting Thermo Fisher Scientific Inc., the world leader in serving science, today unveiled the Thermo Scientific™ DynaSpin™ Single-Use Centrifuge system at the BioProcess International annual conference in Boston, MA. The system is specifically designed to provide an optimal single-use solution for large-scale cell culture harvesting. The DynaSpin system improves and streamlines harvesting for cell culture separation in single-use bioprocesses by reducing the number of depth filtration cartridges required to complete the harvest process.
1. Global Fluorescence Probes Market: Research Methodology
2. Global Fluorescence Probes Market: Executive Summary
2.1 Market Overview and Definitions
2.1.1. Introduction to Global Fluorescence Probes Market
2.2. Summary
2.2.1. Key Findings
2.2.2. Recommendations for Investors
2.2.3. Recommendations for Market Leaders
2.2.4. Recommendations for New Market Entry
3. Global Fluorescence Probes Market: Competitive Analysis
3.1 MRS Competition Matrix
3.1.1. Market Structure by region
3.1.2. Competitive Benchmarking of Key Players
3.2 Consolidation in the Market
3.2.1 M&A by region
3.3 Key Developments by Companies
3.4 Market Drivers
3.5 Market Restraints
3.6 Market Opportunities
3.7 Market Challenges
3.8 Market Dynamics
3.9 PORTERS Five Forces Analysis
3.10 PESTLE
3.11 Regulatory Landscape by region
1. North America
2. Europe
3. Asia Pacific
4. The Middle East and Africa
5. South America
3.12 COVID-19 Impacts
4. Global Fluorescence Probes Market Segmentation
4.1 Global Fluorescence Probes Market, by Type (2022-2032)
Conventional Fluorescein Probes
Inorganic Ion Fluorescent Probes
4.2 Global Fluorescence Probes Market, by Application (2022-2032)
Medical
Scientific Research
5. North America Fluorescence Probes Market (2022-2032)
5.1 North America Fluorescence Probes Market, by Type (2022-2032)
5.2 North America Fluorescence Probes Market, by Application (2022-2032)
6. Europe Fluorescence Probes Market (2022-2032)
6.1. European Fluorescence Probes Market, by Component (2022-2032)
6.2. European Fluorescence Probes Market, by Delivery Model (2022-2032)
6.3. European Fluorescence Probes Market, by Functionality (2022-2032)
6.4. European Fluorescence Probes Market, by End-user (2022-2032)
6.5. European Fluorescence Probes Market, by Country (2022-2032)
1. UK
2. France
3. Germany
4. Italy
5. Spain
6. Sweden
7. Austria
8. Rest Of Europe
7. Asia Pacific Fluorescence Probes Market (2022-2032)
7.1. Asia Pacific Fluorescence Probes Market, by Type (2022-2032)
7.2. Asia Pacific Fluorescence Probes Market, by Application (2022-2032)
7.3. Asia Pacific Fluorescence Probes Market, by Country (2022-2032)
1. China
2. India
3. Japan
4. South Korea
5. Australia
6. ASEAN
7. Rest of APAC
8. Middle East and Africa Fluorescence Probes Market (2022-2032)
8.1 Middle East and Africa Fluorescence Probes Market, by Type (2022-2032)
8.2. Middle East and Africa Fluorescence Probes Market, by Application (2022-2032)
8.3. Middle East and Africa Fluorescence Probes Market, by Country (2022-2032)
1. South Africa
2. GCC
3. Egypt
4. Nigeria
5. Rest Of ME&A
9. South America Fluorescence Probes Market (2022-2032)
9.1. South America Fluorescence Probes Market, by Type (2022-2032)
9.2. South America Fluorescence Probes Market, by Application (2022-2032)
9.3. South America Fluorescence Probes Market, by Country (2022-2032)10. Company Profile: Key players
Thermo Fisher Scientific
Ocean Optics
Tocris Bioscience
Sigma-Aldrich
Avantes
QIAGEN
Bio-Rad
Roche
This research provides an analysis of the industry trends in each of the sub-segments from 2022 to 2032 and estimates revenue growth at the global, regional, and national levels. Market Report Service Research has divided the global market for Fluorescence Probes for this study based on product, application, substrate, and geography.
By Type
Conventional Fluorescein Probes
Inorganic Ion Fluorescent Probes
By Applications
Medical
Scientific Research