Biotechnology Instruments for Research and Development
One of the most crucial steps in any biotechnology experiment or analysis is proper sample preparation. This involves processes like cell cultivation, lysis, separation and purification that yields samples optimized for downstream analysis. A variety of instruments are used at this stage to automate repetitive tasks, increase throughput and improve reproducibility.
For culturing cells, bioreactors provide controlled conditions for large scale growth of bacterial, plant or animal cells. Parameters like temperature, pH, dissolved oxygen and nutrient supply can be monitored and adjusted automatically. Bioreactors are available in benchtop as well as industrial sized formats for research or commercial production purposes.
Effective lysis and homogenization of biological samples is required before analysis. Instruments like sonicators, high pressure homogenizers and bead mills help disrupt cell membranes and organelle structures using ultrasound, shear force or bead beating. They facilitate release of intracellular components and produce uniform lysates suitable for analytical techniques of Biotechnology Instruments.
Centrifuges are ubiquitous in any biotech lab for pelleting, washing and concentrating cells or cell debris. Models ranging from tabletop microcentrifuges to preparative ultracentrifuges suit different sample volumes and particle sizes. They accelerate sedimentation through adjustable speeds and rotor configurations to partition soluble and insoluble fractions.
Chromatography Systems
Chromatographic techniques are indispensable for separation, purification, analysis and characterization of biomolecules. Liquid chromatography (LC) systems typically used for bioprocessing and quality control include size exclusion, ion exchange, hydrophobic interaction, affinity and reversed phase chromatography.
Size exclusion chromatography separates molecules based on hydrodynamic radius. It is applied for buffer exchange, desalting and removal of aggregates during protein purification. Ion exchange chromatography exploits charge interactions to separate biomolecules. Affinity chromatography relies on specific ligand-receptor binding for targeted isolation of proteins or enrichment of modified biomolecules.
Reversed phase HPLC systems achieve separation mainly due to hydrophobic non-polar interactions between biomolecule and stationary phase. They find use in purity assessment, identification and quantification of proteins, peptides, metabolites and other small molecules. Gel permeation and ion exchange chromatography are common methods for characterization of biopolymer molecular weight distributions.
Analysis Biotechnology Instruments
A diverse array of analytical instruments enable characterization of biomolecules, measurement of biological activity, detection of low abundance analytes and high resolution imaging capabilities.
Spectrophotometers are prevalent for routine measurement of biomolecule concentration based on absorbance of ultraviolet or visible light. Enzyme activity, binding affinity and kinetic assays frequently rely on absorbance or fluorescence detection systems for real time or endpoint measurements.
Mass spectrometry enables identification, quantification and sequencing of proteins, metabolites and other bioanalytes through measurement of mass-to-charge ratio. Techniques like MALDI-TOF MS and LC-MS/MS are widely applied in proteomics, metabolomics and quality control testing of biotherapeutics.
Get more insights on Biopesticides
- Industry
- Art
- Causes
- Crafts
- Dance
- Drinks
- Film
- Fitness
- Food
- Games
- Gardening
- Health
- Home
- Literature
- Music
- Networking
- Other
- Party
- Religion
- Shopping
- Sports
- Theater
- Wellness
- News