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Psychiatry & Psychology
Radiology
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Anatomy Lab Equipments
Biochemistry Lab Equipments
Biology Lab Equipments
Chemistry Lab Equipments
Cytology Lab Equipments
Cytopathology Lab Equipments
Dental Lab Equipments
Forensic Lab Equipments
Genetics Lab Equipments
Hematology Lab Equipments
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Histopathology Lab Equipments
Mathematics Lab Equipments
Microbiology Lab Equipments
Molecular Biology Lab Equipments
Pathology Lab Equipments
Pharmaceutical Lab Equipments
Physics Lab Equipments
Radiology Lab Equipments
Science Lab Kit’s
Toxicology Lab Equipments
Borosilicate Glass Beaker
Plastic Beaker (Euro Design)
Plastic Beaker (Printed Graduation)
Test Tube Brush
Measuring Cylinder Brush
Conical Flask Brush
Volumetric Flask Brush
Round Bottom Flask Brush
Glass Beaker Brush
Pipette Brush
Wash Bottle Brush
Borosilicate BĂ¼chner Flask
Borosilicate Erlenmeyer/Conical Flask
Borosilicate Pear-Shaped Flask
Borosilicate Round Bottom Flask
Plastic Conical Flask
Plastic Volumetric Flask
Bunsen Burner
Spirit Lamp
Borosilicate Glass Burette
Plastic Burette
Capillary Tube
Centrifuge Tube
Test Tube
Ria Vial
Vacutainer Tubes
Syringes
Student Microscope
Binocular Microscope
Dissecting Microscope
Microscope Glass Slides
Cover Slip
Inoculating Loop
Slide Box
Lamps
Oils
Beaker Tongs
Crucible Tongs
Flask Tongs
Borosilicate Glass Funnel
Plastic Funnels
Wash Bottle
Borosilicate Glass Reagent Bottle
Plastic Reagent Bottle
Borosilicate Measuring Cylinder
Plastic Measuring Cylinder
Borosilicate Glass Graduated Pipette
Borosilicate Glass Volumetric Pipette
HB Pipette
Pasteur Pipette
Micropipettes
Micropipette Tips
Filter Paper
Litmus Paper
pH Paper
Chromatography Paper
Plastic Petri Plates (Sterile)
Glass Petri Plates (Non-Sterile)
Safety Goggles
Lab Coats
Gloves
Masks
Shoe Covers
Hair & Beard Covers
Steel Spatula
Plastic Spatula
Hitachi Sample Cup
Plastic Scoop
Plastic Medicine Cup
Dissecting Tool Kit
Dissecting Forceps
Hemostatic Forceps
Thumb Forceps / Tweezers
Blood Culture Bottle
Urine Container
Wooden Swab Stick
Test Tube Holder
Test Tube Racks
Magnifying Glass
Watch Glass
Mortar and Pestle
Coplin Jar
Plastic Stirrer
Glass Stirrer
Crucible
Tripod
Wire Mesh
Laboratory Thermometer
Tourniquet
Alcohol Swab
Blood Lancet
Bandage
Gloves & Masks
Contents
- Frequently Asked Questions (FAQ’s)
- Q1. Petri dishes and cell culture plates are constructed of what?
- Q2. How should Petri dishes and cell culture plates be sterilized?
- Q3. How do you keep Petri dishes and cell culture plates clean?
- Q4. Is it possible to use Petri dishes and cell culture plates interchangeably?
- Q5. How do you select the proper size and type of dish for a certain experiment?
- Q6. Can Petri dishes and cell culture plates be used to culture cells for an extended period of time?
Petri dishes and cell culture plates are important instruments in biology and microbiology, especially in the cultivation and research of microbes and cells.Â
A Petri dish is a shallow, cylindrical dish with a cover that is used in laboratories to cultivate microorganisms such as bacteria, fungus, and tiny plants. The dish was given the name after its creator, the late-nineteenth-century German bacteriologist Julius Richard Petri. Petri dishes are frequently used in microbiology for a variety of objectives, such as isolating and researching microbial colonies, assessing the efficacy of antimicrobial drugs, and observing the properties of distinct bacteria. They provide a controlled environment for microbes growing on solid media, allowing scientists to examine their growth, morphology, and other properties. Petri dishes are a basic instrument in microbiological research and are used in a wide range of scientific areas.
Cell culture plates, also known as tissue culture plates, are laboratory instruments used to cultivate and maintain cells outside of their native environment in vitro. These plates offer a controlled environment for cell growth, making them useful in cell biology, molecular biology, and other biomedical research applications. Cell culture plates are often composed of plastic, most commonly polystyrene, which is clear and suitable for microscopic examination. The material is chosen to be sterile, cell-safe, and to provide an appropriate surface for cell adhesion and growth. Cell culture plates are available in a variety of sizes and well counts, ranging from 6-well plates to 384-well plates. The wells act as separate compartments for growing cells and running numerous experiments at the same time or under different conditions.
Some cell culture plates include unique coatings or treatments designed to improve cell adherence, proliferation, and differentiation. Collagen, fibronectin, and other extracellular matrix components may be present in these coatings. To prevent contamination of the cell culture, cell culture plates are made under sterile conditions. They are frequently supplied with covers to safeguard the cultures.
|
S.No. |
Aspects |
Petri Dishes |
Cell Culture Plates |
|
1 |
Usage |
Commonly used for culturing microorganisms |
Utilized for growing and maintaining cells |
|
2 |
Material |
Glass or plastic |
Usually plastic |
|
3 |
Design |
Shallow cylindrical shape |
Flat-bottomed with multiple wells |
|
4 |
Applications |
Microbiology experiments |
Tissue culture and drug testing |
|
5 |
Dimensions |
Various sizes available |
Standard sizes for consistency |
|
6 |
Lid |
May or may not have a lid |
Typically has a detachable lid |
|
7 |
Sterility |
Require sterilization before use |
Often comes pre-sterilized |
|
8 |
Aeration |
Limited aeration due to the lid |
Improved aeration with specialized lids |
|
9 |
Culturing Medium |
Suitable for microbial growth |
Tailored for specific cell types |
|
10 |
Stacking |
Generally stackable for storage |
Stackable for space-efficient storage |
|
11 |
Growth Analysis |
Limited options for detailed analysis |
Compatible with various analytical tools |
|
12 |
Labeling |
Usually require external labeling |
Often have designated labeling areas |
|
13 |
Surface Area |
Larger surface area for microbial growth |
Smaller surface area for cell attachment |
|
14 |
Sample Handling |
Limited handling convenience |
Designed for easy manipulation of samples |
|
15 |
Lid Sealing |
May not provide complete sealing |
Offer better sealing to prevent leakage |
|
16 |
Incubation |
Suitable for various incubation conditions |
Compatible with specific incubation setups |
|
17 |
Microscopy |
Limited microscopy compatibility |
Designed for microscopic observation |
|
18 |
Cellular Adhesion |
Not specialized for cell attachment |
Optimized for cell attachment and growth |
|
19 |
Storage |
Not ideal for long-term storage |
Suitable for short-term and long-term storage |
|
20 |
Cost |
Relatively inexpensive |
Slightly more expensive |
|
21 |
Reusability |
Often disposable |
Can be reused multiple times with care |
|
22 |
Workflow |
Primarily for simple culture workflows |
Supports complex cell-based experiments |
|
23 |
Temperature Control |
Limited temperature control options |
Allows precise temperature regulation |
|
24 |
Cell Observation |
Limited observation options |
Designed for easy cell monitoring |
|
25 |
Durability |
Relatively fragile |
Sturdier and less prone to damage |
|
26 |
Evaporation Control |
Limited control over evaporation |
Specialized features to minimize evaporation |
|
27 |
Handling |
Easy handling due to simple design |
Requires careful handling for cell integrity |
|
28 |
Customization |
Limited customization options |
Customizable for various cell-based assays |
|
29 |
Scale-up |
Not ideal for large-scale experiments |
Suitable for scaling up cell-based studies |
Cardiology
Clinical Oncology
