Gentamicin (10 mg/mL)
Gentamicin (10 mg/mL)
Citations & References (4)
Gibco™

Gentamicin (10 mg/mL)

Gentamicin sulfate is a water-soluble antibiotic drug originally purified from the fungus Micromonospora purpurea. Gentamicin acts by binding to theRead more
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Catalog NumberQuantity
1571007210 x 10 mL
1571006410 mL
Catalog number 15710072
Price (JPY)
49,200
Each
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Quantity:
10 x 10 mL
Gentamicin sulfate is a water-soluble antibiotic drug originally purified from the fungus Micromonospora purpurea. Gentamicin acts by binding to the 30S subunit of the bacterial ribosome leading to inhibition protein synthesis and death in susceptible bacteria. Gibco™ Gentamicin is effective against a wide variety of gram-positive and gram-negative bacteria, and is used for the prevention of bacterial contamination on cell cultures. The recommended working concentration ranges from 0.5 to 50 μg/ml. We offer a variety of antibiotics and antimycotics for cell culture applications.

Product Use
For Research Use Only: Not intended for animal or human diagnostic or therapeutic use.

Dual-Site cGMP Manufacturing
Gibco™ Gentamicin is manufactured at a cGMP compliant facility, located in Grand Island, New York. The facility is registered with the FDA as a medical device manufacturer and is certified to ISO 13485 standards. For supply chain continuity, we offer a comparable Gibco™ Gentamicin product made in our Scotland facility (15710-049). This facility is registered with the FDA as a medical device manufacturer and is certified to the ISO 13485 standard.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Concentration10 mg/mL
Culture TypeMammalian Cell Culture
For Use With (Application)Prevention of Cell Culture Contamination
Quantity10 x 10 mL
Shelf Life24 Months
Shipping ConditionRoom Temperature
FormLiquid
Product TypeAntibiotic
SterilitySterile-filtered
Unit SizeEach
Contents & Storage
Storage conditions: 15-30°C
Shipping conditions: Ambient
Shelf life: 24 months from date of manufacture

Frequently asked questions (FAQs)

If Gentamicin (10 mg/mL) is accidentally stored at 2-8 degrees C, would it affect the stability of the antibiotic?

No, storing Gentamicin solution for several days at 2-8 degrees C will not have any negative impact on its performance or stability. However, as Gentamicin solution has been shown to be stable at room temperature, the recommended storage temperature is ~25 degrees C.

Find additional tips, troubleshooting help, and resources within our Cell Culture Support Center.

How can I decontaminate my cultures?

When an irreplaceable culture becomes contaminated, researchers may attempt to eliminate or control the contamination.

1. Determine if the contamination is bacteria, fungus, mycoplasma, or yeast. Read more here to view characteristics of each contaminant.
2. Isolate the contaminated culture from other cell lines.
3. Clean incubators and laminar flow hoods with a laboratory disinfectant, and check HEPA filters.
4. Antibiotics and antimycotics at high concentrations can be toxic to some cell lines. Therefore, perform a dose-response test to determine the level at which an antibiotic or antimycotic becomes toxic. This is particularly important when using an antimycotic such as Gibco Fungizone reagent or an antibiotic such as tylosin.

The following is a suggested procedure for determining toxicity levels and decontaminating cultures:

1. Dissociate, count, and dilute the cells in antibiotic-free media. Dilute the cells to the concentration used for regular cell passage.
2. Dispense the cell suspension into a multiwell culture plate or several small flasks. Add the antibiotic of choice to each well in a range of concentrations. For example, we suggest the following concentrations for Gibco Fungizone reagent: 0.25, 0.50, 1.0, 2.0, 4.0, and 8.0 µg/mL.
3. Observe the cells daily for signs of toxicity such as sloughing, appearance of vacuoles, decrease in confluency, and rounding.
4. When the toxic antibiotic level has been determined, culture the cells for two to three passages using the antibiotic at a concentration one- to two-fold lower than the toxic concentration.
5. Culture the cells for one passage in antibiotic-free media.
6. Repeat step 4.
7. Culture the cells in antibiotic-free medium for four to six passages to determine if the contamination has been eliminated.

Find additional tips, troubleshooting help, and resources within our Cell Culture Support Center.

What antibiotics do you offer to help control or eliminate cell culture contamination?

Please view the following page to browse the cell culture antibiotics we offer (https://www.thermofisher.com/us/en/home/life-science/cell-culture/mammalian-cell-culture/antibiotics.html).

Find additional tips, troubleshooting help, and resources within our Cell Culture Support Center.

Citations & References (4)

Citations & References
Abstract
Comparing Effects of Transforming Growth Factor ß1 on Microglia From Rat and Mouse: Transcriptional Profiles and Potassium Channels.
Authors:Lively S, Lam D, Wong R, Schlichter LC
Journal:Front Cell Neurosci
PubMed ID:29780305
'The cytokine, transforming growth factor ß1 (TGFß1), is up-regulated after central nervous system (CNS) injuries or diseases involving microglial activation, and it has been proposed as a therapeutic agent for treating neuroinflammation. Microglia can produce and respond to TGFß1. While rats and mice are commonly used for studying neuroinflammation, very ... More
Re-Defining Stem Cell-Cardiomyocyte Interactions: Focusing on the Paracrine Effector Approach.
Authors:Mahapatra S, Martin D, Gallicano GI
Journal:J Stem Cells Regen Med
PubMed ID:30018469
'Stem cell research for treating or curing ischemic heart disease has, till date, culminated in three basic approaches: the use of induced pluripotent stem cell (iPSC) technology; reprogramming cardiac fibroblasts; and cardiovascular progenitor cell regeneration. As each approach has been shown to have its advantages and disadvantages, exploiting the advantages ... More
Microglia Responses to Pro-inflammatory Stimuli (LPS, IFN?+TNFa) and Reprogramming by Resolving Cytokines (IL-4, IL-10).
Authors:Lively S, Schlichter LC
Journal:Front Cell Neurosci
PubMed ID:30087595
Microglia respond to CNS injuries and diseases with complex reactions, often called "activation." A pro-inflammatory phenotype (also called classical or M1 activation) lies at one extreme of the reactivity spectrum. There were several motivations for this study. First, bacterial endotoxin (lipopolysaccharide, LPS) is the most commonly used pro-inflammatory stimulus for ... More
Polarized Human Retinal Pigment Epithelium Exhibits Distinct Surface Proteome on Apical and Basal Plasma Membranes.
Authors:Khristov V, Wan Q, Sharma R, Lotfi M, Maminishkis A, Bharti K
Journal:Methods Mol Biol
PubMed ID:29264809
Surface proteins localized on the apical and basal plasma membranes are required for a cell to sense its environment and relay changes in ionic, cytokine, chemokine, and hormone levels to the inside of the cell. In a polarized cell, surface proteins are differentially localized on the apical or the basolateral ... More