Hygromycin B

- Overview
  - Hygromycin B is a unique aminoglycoside antibiotic derived from Streptomyces hygroscopicus. It inhibits protein synthesis in prokaryotes and eukaryotes. Hygromycin B is routinely used as a selection agent in transfection experiments to select eukaryoitc cells that are stably transfected with the E. coli hydromycin-resistance gene (hyg or hph).
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    Background
    
    Hygromycin B, along with aminoglycosides, inhibits protein synthesis by strengthening the interaction of tRNA binding in the ribosomal A-site. Hygromycin B also prevents mRNA and tRNA translocation by an unknown mechanism.
- Properties
  - CAS Number
    
    31282-04-9
    
    Molecular Formula
    
    C20H37N3O13
    
    Molecular Weight
    
    527.52
    
    Appearance
    
    Off-white or light tan powder
    
    Solubility
    
    Freely soluble in water
    
    Other Properties
    
    Source: Streptomyces hygroscopicus.
    Water Content (Karl Fischer): ≤15.0%
    Loss on Drying: ≤5.0%
    Melting Point: 160-180°C
    Purity Level: (As is by HPLC): ≥90.0%
    
    Storage
    
    2-8°C
    
    * For research use only
- Applications
  - Application Description
    
    Spectrum: Hygromycin B is effective against eukaryotic (mammalian) and prokaryotic (bacteria, fungi/yeast) cells.
    
    Microbiology Applications: Hygromycin B can be used as a selection agent to isolate Hygromycin B resistant bacteria and fungi. The following Hygromycin B selection concentrations should serve as a guide only and may vary depending on experimental conditions and cells used:
    Bacteria (E. coli) - 50 µg/mL - 100 µg/mL
    Fungi - 100 µg/mL - 300 µg/mL
    Yeasts - 50 µg/mL - 200 µg/mL
    
    Plant Biology Applications: Hygromycin B is routinely used as a selection agent for Arabidopsis plants that have been transformed with a hygromycin B resistance gene. A rapid method to screen for Hygromycin B resistant Arabidopsis in less than four days has been developed. After Arabidopsis seeds have been transformed with a resistance plasmid (pBIG-HYG), they are plated on MS medium with Hygromycin B and subjected to a two day stratification at 4°C in the dark. Seeds are then exposed to light for 4-6 hours to stimulate germination and then placed in the dark for another two days. Transformed seeds are selected and identified after a 24 hour period in the light. Resistant transformants are characterized by long hypocotyls (Harrison et al, 2006).
    
    Eukaryotic Cell Culture Applications: Hygromycin B is routinely used as a selective agent in mammalian cell culture to isolate Hygromycin B resistant cells after transfection. Selectable markers for Hygromycin B resistant cells include the hyg or hph resistance genes which express a phosphotransferase that inactivates Hygromycin B by phosphorylation. Effective working concentrations range from 100 – 1000 µg/mL. The optimal working concentration of Hygromycin B for selection of resistant mammalian clones depends on the cell lines used, Hygromycin B quality, media, growth conditions, cell density, cell metabolic rate, cell cycle phase, and the plasmid carrying the hph resistance gene. A kill curve should therefore be performed to determine the optimal working concentration for every experimental system and for every lot of Hygromycin B. Optimal selection concentrations of Hygromycin B can range from 50 µg/mL - 1000 µg/mL; however, most common selection concentration ranges are between 50 µg/mL - 200 µg/mL.
    For additional information regarding relevant cell lines, resistance plasmids, and culture media, please visit our Cell Culture Database.