USBio Logo
Subscribe to our newsletter!

REGISTER | SIGN IN

Welcome | LOG OUT

D9520 Drop-out Mix Synthetic Minus Histidine w/o Yeast Nitrogen Base (DO, Dropout, Powder) CAS:

Specifications
References
Grade
Molecular Biology Grade
EU Commodity Code
38210000
Shipping Temp
RT
Storage Temp
RT/4°C
Synthetic complete amino acid supplement–minus histidine (HisDO)

Drop-out Mixes are used as a supplement to Drop-out Base for making synthetic, complete media formulations in accordance with Methods in Yeast Genetics. All lots are quality control tested using the appropriate yeast strains and transformants.

• Convenient Powders • Useful for One-Hybrid and Two-Hybrid Systems • Competitively Priced
Dust-Free
Specially milled powder blends are designed to eliminate or greatly reduce airborne particulates
Homogeneous
Proprietary blending technology ensures complete mixing of components
Appearance
White, homogeneous, free flowing powder
Solubility
Colorless, clear, complete
pH
3.7±0.6
Companion Products
D9500: Drop-out Base With Glucose (Powder) D9501: Drop-out Base With Raffinose (Powder) D9502: Drop-out Base With Galactose (Powder) D9510: Drop-out Base With Glucose and Agar (Powder) D9511: Drop-out Base With Raffinose and Agar (Powder) D9512: Drop-out Base With Galactose and Agar (Powder) Y2020: Yeast Nitrogen Base w/ AA & w/ AS, w/o Carbohydrate (YNB) (Powder) Y2025: Yeast Nitrogen Base w/o AA, Carbohydrate & w/AS (YNB) (Powder) Y2030: Yeast Nitrogen Base w/o AA, Carbohydrate & w/o AS (YNB) (Powder) Y2035: Yeast Nitrogen Base w/AA & w/AS, Vitamin Free (YNB) (Powder) Y2035-05: Yeast Nitrogen Base (YNB) w/AA & w/AS, Vitamin Free, w/o Dextrose (Powder) Y2036: Yeast Nitrogen Base w/o AA, AS, Thiamine HCl (Powder) Y2037: Yeast Nitrogen Base w/o AA & w/AS (YNB) and w/o Fe, Zn, Mn, Cu (Powder)
References
1. Kaiser, C., Michaelis, S., Mitchell, A., Methods in Yeast Genetics, Cold Spring Harbor Laboratory Course Manual, Appendix A: 210, CSHL Press (1994).|2.Williams G.M., Surtees J.A. (2018) Measuring Dynamic Behavior of Trinucleotide Repeat Tracts In Vivo in Saccharomyces cerevisiae. In: Muzi-Falconi M., Brown G. (eds) Genome Instability. Methods in Molecular Biology, vol 1672. Humana Press, New York, NY.
USBio References
1. Williams G.M., Surtees J.A. (2018) Measuring Dynamic Behavior of Trinucleotide Repeat Tracts In Vivo in Saccharomyces cerevisiae. In: Muzi-Falconi M., Brown G. (eds) Genome Instability. Methods in Molecular Biology, vol 1672. Humana Press, New York, NY.
Pricing
Order
Proceed to Checkout
Cart Summary
ProductSizeListYour PriceQtyExt Price
Subtotal:Subtotal:
Subtotal:Subtotal:
Total Coupon Savings:Total Coupon Savings:()
Your cart is currently empty.
- Coupon Code
Recently Viewed
Special Offers
20% OFF New Lab Discount Setting up a New Lab?
Apply for our New Lab Discount!
*Receive a 25% off LIST price coupon code via email.
Society Member Discount Members of the GSA, FASEB, ACS and SFN get even bigger discounts!
  • Contact Us

    Visit our technical library or contact our support staff to answer your questions.

    Telephone:
    1-800-520-3011

    Library | Contact

    Site Map

    ANTIBODIES

    BIOCHEMICALS

    BIOLOGICALS

    CULTURE MEDIA

    MOLECULAR BIOLOGY

    KITS AND ASSAYS

    Technical Resources

    BIO DICTIONARY

    CITEAB

    ENTREZ GENE

    GENBANK

    HISTOLOGY GUIDE

    NCBI

    OMIM

    PROTEIN RESOURCES

    PROTOCOLS

    PUBMED

    UNIPROT

    Distributors

    For customers outside of the United States, please use one of our many distributors.

    View Distributors

    Payment Methods

    We accept the following payment methods as well as pay-by-invoice.

    MasterCard Visa PayPal
    © 2023-2024 United States Biological - All Rights Reserved