pSuperAgro™ v1 Plasmid (pBBRacdS)

Name: pSuperAgro™ v1 Plasmid (pBBRacdS)
SKU: P-501
Availability: InStock

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Product Description

Introducing a new family of Agrobacterium helper plasmids, pSuperAgro™! These plasmids can greatly enhance gene transfer into various species of plants during Agrobacterium-mediated transformation. This increased efficiency provides a significant time and labor savings!

Sold as "Transformation Ready" DNA and offered at a low price to encourage rapid adoption of this exciting new technology. The purchase of this product includes a 1-year subscription to use pSuperAgro™ in your research.

The pSuperAgro™ v1 Plasmid (pBBRacdS) is an Agrobacterium helper plasmid that includes 1-aminocyclopropane-1-carboxylate (ACC) deaminase (AcdS) activity, driven by the lac promoter, which suppresses ethylene evolution during co-cultivation and significantly increases T-DNA transfer.

AcdS activity is beneficial for higher callus induction frequency and suppresses callus browning phenomena. This plasmid has been shown to be efficacious in both Hardy Pampas Grass (E. Ravennae) and Tomato plants (S. Lycopersicum).

These products are sold under license by GoldBio and require a signed agreement before fulfillment. See license details below in the technical documentation.

Benefits

Ethylene evolution suppression
Higher callus induction frequency
Reduced callus browning

Product Specifications

Concentration: 0.02 μg/μL in TE
Volume: 50 μL
Backbone size: 5809 bp
Vector type: Helper vector
Promoter: Lac
Bacterial Resistance(s): Gentamicin
Copy number: Low Copy

Vector Map

Sequence

GoldBio Vector Map and Seq uence for pSuperAgro™ v1

Storage/Handling

pSuperAgro™ v1 Plasmid DNA is at 0.02 μg/μL concentration in TE buffer.
Store all plasmids at -20°C.

Citations

Nonaka, S., Sugawara, M., Minamisawa, K., Yuhashi, K. I., & Ezura, H. (2008). 1-Aminocyclopropane-1-carboxylate deaminase enhances Agrobacterium tumefaciens-mediated gene transfer into plant cells. Applied and Environmental Microbiology, 74(8), 2526-2528.
Nonaka, S., Someya, T., Kadota, Y., Nakamura, K., & Ezura, H. (2019). Super-Agrobacterium ver. 4: improving the transformation frequencies and genetic engineering possibilities for crop plants. Frontiers in plant science, 10, 1204.