Team:HokkaidoU Japan/Shuffling Kit

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Maestro E.coli

Optimization Kit

Overview

As we referred at the motivation, the transcription efficiency can vary about 1000 fold by choosing different promoter. Translation efficiency varies about 100 folds by choosing different RBS. So the selection of the expression regulatory region is extremely important for protein you want to express.

However, selecting the strongest regulatory region does not always result in the best production. It is a hard work to select the best combination of a promoter and a RBS by yourself.

Therefore, we made a remarkable kit to select the regulatory region and optimize the expression, which suits the users demand and can be done in single pot reaction. It will be a new standard of choosing promoters and RBSs!

Our optimization kit is for both promoters and RBSs. Both kits use Golden Gate Assembly (GGA), one-pot DNA shuffling (Engler, 2009). BsaI cloning site used by that method is the key of our optimization kit.

One-pot DNA shuffling method

fig.1 BsaI cloning site

BsaI cloning site has unique characteristics that enabled us to construct our optimization kit. BsaI restriction enzyme is classified as Type IIs restriction endonuclease. The unique property of this class is that recognition site and the cutting sites are apart. Unlike EcoRI, BsaI recognizes GGTCTC sequence, but cuts the sequence located 7 bases downstream from first base in recognition site (fig.1). Which results in a 5 prime 4 base overhang structure (fig.2).

fig.2 BsaI cuts different region form recognition site

These DNA overhangs can be made into any desired sequence. Therefore, 256 different overhangs can be created using a BsaI restriction site. By designing the overhangs, DNA fragments can be assembled together in a defined order, and inserted in a vector in one step.

Optimize promoters and RBSs by using GGA

Our kit is using this remarkable method called "Golden Gate Assembly one-pot DNA shuffling". Thus, our kit is capable to make several variants of the constructs in one reaction.

Promoter Selector can insert protein sequence into constructs with five different promoters with different strengths (fig.3).

fig.3 Your CDS will be inserted the downstream of a certain promoter randomly

RBS Selector can insert four different RBS with different strengths. Currently it is possible to optimize up to 3 RBSs in one operon with our kit (fig.4).

fig.4 RBS Selector contains 4RBSs, and you can randomize max 3 CDS