Revision as of 23:05, 18 October 2019

Title

Abstract

Overview
A Type IIS RFC[10] Loop assembly system for Yarrowia lipolytica
The Loop assembly technique
Conclusions
References

Overview

Golden Gate [1, 2] is a powerful molecular biology technique that allows scarless assembly of a large number of DNA fragments. It makes use of type IIS restriction enzymes, such as BsaI, BsmBI, BbsI, SapI, etc., that have the peculiarity of having a recognition site outside their cutting site. This property gives several advantages during cloning:

It allows scarless assembly: the cutting sites can be designed so that upon digestion and ligation, the final construct has only the desired sequence without the recognition sites.
It allows assembly of a large number of fragments in a defined order: the cutting sites can be diverse and generate several overhangs after digestion that can be ligated easily and specifically, based on complementarity.
It allows one pot digestion and ligation: the ligation is irreversible and the final DNA molecule will persist because there is no possibility of recreating the restriction sites. Thus, during the reaction, the final construct continues to accumulate, which increases the overall cloning efficiency.

Golden Gate cloning allows great freedom in design and can employed for building custom made DNA molecules. For these reasons it was adopted by the scientific community who recognised its potential even for developing standardized and modular cloning. Thus, several Golden Gate based tool kits were constructed both for prokaryotes and eukaryotes [3-7 for example]. The recently published Loop assembly system [8] brings Golden Gate cloning to a higher level of creativity and modularity as it allows recursive assembly of DNA fragments.

We welcome the iGEM initiative to fully support Type IIS parts that adhere to the MoClo/ PhytoBricks and Loop Type IIS assembly standards for the first time in the 2019 Competition (https://2019.igem.org/Competition/New/Type_IIS). In this framework, we designed a Loop assembly system dedicated to our chassis, the oleaginous yeast Yarrowia lipolytica.

A Type IIS RFC[10] Loop assembly system for Yarrowia lipolytica

The general architecture of the Yarrowia lipolytica Loop assembly platform is depicted in Figure 1. It is BioBrick RFC[10]-compatible (no illegal EcoRI, XbaI, SpeI, PstI, or NotI site) and has the following features:

Two Zeta sequences, Zeta Up (BBa_K2983000) and Zeta Down (BBa_K2983001), are flanking the platform. Zeta sequences [9] allow random integrations in Yarrowia lipolytica Po1d strain JMY195 [10] or at a zeta docking platform in Po1d derivative strains like JMY2033 [11] which has the zeta platform at the ura3-302 locus or JMY1212 [12] which has the zeta platform at the leu2-270 locus.
The URA3 auxotrophic selection marker [13] (BBa_K2983005) which is composed of the URA3 promoter (BBa_K2983002), URA3 gene (BBa_K2983003) and the URA3 terminator (BBa_K2983004). The URA3 gene encodes the orotidine 5'-phosphate decarboxylase, an enzyme (EC. 4.1.1.23) that catalyzes the decarboxylation of orotidine monophosphate to uridine monophosphate in the pyrimidine ribonucleotide synthesis pathway. In the absence of this enzyme, the cells are able to grow only if uracil or uridine is supplemented in the media. The Yarrowia lipolytica Loop assembly platform having this auxotrophic selection marker needs to be used in Δura strains.
Two traditional cloning sites (BamHI and HindIII) are flanking the URA3 auxotrophic selection marker to allow, if needed, changing it to other selection markers like LEU2 [13], LYS5 [14] or HygR [13].
The Loop Type IIS cloning sites (triangles in Figure 1, see below for detailed information) and two SfiI sites in between to allow, if needed, the insertion of E. coli cloning selection markers like LacZalpha (BBa_K2448003) or reporter RFP (BBa_J04450) expression cassettes.

Figure 1. General architecture of the Yarrowia lipolytica Type IIS RFC[10]-compatible Loop assembly platform.

The Loop Type IIS cloning sites (triangles above) are a combination of BsaI and SapI restriction sites each with different cutting sites that generate well defined overhangs (circles in Figure 1, see Figure 2 for more details). A total of 50 combinations are theoretically possible and some relevant examples are listed in Table 1.

Figure 2. BsaI and SapI restriction sites (adapted from [8]).

Table 1. Different possible Loop Type IIS cloning sites.

Part name	Sequence with BsaI and SapI sites highlighted	Part number
Loop Alpha-A	GCTCTTCAATGAGGAGTGAGACC	BBa_K2983010
Loop F-Beta	GGTCTCACGCTAGCATGAAGAGC	BBa_K2983011
Loop Beta-A	GCTCTTCAGCAAGGAGTGAGACC	BBa_K2983012
Loop F-Gamma	GGTCTCACGCTATACTGAAGAGC	BBa_K2983013
Loop Gamma-A	GCTCTTCATACAGGAGTGAGACC	BBa_K2983014
Loop F-Epsilon	GGTCTCACGCTACAGTGAAGAGC	BBa_K2983015
Loop Epsilon-A	GCTCTTCACAGAGGAGTGAGACC	BBa_K2983016
Loop F-Omega	GGTCTCACGCTAGGTTGAAGAGC	BBa_K2983017
Loop A-alpha	GGTCTCAGGAGAATGTGAAGAGC	BBa_K2983018
Loop Omega-B	GCTCTTCAGGTATACTTGAGACC	BBa_K2983019
Loop B-Alpha	GGTCTCATACTAATGTGAAGAGC	BBa_K2983020
Loop Omega-C	GCTCTTCAGGTAAATGTGAGACC	BBa_K2983021
Loop C-Alpha	GGTCTCAAATGAATGTGAAGAGC	BBa_K2983022
Loop Omega-E	GCTCTTCAGGTAGCTTTGAGACC	BBa_K2983023
Loop E-Alpha	GGTCTCAGCTTAATGTGAAGAGC	BBa_K2983024
Loop Omega-F	GCTCTTCAGGTACGCTTGAGACC	BBa_K2983025

The Loop assembly technique

@@ Line 129: / Line 129: @@
                          <tr>
                              <td>Loop Alpha-A</td>
-                             <td>GCTCTTCAATGAGGAGTGAGACC</td>
+                             <td><span class="text-primary">GCTCTTC</span>A<span class="text-primary">ATG</span>A<span class="text-danger">GGAG</span>T<span class="text-danger">GAGACC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/2/29/T--Evry_Paris-Saclay--Loop_Alpha-A.png"
                                      class="img-fluid" /></td>
@@ Line 136: / Line 136: @@
                          <tr>
                              <td>Loop F-Beta</td>
-                             <td>GGTCTCACGCTAGCATGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">CGCT</span>A<span class="text-primary">GCA</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/a/a4/T--Evry_Paris-Saclay--Loop_F-Beta.png"
                                      class="img-fluid" /></td>
@@ Line 143: / Line 143: @@
                          <tr>
                              <td>Loop Beta-A</td>
-                             <td>GCTCTTCAGCAAGGAGTGAGACC</td>
+                             <td><span class="text-primary">GCTCTTC</span>A<span class="text-primary">GCA</span>A<span class="text-danger">GGAG</span>T<span class="text-danger">GAGAC</span>C</td>
                              <td><img src="https://static.igem.org/mediawiki/2019/4/40/T--Evry_Paris-Saclay--Loop_Beta-A.png"
                                      class="img-fluid" /></td>
@@ Line 150: / Line 150: @@
                          <tr>
                              <td>Loop F-Gamma</td>
-                             <td>GGTCTCACGCTATACTGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">CGCT</span>A<span class="text-primary">TAC</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/5/50/T--Evry_Paris-Saclay--Loop_F-Gamma.png"
                                      class="img-fluid" /></td>
@@ Line 157: / Line 157: @@
                          <tr>
                              <td>Loop Gamma-A</td>
-                             <td>GCTCTTCATACAGGAGTGAGACC</td>
+                             <td><span class="text-danger">GCTCTTC</span>A<span class="text-danger">TAC</span>A<span class="text-danger">GGAG</span>T<span class="text-danger">GAGAC</span>C</td>
                              <td><img src="https://static.igem.org/mediawiki/2019/3/39/T--Evry_Paris-Saclay--Loop_Gamma-A.png"
                                      class="img-fluid" /></td>
@@ Line 164: / Line 164: @@
                          <tr>
                              <td>Loop F-Epsilon</td>
-                             <td>GGTCTCACGCTACAGTGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">CGCT</span>A<span class="text-primary">CAG</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/d/d2/T--Evry_Paris-Saclay--Loop_F-Epsilon.png"
                                      class="img-fluid" /></td>
@@ Line 171: / Line 171: @@
                          <tr>
                              <td>Loop Epsilon-A</td>
-                             <td>GCTCTTCACAGAGGAGTGAGACC</td>
+                             <td><span class="text-primary">GCTCTT</span>CA<span class="text-primary">CAG</span>A<span class="text-danger">GGAG</span>T<span class="text-danger">GAGACC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/b/b0/T--Evry_Paris-Saclay--Loop_Epsilon-A.png"
                                      class="img-fluid" /></td>
@@ Line 178: / Line 178: @@
                          <tr>
                              <td>Loop F-Omega</td>
-                             <td>GGTCTCACGCTAGGTTGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">CGCT</span>A<span class="text-primary">GGT</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/4/4b/T--Evry_Paris-Saclay--Loop_F-Omega.png"
                                      class="img-fluid" /></td>
@@ Line 185: / Line 185: @@
                          <tr>
                              <td>Loop A-alpha</td>
-                             <td>GGTCTCAGGAGAATGTGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">GGAG</span>A<span class="text-primary">ATG</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/8/80/T--Evry_Paris-Saclay--Loop_A-Alpha.png"
                                      class="img-fluid" /></td>
@@ Line 192: / Line 192: @@
                          <tr>
                              <td>Loop Omega-B</td>
-                             <td>GCTCTTCAGGTATACTTGAGACC</td>
+                             <td><span class="text-primary">GCTCTTC</span>A<span class="text-primary">GGT</span>A<span class="text-danger">TACT</span>T<span class="text-danger">GAGACC</span></td>
                              <td><img src="https://2019.igem.org/File:T--Evry_Paris-Saclay--Loop_Omega-B.png"
                                      class="img-fluid" /></td>
@@ Line 199: / Line 199: @@
                          <tr>
                              <td>Loop B-Alpha</td>
-                             <td>GGTCTCATACTAATGTGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">TACT</span>A<span class="text-primary">ATG</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/4/42/T--Evry_Paris-Saclay--Loop_B-Alpha.png"
                                      class="img-fluid" /></td>
@@ Line 206: / Line 206: @@
                          <tr>
                              <td>Loop Omega-C</td>
-                             <td>GCTCTTCAGGTAAATGTGAGACC</td>
+                             <td><span class="text-primary">GCTCTTC</span>A<span class="text-primary">GGT</span>A<span class="text-danger">AATG</span>T<span class="text-danger">GAGACC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/6/62/T--Evry_Paris-Saclay--Loop_Omega-C.png"
                                      class="img-fluid" /></td>
@@ Line 213: / Line 213: @@
                          <tr>
                              <td>Loop C-Alpha</td>
-                             <td>GGTCTCAAATGAATGTGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">AATG</span>A<span class="text-primary">ATG</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/8/8e/T--Evry_Paris-Saclay--Loop_C-Alpha.png"
                                      class="img-fluid" /></td>
@@ Line 220: / Line 220: @@
                          <tr>
                              <td>Loop Omega-E</td>
-                             <td>GCTCTTCAGGTAGCTTTGAGACC</td>
+                             <td><span class="text-primary">GCTCTTC</span>A<span class="text-primary">GGT</span>A<span class="text-danger">GCTT</span>T<span class="text-danger">GAGACC</span></td>
                              <td><img src="https://2019.igem.org/File:T--Evry_Paris-Saclay--Loop_Omega-E.png"
                                      class="img-fluid" /></td>
@@ Line 227: / Line 227: @@
                          <tr>
                              <td>Loop E-Alpha </td>
-                             <td>GGTCTCAGCTTAATGTGAAGAGC</td>
+                             <td><span class="text-danger">GGTCTC</span>A<span class="text-danger">GCTT</span>A<span class="text-primary">ATG</span>T<span class="text-primary">GAAGAGC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/9/9d/T--Evry_Paris-Saclay--Loop_E-Alpha.png"
                                      class="img-fluid" /></td>
@@ Line 234: / Line 234: @@
                          <tr>
                              <td>Loop Omega-F</td>
-                             <td>GCTCTTCAGGTACGCTTGAGACC</td>
+                             <td><span class="text-primary">GCTCTTC</span>A<span class="text-primary">GGT</span>A<span class="text-danger">CGCT</span>T<span class="text-danger">GAGACC</span></td>
                              <td><img src="https://static.igem.org/mediawiki/2019/8/8f/T--Evry_Paris-Saclay--Loop_Omega-F.png"
                                      class="img-fluid" /></td>

Difference between revisions of "Team:Evry Paris-Saclay/Design"

Revision as of 23:05, 18 October 2019

Abstract

Overview

A Type IIS RFC[10] Loop assembly system for Yarrowia lipolytica

The Loop assembly technique

Conclusions

References

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