Revision as of 15:51, 9 October 2021

weird_plex, MocloMania expression vector

This basic part codes for weird_plex, the heart and soul of our MocloMania collection. It is a plasmid that acts both as a L1 destination vector for Modular Cloning assembly of basic parts and as an expression vector for recombinant protein expression in Leishmania tarentolae. In order to meet both of these demands, weird_plex is equipped with a very special set of features.</p>

Its sequence is based on the commercially available Leishmania expression vector pLEXSY_I-blecherry3 distributed by german biotech company Jena Bioscience in their LEXSinduce3 Expression Kit.^[1] pLEXSY_I-blecherry3 is an integrative expression vector, meaning that the introduced target gene sequences are integrated into the Leihsmania genome after cell transfection. The sequences of interest can be introduced into the vector with the help of a multiple cloning site that is controlled by a T7 promoter. Together with a constitutively expressed T7 polymerase, this mediates strong target gene expression. Furthermore, the T7 promotor is regulated by a tet operator. Together with the constitutively expressed tet repressor, this operon allows for inducible expression of the target genes via tetracycline for inducible cytosolic or secretory protein expression <p>In order to make pLEXSY_I-blecherry3 suitable for our Modular Cloning approach, we first had to This basic part codes for weird_plex, the heart and soul of our MocloMania collection. This plasmid acts both as a L1 destination vector for Modular Cloning assembly of basic parts and as an expression vector for recombinant protein expression in Leishmania tarentolae. In order to meet both of these demands, weird_plex is equipped with a very special set of features.

Its sequence is based on the commercially available Leishmania expression vector pLEXSY_I-blecherry3 distributed by german biotech company Jena Bioscience in their LEXSinduce3 Expression Kit.[1] Jena Bioscience has specialized on selling Leishmania-adapted expression kits that facilitate recombinant gene expression in the protozoan expression host. The pLEXSY_I-blecherry3 plasmid is an integrative expression vector, meaning that the introduced target gene sequences are integrated into the Leishmania genome after cell transfection. Genes of interest are introduced into the vector with the help of two multiple cloning site . This insertion region is controlled by a T7 promoter, a DNA sequence that is specifically bound by the constitutively expressed T7 RNA polymerase. T7 polymerase is an E. Coli phage derived polymerase that, together with its promoter, mediates strong gene expression. ^[2] Another cool feature of the pLEXSY_I-blecherry3 plasmid is its inducible gene expression. This is achieved by a downstream tet operator which is part of a tetracycline-controlled activation system commonly found in eukaryotic expression hosts. ^[3] Together with the constitutively expressed tet repressor, this operon suppresses binding of the T7 polymerase, but can easily be de-activated by the addition of tetracycline to the culture medium.

Furthermore, the pLEXSY_I-blecherry3 plasmid contains a bleomycin resistance that, after addition of bleomycin to the culture medium, acts as an important selection marker for screening of successfully transfected cells. The resistance coding gene is directly fused to an mCherry coding gene. Since both these genes are located downstream of the insertion region and thus under control of the T7 promoter, the production of mCherry correlates with the production of target protein. Monitoring mCherry fluorescence can thus be used to determine successful induction and productive target gene expression.^[4]

Additional to these genetic optimizations towards expression in Leishmania, pLEXSY_I-blecherry3 also contains an E. Coli expression cassette that consists of an ampicillin resistance gene as well as a high copy number E. Coli origin of replication. These allow for the insert-carrying vector to be transformed and amplified in E. Coli which is important because transfection success relies on the input of sufficient DNA amounts.

In order to make the pLEXSY_I-blecherry3 vector suitable for our Modular Cloning approach, it first had to be domesticated towards our cloning system. This was done by elimination of three endogenous BsaI restriction sites via the introduction of single point mutations. Furthermore, the multiple cloning sites were used to introduce a LacZ-alpha gene cassette into the vector backbone. When transformed with a LacZ-omega carrying E. Coli strain and grown on IPTG/Xgal agar plates, this will result in blue appearing colonies. ^[5]. Not only does this make the vector accessible to blue-white screening, it also allowed for new BsaI restriction sites to be introduced into the plasmid, flanking either end of the lacZ-alpha gene in inverted orientation. These restriction sites take on the function of the multiple cloning sites in classical cloning, enabling the insertion of L1 MoClo constructs into the vector and simultaneously replacing the lacZ-alpha fragment. These domestication steps turned pLEXSY_I-blecherry3 into weird_plex, a jack of two trades. All basic parts within our MocloMania collection can be assembled into cohesive L1 constructs and introduced into weird_plex in one single ligation reaction. Within the vector, their expression is controlled by the strong P7 promoter and they are ready for transfection into Leishmania.

level 1

size 7710 bp

antibiotic resistance ampicillin, bleomycin

cloning positions B2-B5

Data

The MocloMania collection

This plasmid backbone is an extention to the MocloMania collection, the very first collection of genetic parts specifically designed and optimized for Modular Cloning assembly and recombinant protein expression in the protozoan parasite Leishmania tarentolae.

Are you trying to express complexly glycosylated proteins? Large antibody side chains? Human proteins that require accurate post-translational modification? Then Leishmania might be just the right organism for you! Leishmania tarentolae’s glycosylation patterns resemble those of human cells more closely than any other microbial expression host, while still delivering all the benefits of microbial production systems like easy transfection and cultivation.^[6] So instead of relying on mammalian cell lines, try considering Leishmania as your new expression host of choice!

Our MocloMania collection will allow you to easily modify your protein of choice and make it suitable for downstream detection and purification procedures - all thanks to the help of Modular Cloning. This cloning system was first established by Weber et al. in 2011 and relies on the ability of type IIS restriction enzymes to cut DNA outside of their recognition sequence, hereby generating four nucleotide overhangs.^[7] Every basic part in our collection is equipped with a specified set of overhangs that assign it to its designated position within the reading frame. These so-called cloning positions are labelled B2-B5 from upstream to downstream. By filling all positions with the basic parts of your choice, you can easily generate variable genetic constructs that code for the fusion protein of your desire.

We furthermore provide a specifically domesticated Leishmania expression vector, named weird_plex, which will package your fusion construct into a functional transcriptional unit that is optimized for high expression in Leishmania.

The best part? Because of the type IIS restriction properties and the specifity of the generated overhangs, restriction and ligation of your construct can all happen simultaneously in a simple one-step, one-pot reaction. This will safe you a lot of time and frustration in your cloning endeavours!

Do we have your attention? In the table below you can find some basic information on how our cloning system, along with most other MoClo systems, is set up. Please feel free to also check out our wiki to find more information on Leishmania and Modular Cloning as well as to understand how the part that you are looking at integrates into our part collection. See you there!

Reference Literature

1. ↑ https://www.jenabioscience.com/lexsy-expression/lexsy-configurations/inducible-genome-integrated/ege-1410blecherry-inducible-lexsy-expression-kit
2. ↑ McAllister WT. Structure and function of the bacteriophage T7 RNA polymerase (or, the virtues of simplicity). Cell Mol Biol Res. 1993;39(4):385-91. PMID: 8312975.
3. ↑ M Gossen, H Bujard Tight control of gene expression in mammalian cells by tetracycline-responsive promoters. Proceedings of the National Academy of Sciences Jun 1992, 89 (12) 5547-5551; DOI: 10.1073/pnas.89.12.5547
4. ↑ EGE-1410 opt1-1 (jenabioscience.com)
5. ↑ Welch Jessica, 2015, https://blog.addgene.org/plasmids-101-blue-white-screening
6. ↑ Langer T, Corvey C, Kroll K, Boscheinen O, Wendrich T, Dittrich W. Expression and purification of the extracellular domains of human glycoprotein VI (GPVI) and the receptor for advanced glycation end products (RAGE) from Rattus norvegicus in Leishmania tarentolae. Prep Biochem Biotechnol. 2017 Nov 26;47(10):1008-1015. doi: 10.1080/10826068.2017.1365252. Epub 2017 Aug 31. PMID: 28857681.
7. ↑ Weber E, Engler C, Gruetzner R, Werner S, Marillonnet S (2011) A Modular Cloning System for Standardized Assembly of Multigene Constructs. PLoS ONE 6(2): e16765. https://doi.org/10.1371/journal.pone.0016765