Product Class: Kit

K. lactis Protein Expression Kit

We are excited to announce that all reaction buffers are now BSA-free. NEB began switching our BSA-containing reaction buffers in April 2021 to buffers containing Recombinant Albumin (rAlbumin) for restriction enzymes and some DNA modifying enzymes. Find more details at www.neb.com/BSA-free.

Product Introduction

The K. lactis Protein Expression Kit provides an easy method for expressing a gene of interest in the yeast Kluyveromyces lactis. Proteins may be produced intracellularly or secreted using an integrative expression vector (pKLAC2). To achieve protein secretion, a gene of interest is cloned downstream of the K. lactis α-mating factor secretion domain, which is eventually processed in the Golgi and results in secretion of the desired protein.

  • Supplied with competent K. lactis cells (NEB# C1001)
  • Allows cloning and expression of genes toxic to E. coli
  • Rapid high cell density growth results in high yield protein expression 
  • Easy-to-use protocols for those inexperienced with yeast systems
  • No expensive antibiotics or methanol required
  • Attractive commercial sub-licensing
Catalog # Size Concentration
E1000S 1.0 set

Product Information

Description

Highlights

  The K. lactis Expression Kit provides an easy method for expressing a gene of interest in the yeast Kluyveromyces lactis (Figure 1). Proteins may be produced intracellularly or be secreted using the supplied integrative expression vector pKLAC2 (Figure 3). To achieve protein secretion, a gene of interest is cloned downstream of the K. lactis α-mating factor secretion domain (α-MF; Figure 4) which is eventually processed in the Golgi resulting in secretion of the desired protein (Figure 1).

The K. lactis expression system offers several advantages over other yeast and bacterial protein expression systems. First, K. lactis has been used to produce proteins at industrial scale in the food industry for over a decade due to its ability to rapidly achieve high culture densities and abundantly produce recombinant proteins (Figure 2). Second, yeast expression is driven by a variant of the strong LAC4 promoter that has been modified to lack background expression in E. coli (1). Therefore, genes toxic to E. coli can be cloned into pKLAC2 in bacteria prior to their expression in yeast. Third, the kit includes highly competent K. lactis cells making the technology easy-to-use for those not accustomed to working with yeast. Their high transformation efficiency makes the system suitable for methods that require large numbers of transformants, for example, expression cloning using cDNA libraries. Selection of yeast transformants uses a unique antibiotic-free method in which acetamidase (amdS) expressed from pKLAC2 permits transformed cells to utilize acetamide as a sole nitrogen source on defined medium. Acetamide selection promotes formation of cells containing multiple integrations of pKLAC2 which results in higher yields of protein. Finally, proteins expressed in K. lactis have access to eukaryotic protein folding and glycosylation machinery that E. coli cells do not possess, making it an important alternative to bacterial expression systems.

Figure 1: Figure 1

Secreted protein processing. In the nucleus, an integrated expression vector encoding a fusion between the α-MF domain (blue) and a desired protein (black) is expressed. A signal peptide in the α-MF domain directs entry of the fusion protein into the endoplasmic reticulum (ER) and is removed by signal peptidase (SP). The fusion protein is transported to the Golgi where the Kex protease removes the α-MF domain. The protein of interest is then secreted from the cell.
Figure 2: Figure 2

SDS-polyacrylamide gel electrophoresis separation of secreted recombinant maltose binding protein (MBP) and detection by Coomassie staining. Lane 1: Protein Molecular Weight Markers. Lane 2: spent culture medium (15 µl) from wild-type K. lactis cells. Lane 3: spent culture medium (15 µl) from K. lactis cells harboring an integrated expression cassette containing the E. coli malE gene.

Figure 3: Figure 3
The pKLAC2 expression vector. pKLAC2 (9107 bp) contains the 5´ and 3´ ends of the LAC4 promoter (PLAC4-PBI) separated by DNA encoding β-lactamase (ApR) and the pMB1 origin (ori) to allow for its propagation in E. coli. The K. lactis α-mating factor secretion leader sequence (α-MF), multiple cloning site (MCS), and the LAC4 transcription terminator (TT) lie immediately downstream of 3´ PLAC4-PBI. The yeast ADH1 promoter (PADH1) drives expression of an acetamidase selectable marker gene (amdS). The vector can be linearized by digestion with SacII or BstXI to create a linear DNA fragment capable of inserting into the native LAC4 promoter region of the K. lactis genome.


Figure 4:
Figure 4
 pKLAC2 (9107 bp) contains the K. lactis a-mating factor secretion leader sequence (blue background) and a polylinker immediately downstream of the PLAC4-PBI promoter. Unique polylinker restriction sites are indicated. Arrows indicate the positions of pKLAC-series vector-specific sequencing primers that you can have synthesized to confirm your target gene is properly cloned.
This product is related to the following categories:
Protein Expression in Yeast Products,
Protein Expression Products,
This product can be used in the following applications:
Protein Expression in Yeast ,
Protein Expression

Kit Components

Kit Components

The following reagents are supplied with this product:

NEB # Component Name Component # Stored at (°C) Amount Concentration
  • E1000S     Multi-temperature    

Properties & Usage

Shipping Notes

  • Ships on dry ice

Features

  • High level and scalable expression of recombinant proteins
  • Rapid high cell density growth
  • Simultaneous expression of multiple proteins possible
  • No background gene expression during E.coli cloning steps
  • Easy and fast cell transformation procedure
  • Antibiotic-free selection

Product Notes

  1. NEB 5-alpha Competent E. coli (High Efficiency) (NEB #C2987), NEB 5-alpha Electrocompetent E. coli (NEB #C2989) and NEB 5-alpha Competent E. coli (Subcloning Efficiency) (NEB #C2988) are all recommended for propagation and subcloning pKLAC1 control plasmid and pKLAC2 vector.

References

  1. Colussi, P.A. and Taron, C.H. (2005). Appl. Environ. Microbiol.. 71,
  2. Looke, M. et. al (2011). Biotechniques. 50, 325-328.
  3. van Ooyen, A.J.J.et al. (2006). FEMS Yeast Research . 6, 381-392.
  4. Spohner, S.C. et.al (2016). J Biotechnol. 222, 104-116.
  5. Chuzel, L., Ganatra M.B. et. al (2017). Genome Announc. 5, e00623-17.
  6. Read, J.D.et al. (2007). Appl. Environ. Microbiol.. 73, 5088-5096.
  7. Platko, J.D.et al. (2008). Protein Expr. Purif.. 57, 57-62.
  8. Ekborg, N.A.et al. (2007). Appl. Environ. Microbiol.. 73, 7758-7788.
  9. Foster, J.M. et. al (2008). Parasitol Res.. 104(5), 1047.
  10. Vainauskas, S., Taron, C.H. (2016). New England Biolabs Application Note.

Protocols, Manuals & Usage

Protocols

  1. Protein expression using the K. lactis Protein Expression Kit - Linearization of pKLAC2 for integrative transformation of K. lactis.
  2. Protein Expression using the K. lactis Protein Expression Kit - Identification of Multi-copy Integrants
  3. Protein Expression using the K. lactis Protein Expression Kit - Identification of properly integrated cells
  4. Protein Expression using the K. lactis Protein Expression Kit - Simultaneous Expression of Multiple Proteins
  5. Protein expression using the K. lactis Protein Expression Kit - Cloning a PCR fragment into pKLAC2 (E1000).
  6. Protein Expression using the K. lactis Protein Expression Kit - Growth of strains for detection of secreted protein
  7. Protein Expression using the K. lactis Protein Expression Kit - Transformation of K. lactis GG799 cells

Manuals

The Product Manual includes details for how to use the product, as well as details of its formulation and quality controls.

Application Notes

Tools & Resources

Selection Charts

FAQs & Troubleshooting

FAQs

  1. What systems does NEB offer for protein expression and purification?
  2. I received my kit and don’t see any competent cells or transformation reagent. Where are they?
  3. I’ve expressed my protein, now how do I purify it?
  4. I’ve noticed untransformed K. lactis will grow when streaked on the selection media. Is the selection not working?
  5. Where can I find more detailed FAQs for the K. lactis Protein Expression Kit?
  6. Can you tell me more about the switch from BSA to Recombinant Albumin (rAlbumin) in NEBuffers?

Tech Tips

NEBuilder HiFi DNA Assembly Cloning Kit (NEB #E5520) or the Gibson Assembly Cloning Kit (NEB #E5510) are excellent ways to assemble a linear yeast expression cassette. (See "Improved method for assembly of linear yeast expression cassettes using NEBuilder® HiFi DNA Assembly Master Mix" in the Application Notes section under the Other Tools and Resources tab)

Quality, Safety & Legal

Quality Assurance Statement

Quality Control tests are performed on each new lot of NEB product to meet the specifications designated for it. Specifications and individual lot data from the tests that are performed for this particular product can be found and downloaded on the Product Specification Sheet, Certificate of Analysis, data card or product manual. Further information regarding NEB product quality can be found here.

Specifications

The Specification sheet is a document that includes the storage temperature, shelf life and the specifications designated for the product. The following file naming structure is used to name these document files: [Product Number]_[Size]_[Version]

Certificate Of Analysis

The Certificate of Analysis (COA) is a signed document that includes the storage temperature, expiration date and quality controls for an individual lot. The following file naming structure is used to name these document files: [Product Number]_[Size]_[Version]_[Lot Number]

Safety DataSheets

The following is a list of Safety Data Sheet (SDS) that apply to this product to help you use it safely.

Legal and Disclaimers

Products and content are covered by one or more patents, trademarks and/or copyrights owned or controlled by New England Biolabs, Inc (NEB). The use of trademark symbols does not necessarily indicate that the name is trademarked in the country where it is being read; it indicates where the content was originally developed. The use of this product may require the buyer to obtain additional third-party intellectual property rights for certain applications. For more information, please email [email protected].

This product is intended for research purposes only. This product is not intended to be used for therapeutic or diagnostic purposes in humans or animals.

New England Biolabs (NEB) is committed to practicing ethical science – we believe it is our job as researchers to ask the important questions that when answered will help preserve our quality of life and the world that we live in. However, this research should always be done in safe and ethical manner. Learn more.

Licenses

Notice to Buyer/User: The K. lactis Protein Expression Kit was developed from basic research at New England Biolabs, Inc. and DSM Biologics Company B.V. The buyer and user has a non-exclusive sublicense to use this system or any component thereof, including the K. lactis GG799 Competent Cells, for RESEARCH PURPOSES ONLY. A license to use this system for manufacture of clinical grade material or commercial purposes is available from New England Biolabs, Inc., or DSM Biologics Company B.V.