GeneArt™ pYES1L Vector with Sapphire™ Technology

Name: GeneArt™ pYES1L Vector with Sapphire™ Technology
SKU: A13287
Price: 455.00 USD

GeneArt™ pYES1L Vector with Sapphire Technology™ is a ready-to-use, 9.3 Kb linearized BAC⁄YAC shuttle vector, used for the assembly ofRead more

Catalog number A13287

Price (USD)

455.00

Each

Add to cart

Price (USD)

455.00

Each

Add to cart

GeneArt™ pYES1L Vector with Sapphire Technology™ is a ready-to-use, 9.3 Kb linearized BAC⁄YAC shuttle vector, used for the assembly of DNA fragments with the GeneArt™ High-Order Genetic Assembly System (cat#A13285 & A13286). The vector has the capacity to clone up to 110 Kb of DNA fragments. This product only includes the linearized GeneArt™ pYES1L Vector with Sapphire Technology™.

Some of the key features and elements of the GeneArt™ pYES1L Vector with Sapphire Technology™ include:
• TRP1 to allow selection of yeast transformants in tryptophan-deficient medium
• ARS⁄CEN origin to allow stable maintenance of the construct in yeast
• F’ for conjugation
• oriT for maintenance of large constructs in E.coli
• Spectinomycin resistance for selection in E.coli
• 6 Convenient and validated restriction sites flanking the cloning region

For Research Use Only. Not for use in diagnostic procedures.

Specifications

Antibiotic Resistance BacterialSpectinomycin

Cloning MethodSeamless Cloning

Sample TypeDNA

For Use With (Application)Cloning

Number of FragmentsUp to 10 Fragments

Product LineGeneArt™

Quantity10 Reactions

Replication OriginARS⁄CEN, oriT

Selection Marker EukaryoticTRP1

Shipping ConditionDry Ice

Size110 kb total (vector plus all inserts)

VectorpYES1L Linearized

Unit SizeEach

Contents & Storage

The product contains 3 vials of linear GeneArt pYES1L Vector with Sapphire Technology at a concentration of 50 ng/mL. Vials contain enough plasmid for 10 cloning reactions using the GeneArt High-Order Genetic Assembly System (needs to be purchased separately).

Store the product at -80°C.

The vector is guaranteed stable for 6 months when properly stored.

Frequently asked questions (FAQs)

With the GeneArt High-Order Genetic Assembly System, I'm getting no positive colonies detected by yeast colony PCR. Can you please offer some troubleshooting tips?

We would recommend trying to re-streak the colony on a fresh plate and repeat colony PCR. Do not break open the yeast cells with the beads supplied with the kit; the beads are for transformation into E. coli. Additionally, use less than 0.5 µL of diluted yeast lysate in a 50 µL PCR reaction.

With the GeneArt High-Order Genetic Assembly System, I see small or no yeast colonies after transformation. Can you please offer some suggestions?

Ensure that yeast transformations are incubated at 30 degrees C for 3 days for proper colony formation.

With the GeneArt High-Order Genetic Assembly System, I did not get any yeast colonies after transformation and the transformation control did not work. Can you please offer some suggestions?

Please review the following suggestions:
– Perform transformation exactly as described in protocol.
– Do not freeze-thaw or vortex MaV203 yeast competent cells.
– Use CSM-Trp agar plates for the transformation.
– For best results, use fresh DMSO from an unopened bottle. You may use DMSO stored at -20 degrees C.

I want to use my own E. coli vector for my assembly. Can I do this? How?

Yes, you should be able to adapt your E. coli vector into a yeast-compatible cloning vector using the GeneArt High-Order Vector Conversion Cassette (Cat. No. A13291) for use with the GeneArt High-Order Genetic Assembly System with the following provisions:
– Start by using the DNA Oligo Designer web tool, and verify that your vector and the GeneArt High-Order Vector Conversion Cassette do not share internal homology to prevent potential re-arrangements when using your adapted vector with the GeneArt High-Order Genetic Assembly System.
– Use a vector with a single- or low-copy-number origin for a final construct of >15 kb, if the final plasmid construct will be transferred into E. coli. Usually, low-copy-number E. coli vectors have significantly higher capacity than high-copy number vectors.
– Avoid chloramphenicol selection markers on the custom vector since this is the marker on the cassette.
– After ligation (1:10 vector: insert ratio recommended), transform competent E. coli cells with the ligation mixture and plate on double selection LB plates (chloramphenicol plus the antibiotic marker on your custom vector backbone).To linearize your yeast-adapted cloning vector for multi-fragment assembly, a double-digestion is required to avoid background caused by residual palindromic end sequences resulting from a single enzyme digestion.

With the GeneArt High-Order Genetic Assembly System, what are the requirements for stitching oligonucleotides used for insertion editing versus deletion editing?

Stitching oligonucleotides used for insertion editing must have a 30-nucleotide overlap with each adjacent fragment in addition to the insertion bases (for a total length of up to 80-mer, including up to 20 insertion bases). See manual for diagram. Note: This applies for a 2-fragment assembly and the insertion applies only to the internal junction. Use a 40-bp overlap (i.e., an 80-mer oligonucleotide) for the remaining seamless junctions.

Stitching oligonucleotides used for deletion editing must have a 40-nucleotide overlap with each adjacent fragment, annealing up to 6 nucleotides from the junction into each fragment, thus leaving up to 6 bp at the end of each fragment to be deleted during transformation-associated recombination. See manual for diagram. Note: This applies for a 2-fragment assembly and the deletion applies only to the internal junction. Use a 40-bp overlap (i.e., an 80-mer oligonucleotide) for the remaining seamless junctions.

View all GeneArt™ pYES1L Vector with Sapphire™ Technology FAQs