gBlocks™ and gBlocks HiFi Gene Fragments

gBlocks Gene Fragments are not clonal products and are synthesized using both chemical and enzymatic steps, so there will be a subpopulation in the tube with truncations, deletions, or mutations.

Fortunately, the large majority of sequences should be correct, so by sequencing a few more colonies you should find a correct clone.

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The most common source of this issue is an incomplete resuspension of your gBlocks Gene Fragment. The pellets can stick to the side or cap of the tube, and unless you vortex vigorously and incubate the tube at 50°C for 20 minutes, you might not have the DNA concentration you expect. We recommend the following:

1. Vortex your tube, and incubate at 50°C for 20 minutes.
2. Vortex vigorously again and spin the tube down.
3. Recheck the concentration of your solution. (In general, it is always a good idea to recheck your concentration after you resuspend a DNA sample.)

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In most cases, our system has found a region with either very high G/C content or several small repeats that would prevent us from synthesizing your sequence.

If your sequence contains a coding region, you can use codon optimization to reduce the complexity. Codon optimization uses synonymous codons to retain the final amino acid sequence that is expressed while generating a sequence that we can synthesize.

If your sequence is not a coding region, we might be able to synthesize the sequence as a custom gene, which is delivered in a basic pUC vector, rather than just a linear, dsDNA fragment. For assistance, send your sequences and any questions to genes@idtdna.com.

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We do not recommend using PCR to add the overhangs, because PCR can preferentially amplify smaller byproducts in the prep, leading to issues with the cloning reaction and increasing the number of colonies you need to screen to find the correct full-length insert. Instead, build the overhangs into the gBlocks Gene Fragment itself. The amount of material you will receive is enough for a couple of assembly reactions.

The additional PCR step is not required to generate additional material and adds an additional enzymatic step to the protocol that can introduce errors.

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IDT ships gBlocks HiFi Gene Fragments (IDT) dry unless otherwise requested. While dry, they should be stable almost indefinitely.

After resuspending in a high-quality, molecular-grade water or buffer, pH 7.5–8.0, you should store the DNA at       –20°C and if necessary, aliquot to avoid more than 2 or 3 freeze-thaw cycles. Adding a carrier to your resuspension and dilution buffers can help prevent any potential decrease in product concentration.

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gBlocks HiFi Gene Fragments are clonal products and can be amplified if necessary. However, most applications such as restriction-digest, blunt-end, and Gibson cloning can be performed with the material provided by IDT, and PCR amplification should not be necessary.

If the purpose of the amplification is to add flanking bases to complete a cloning reaction, we strongly recommend ordering the gBlocks HiFi Gene Fragment (IDT) with the required bases rather than adding them afterwards using PCR. 

If you choose to amplify your gBlocks HiFi Gene Fragment, use the minimum amount of starting template required by your PCR kit protocol, limit the cycle number to 10–12, and use a high-fidelity polymerase.

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Cloning of gBlocks HiFi Gene Fragments is similar to cloning a very pure PCR product. For restriction cloning, it is important to add 6–8 nt at the ends of the fragment, beyond the restriction recognition sequence.

Most restriction enzymes will not cut efficiently, or at all, if the fragment terminates precisely at the restriction site.

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We currently only offer gBlocks™ HiFi Gene Fragments between 1000–3000 bp.

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The combination of speed, cost, and purity make gBlocks™ Gene Fragments an ideal solution for most applications, but in some applications, such as the assembly of larger constructs, starting with a fragment with a lower error rate may significantly reduce costs.

gBlocks HiFi Gene Fragments use a proprietary manufacturing technique that can generate double-stranded DNA fragments with average error rates of 1:12,000, which is approximately 2.5–4x fewer errors than other commercially available gene fragments.

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IDT can synthesize gBlocks Gene Fragments between 125 bp and 3 kb in length.

However, if you require a double-stranded DNA construct outside of this size range, we offer 2 options:

1. We may be able to accept the sequence for synthesis as a custom gene.
2. Our support scientists can assist in splitting larger sequences into multiple gBlocks Gene Fragments that can be used in an assembly reaction to generate the full-length construct.

If you are interested in a custom gene quote or assistance in splitting your sequence into sub-fragments, please email your sequences to genes@idtdna.com.

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We do not recommend amplifying gBlocks Gene Fragments >1 kb in length.

gBlocks Gene Fragments are synthesized from several smaller overlapping fragments. The final prep may contain some of these smaller byproducts. During PCR, smaller products are more efficiently amplified than longer ones, and at the exponential phase of PCR, smaller products in the reaction will overwhelm the generation of the full-length correct product. When run on the gel, these amplification products appear as a smear or smaller bands than expected.

Most applications such as restriction digest, blunt end, and seamless cloning can be performed with the material provided by IDT, and PCR amplification should not be necessary. If the purpose of the amplification is to add flanking bases to complete a cloning reaction, we strongly recommend ordering the gBlocks Gene Fragment with the required bases rather than adding them afterwards using PCR.

If you must amplify your gBlocks Gene Fragment, use the minimum amount of starting template required by your PCR kit protocol, limit the cycle number to 10–12, and use a high-fidelity polymerase.

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Synthesis time depends on the length of the gBlocks fragment.

Length of gBlocks Gene Fragment	Time to ship after order confirmation (business days)
Up to 750 bp	2–4
751–1000 bp	3–5
More than 1000 bp	5–8

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Here is a comparison of gBlocks and eBlocks Gene Fragments:

	gBlocks Gene Fragments	eBlocks Gene Fragments
Double-stranded DNA	✓	✓
Stringent QC process • Median error rate • Synthesis & assembly	1:5000 May rework to meet QC standards	1:5000 No rework†
Format	Plates or tubes	Plate
Length	125–3000 bp	300–1500 bp

† Any eBlocks Gene Fragment that does not meet QC standards after the first attempt will be cancelled and refunded.

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IDT ships gBlocks Gene Fragments dry unless otherwise requested. While dry, they should be stable up to two years.

After resuspending in a high-quality, molecular-grade water or buffer, pH 7.5–8.0, you should store the DNA at –20°C and if necessary, aliquot to avoid more than 2 or 3 freeze-thaw cycles.

For gBlocks Gene Fragments at concentrations lower than 1 ng/µL, we recommend resuspending in water or buffer containing 0.1–1.0 mg/mL tRNA (Sigma) or poly A (Sigma). Use this same buffer + carrier solution for subsequent dilutions. Without the carrier, we have observed a steady decrease in measured concentrations of these dilute solutions, even in low-bind tubes. This may be caused by the very high purity of the gBlocks Gene Fragment prep. Because gBlocks Gene fragments are completely synthetic, they lack the normal cellular debris found in DNA isolated from natural sources.

Without these natural carriers, the gBlocks Gene Fragments bind irreversibly to the tube plastic over time, leading to the observed decrease in concentration. Adding a carrier to your resuspension and dilution buffers can help prevent this loss of product.

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Incorporating 6 NNK codons corresponds to about 1 billion possible combinations, and 18 N mixed bases will create a pool with 68.7 billion different gene fragments. As the number of variable bases increases, the number of molecules representing a particular sequence decreases.

We decided to limit variable regions to 18 mixed bases to give customers the best overall pool of library constructs. Since most functional screens cover 1,000–100,000 recombinant colonies, allowing 18 mixed bases should be adequate for producing meaningful results.

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Sequences that cause problems for gBlocks Gene Fragment synthesis are those having extremely low or high GC content (less than 25% and greater than 75%), homopolymeric runs of 10 or more As and Ts or 6 or more Gs and Cs. Other structural motifs such as repeats or hairpins may also influence our ability to construct gBlocks Gene Fragments. The decision to accept or reject an order for a particular gBlocks Gene Fragment sequence is complex and multifactorial.

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The constant regions are gBlocks Gene Fragments and undergo size verification by capillary electrophoresis and sequence verification by mass spectrometry.

The variable regions cannot currently receive complete analysis (using NGS, which would be needed for this analysis, would be cost prohibitive). We rely on a validated process that we have experimentally confirmed by NGS that ensures >80% of DNA species are present in the final material shipped.

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We are working hard at offering more complex libraries in the future.

Help us prioritize by sharing what you need from us in as much detail as possible (i.e., show us sequences including mixed bases, annotations, drawings, etc.).

You can send your requests to genes@idtdna.com.

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Amino acids are represented by 1–4 codons that are defined by the genetic code. NNK codons are commonly used in screens for codon substitutions to reduce the presence of some codon-rich amino acids, thereby reducing their overrepresentation in a particular library.

Additionally, using NNK codons removes 2 out of 3 possible stop codons, which also limits the number of sequences in a library that produce unwanted truncated gene products.

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Adding the 5′ phosphate modification to gBlocks Gene Fragments is unnecessary for most applications. The 5′ phosphate is required for traditional blunt-end cloning.

Do not add 5′ phosphate for Zero Blunt TOPO^® cloning (check manufacturer information).

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