Propargyl-PEG8-alcohol

• HiDi® stands for High Discrimination of mismatches at the 3’-terminus of primers in PCR. This myPOLS Biotec enzyme family is optimized for this feature and is the first choice for applications that rely on this property such as allele-specific PCR (asPCR) that is also termed allele-specific amplification (ASA).This polymerase is also available as a full-length Taq DNA polymerase with a nuclease domain, featuring 100% compatibility with hydrolysis probes (TaqMan® probes etc.).Benchmarking with products of competitors conducted by us and others show that the HiDi® DNA polymerase family is the first choice for highly selective PCRs, such as genotyping by allele-specific PCR, HLA genotyping, analysis of single CpG methylation sites or the detection of mutations in a high background of wild-type sequences. By using HiDi® DNA polymerase, less than 10 copies of a mutation can be detected in a background of >10.000 wild-type copies straight away without any other tedious assay optimization.Several independently conducted studies show that HiDi® DNA polymerase is ideally suited for use in asPCR in numerous research areas ranging from mutation detection to genome editing. (read more)
  For research use and further manufacturing.In case you are aiming to use our RUO products as components or for your development of e.g. an IVD medical device, please contact us.

HiDi is available as:

HiDi® DNA Polymerase (>>)
HiDi® Taq DNA Polymerase (>>)
HiDi® 2x PCR Master Mix (>>)
HiDi® Taq 2x PCR Master Mix (>>)

Casestudies:
HiDi® DNA Polymerase: Applications from mutation detection to genome editing (read more)

Example Primer Design

Matching vs. mismatching nucleotide is placed at the 3′-end of the primer for best discrimination results.

Example Results – There´s no accounting for taste

Cilantro: some people love it in their food, some hate it. Here we are detecting a genomic SNP (rs72921001) in HeLa genomic DNA. This SNP is reported to be close to a number of genes coding for olfactory receptors. (Reference: Eriksson N. et al. (2012), “A genetic variant near olfactory receptor genes influences cilantro preference.”)

Considering, that only the C-allele specific primer is extended and yielding in a specific amplicon, we can conclude a genetic predisposition in disliking cilantro, as this SNP is significantly associated with detecting a soapy taste to cilantro.  

Allele-specific PCRs were performed from 1 ng/µl of HeLa gDNA in the presence of a realtime dye, indicating the amplification of the C-allele specific primer only. The A-allele specific primer is discriminated, thus not amplified up to 50 cycles.

PCR products were subsequently analysed on a 2.5% agarose gel. Specific product is visualized by ethidium bromide staining at the amplicon length of 109 bp.

HiDi® stands for High Discrimination of mismatches at the 3’-terminus of primers in PCR. This myPOLS Biotec enzyme family is optimized for this feature and is the first choice for applications that rely on this property such as allele-specific PCR (asPCR) that is also termed allele-specific amplification (ASA).

Description

30nm Colloidal Gold for Lateral Flow is a highly stable and uniform 30 nm gold nanoparticles can be supplied in a range from 1 OD to 100 OD. The quality and performance of a conjugate is critical to successful lateral flow test manufacturing. Our products are made in Austin TX and produced in a state-of-the-art manufacturing facility that enable rapid turnaround times while ensuring batch to batch consistency and reliability.

Bulk pricing and manufacturing supply contracts available. 

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Functionally Tested in Lateral Flow

Specifications 1OD 30nm Gold (1L)

Number of particles/mL	1.3-2 x 1011
Gold Concentration (mg/mL)	4.2-4.7 x 10-2
Molar Concentration (moles/liter)	2.2-3.3 x 10-10
Particle Diameter	30 nm /-1.5

Number of particles/mL 1.3-2 x 1011
• Gold Concentration (mg/mL) 4.2-4.7 x 10-2
• Molar Concentration (moles/liter) 2.2-3.3 x 10-10
• Particle Diameter 30 nm /-1.5

The Bisulfite Sequencing Library Prep Kit (illumina platform) was developed for construction of NGS libraries using bisulfite treated DNA (50 ng – 500 ng) as input. DNA methylation is an epigenetic mechanism known to play a critical role in gene regulation and genomic imprinting by blocking transcription factor access to promoters and enhancers. Bisulfite sequencing is a popular technique in biomedical research based on C to T conversion under the treatment of sodium bisulfite.

Recently, NGS became a powerful tool to identify the DNA methylation status at the whole genome level with single-base resolution. However, it is well known that bisulfite treatment of the NGS libraries causes tremendous damage to the libraries.

Bisulfite-Seq kit comparison

In the case of the regular bisulfite seq library preparation (library prep before bisulfite conversion), the DNA shearing equipment and the expensive methylated adaptors are required. In addition, the subsequent bisulfite conversion causes tremendous DNA damage to the constructed libraries.

BioDynami has developed a unique library prep technology to solve the problems. The technology uses bisulfite treated DNA as input to avoid the significant library loss caused by bisulfite conversion. Furthermore, DNA shearing step and expensive methylated adaptors are not required with our kit. The DNA polymerase in the kit has high-fidelity amplification ability and uracil tolerance which is ideal for amplification of bisulfite sequencing libraries. The final library is strand specific.

Bisulfite Sequencing Library Prep Kit Workflow

Three index types are available for the kit:

Non-index (Cat.# 30091): Libraries do not have index.

Index (Cat.# 30092): Each primer contains a unique barcode sequence of 6 bases to identify the individual library. Library multiplexing capacity is up to 48 samples. Index information can be downloaded here.

Unique dual index (Cat.# 30093): The multiplexing of bisulfite sequencing library is up to 96 samples with unique dual indexes. We used a Four-Base Difference Index System to generate indexes that have at least 4 bases different from each other in the 8-base index. The index primers remove NGS errors including index cross-contamination, index hopping, reads mis-assignment etc. Index information can be downloaded here.

Kit advantages

• • • Easy and Quick protocol
      • Easy: Hands-on time only 10 minutes
      • Quick: Total protocol time around 1.5 hours
    • Simple workflow: Less steps
    • Directional library
    • Save magnetic beads more than 50%
    • Guaranteed high Bisulfite sequencing library conversion efficiency
    • Bisulfite treated DNA as input: From 50 ng to 500 ng

The Bisulfite Sequencing Library Prep Kit (illumina platform) was developed for construction of NGS libraries using bisulfite treated DNA (50 ng – 500 ng) as input. DNA methylation is an epigenetic mechanism known to play a critical role in gene regulation and genomic imprinting by blocking transcription factor access to promoters and enhancers. Bisulfite sequencing is a popular technique in biomedical research based on C to T conversion under the treatment of sodium bisulfite.