The Opentrons Temperature Module, compatible with both the OT-2 and Flex Robots, is a fully automated thermoelectric module and integrated for use with the Opentrons platform. It is used to achieve temperature changes ranging from 4 to 95°C for various applications.
The Temperature Module GEN2 is compatible with the new Opentrons Flex Robot when paired with the Flex Temperature Caddy and Calibration Adapter. The caddy sits below the deck to enable below-deck cable routing and labware placed on modules remain closer to the deck surface. The calibration adapter is used to calibrate the location of the module. If you choose to include the Opentrons Flex Caddy and Calibration Adapter, your order will ship in 20 business days.
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The Opentrons Temperature Module, compatible with both the OT-2 and Flex Robots, is a fully automated thermoelectric module and integrated for use with the Opentrons platform. It is used to achieve temperature changes ranging from 4 to 95°C for various applications.
The Temperature Module GEN2 is compatible with the new Opentrons Flex Robot when paired with the Flex Temperature Caddy and Calibration Adapter. The caddy sits below the deck to enable below-deck cable routing and labware placed on modules remain closer to the deck surface. The calibration adapter is used to calibrate the location of the module. If you choose to include the Opentrons Flex Caddy and Calibration Adapter, your order will ship in 20 business days.
Other Products
PACE® GENOTYPING ASSAY
Product Info
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Product Info
ABOUT
PACE (PCR Allelic Competitive Extension) genotyping chemistry is a homogeneous, PCR-based allele-specific technology for the analysis of DNA sequence variants, most commonly SNPs (Single Nucleotide Polymorphisms) and Indels (insertion / deletions).
PACE genotyping chemistry is comprised of two parts:
PACE Genotyping Assay: two allele-specific forward primers and one common, reverse primer. The allele-specific forward primers each have different 3′ terminal bases reflecting the target variant, and a unique 5’ tail sequence which is incorporated as part of the fluorescent signal mechanism.
PACE Genotyping Master Mix: containing all remaining components required for PCR and the generation of fluorescent signals. PACE Genotyping Master Mix contains a novel, universal, fluorescent reporting cassette to produce machine-readable fluorescent signals (FAM and HEX) corresponding to the assay genotypes.
When combined with sample DNA, these components create a PACE Genotyping Reaction, as illustrated in the figure below.
We have extensive knowledge and experience in assay design, especially when it comes to allele-specific PCR. PACE Genotyping Assays are available to purchase either Validated and Unvalidated. Validated assays require customer DNA to validate and optimise, for guaranteed performance. Unvalidated assays are designed in silico and supplied untested.
REQUIRED COMPONENTS
qPCR machine or Thermocycler + Fluorescent plate reader
PCR plate or equivalent and appropriate optically clear seal
Template DNA
PCR-grade water
PACE Genotyping Master Mix or PACE 2.0 Genotyping Master Mix
STEPS TO YOUR PACE GENOTYPING ASSAY DESIGN
Place your order on this page. Our support team will contact you by email.
Fill out an Assay Design Template form with all the information we need to process your custom PACE Genotyping Assay order. We will email you a copy of the template when we first contact you, or your can download a copy here.
Using the information you provide us, we will create your PACE Genotyping Assay designs, order the oligos, and send you design sequences.
Once we receive the oligos, we assemble the assay(s) and then ship an aliquot to you (unvalidated) or test on your DNA samples before shipping the aliquot to you (validated).
TCO-PEG12-DBCO is a long chain PEGreagent containing a TCO and a DBCO moiety. TCO group specifically and efficiently reacts with terrahydrazine under mild condition. DBCO is very reactive toward Azide through click chemistry, the PEG spacer increases the aqueous solubility of the reagent. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.
Document
TCO-PEG12-DBCO is a long chain PEGreagent containing a TCO and a DBCO moiety. TCO group specifically and efficiently reacts with terrahydrazine under mild condition. DBCO is very reactive toward Azide through click chemistry, the PEG spacer increases the aqueous solubility of the reagent. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.
Gel images of different ranges of library size selection. Sheared human genomic DNA was used as input.
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Library size selection is an enrichment of a specific range of library sizes for NGS library preparations. The NGS library preparation is related to the quality of the sequencing data. Precise NGS library size selection can increase sequencing efficiency, improve data quality, and reduce costs.
There are two types of sequencing technologies: short-read sequencing and long-read sequencing. Short-read sequencing uses DNA libraries that contain small insert DNA fragments of similar sizes, usually several hundred base pairs. The sequencing efficiency can be improved if the DNA size selection is in the right range. Cat.# 20104S and 20104L are the best kits for NGS library size selection of illumina paired-end 100 (PE100) sequencing with 100-200 bp library inserts; Cat.# 20105S and 20105L are the best kits for NGS library size selection of illumina paired-end 150 (PE150) sequencing with 150-300 bp library inserts; and Cat.# 20106S and 20106L are the best kits for NGS library size selection of illumina paired-end 300 (PE300) sequencing with 300-600 bp library inserts.
Long-read sequencing uses a large DNA fragment as input and makes very long reads. Usually, library size selection is preferred to remove smaller fragments. Cat.# 20110S and 20110L are the best kits for long-read sequencing size selection with DNA sizes >5 kb, and Cat.# 20111S and 20111L are the best kits for long-read sequencing size selection with DNA sizes >10 kb.
The magnetic beads, or SPRI (Solid Phase Reversible Immobilization) beads, is well used for the purification of DNA due to their reversible DNA binding. The NGS library can be size-selected by the magnetic beads or SPRI beads. The properties of the magnetic beads can be changed for a specific range of DNA binding. The contaminants and other unwanted components in the libraries can also be removed during size selection.
Specific ranges of NGS libraries can be selected using magnetic beads with different buffer compositions. The first DNA-beads binding step, also called the right-side clean-up, removes large NGS library fragments. The large NGS library fragments that bind to the beads are discarded with the beads pellet. The desired NGS library fragments in the supernatant are transferred to a new well, and new beads are added to the supernatant for the second beads-DNA binding, also called the left-side clean-up. After the rinsing step, the NGS library fragments with the dual selection are eluted in water or an appropriate buffer. The magnetic beads method has great advantages over time-consuming column purification and tedious gel-based purification.
NGS library size selection with dual clean-ups.
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Library size selection for long-read sequencing only requires a single clean-up. In this case, only the large library fragments are bound to the beads, while other small library fragments are discarded with the supernatant. The selected larger library fragments are eluted in water or an appropriate buffer after the rinsing step.
NGS library size selection with single clean-up for >5 kb and >10 kb libraries.