Thermal Cycler
Biorad Thermal Cycler Systems offers block options according to the intensity of use.
It is our most preferred thermal cycler system with its latest generation 96-well T100 touch screen and reasonable price.
C1000 series systems form the basis of Real-Time PCR systems and can be updated with the real-time block you need. 384, 96 and 48 dual block options are available.
Biorad Consumables and Reagents
Takara Consumables and Reagents
Real Time PCR (RT PCR)
RT-PCR systems with many applications such as gene expression, genotyping, HRM, multiplex PCR are suitable for reagents of all brands of manufacturers.
Click for more information about CFX Connect and CFX96 Touch with 3 or 6 channel options and 96 or 384 well optical module option depending on frequency of use.
CFX 96 Touch RT-PCR has CE-IVD certificate and can also be used for molecular diagnostic purposes.
Biorad Consumables and Reagents
Takara Consumables and Reagents
Droplet Digital PCR (ddPCR)
Droplet digital PCR technology is the 3rd generation PCR technology. By providing ultra-sensitive and absolute nucleic acid quantification (number of copies / ul sample), it provides much more accurate and quantitative results than the 2nd generation Real-time PCR technology. It is a technology developed especially for studies that require high sensitivity analysis platforms such as copy number change (CNV), tapering mutations and sequence detection, viral load, NGS validation and library quantification, detection of cancer biomarkers, which cannot be analyzed with Real-time PCR.
Selection of Consumables and Reagents
SmartChip Real Time PCR
The high-throughput real-time PCR platform, the SmartChip Real-Time PCR System, allows researchers to run more samples with less reagent in a small volume of 100 nL. You can design SmartChips with 5,184 nano-wells according to your work.
The system consists of a Smart Cycler RT-PCR device and a Multisample Nanodispenser (MSND) that automatically pipettes into SmartChips with 5,184 nanowells.
Selection of Consumables and Reagents
39 / 5000
Cycles Results
Illumina: Next Generation Sequencing Library Preparation
From whole exome to targeted sequencing, Illumina offers comprehensive solutions for different needs, from library preparation to bioinformatics analysis, reducing processing time. High-throughput solutions allow sequencing of DNA and RNA from different starting materials, including enrichment or amplicon-based, from cell line to fresh tissue, FFPE to blood and more challenging tissue types.
https://emea.illumina.com/techniques/sequencing/ngs- to explore solutions for plant genomics, drug development, cancer research, neuroscience, genetic health, microbial genetics, oncology, reproductive health, immunology and more. library-prep.html
You can access the Illumina Next Generation Sequencing library preparation kits related to your research from the links below:
16s rRNA
amplicon
De Novo
Exome Sequencing
Genotyping by Sequencing
Methylation Sequencing
mRNA
shotgun
Target Enrichment
Targeted DNA Sequencing
Targeted RNA Sequencing
Whole Genome Sequencing
Sequencing Entire Transcriptome
Takara Next Generation Sequencing Library Preparation
The SmartChip NGS Target Enrichment System provides researchers with flexible panel design for next-generation pre-sequencing library preparation. In the system working with the singleplex PCR method, each amplicon is amplified with a single PCR reaction, thus the target region is extensively and completely replicated. Target zone enrichment and barcoding are performed in the same reaction, saving time.
Microarray
Illumina microarray technology (BeadArray technology) is designed to detect millions of genotypes at once on each array surface using silica microbeads. Small silica beads in micro-sized wells are coated with multiple copies of the oligonucleotide targeting a specific region in the genome, allowing targeted regions to be captured.
You can reach Illumina array solutions related to your research from the links below:
Illumina Sequencing Platforms
Illumina's next-generation sequencing (NGS) platforms provide innovative solutions for high-volume, high-quality and accurate data generation. Below you can find platform comparison information and platform selection tool for your work.
Proven Next Generation Sequencing Platforms
Illumina NGS sequencing devices are preferred by leading genome centers for large or small volume data generation. More than 90% of the world's sequencing data were produced using Illumina instruments.
Each sequencing platform provides high quality and performance data generation, while offering high throughput and simple workflow for researchers in all fields and different research volumes.
*Data calculations on file, Illumina, Inc. 2015.
Considerations when choosing a sequencing platform:
Decide which desktop or high-throughput platform is best for your lab. Ask the right questions to assess your needs.
- For which applications will you use it most often?
- What device options are available for these apps?
- What is the routine consumable cost apart from the sequencing device cost?
Make your selection easy with the platform selection tool by Illumina.
IDT Technologies
Get fast and high quality solutions with high quality oligos produced with proprietary synthesis platforms of IDT, the world's largest oligo producer and pioneer in its field.
DNA Oligo Design
Single and double stranded DNA sequences are produced in high quality with the features you want. You can design your oligos to contain the DNA sequence you want and choose from hundreds of modifications. The products are quality checked with Electrospray Ionization – Mass Spectrometer before shipping and the synthesis efficiency is measured twice with UV spectrophotometry. You can contact us for more information about the products.
Ultramer® DNA Oligos
Oligos of high quality and purity, in lengths up to 200 bases, are produced using proprietary synthesis methods. It can be ordered as a single or double chain. Ultramer oligos of increased length and purity can be used for directed mutagenesis. It can be used to create large deletions and insertions in (site-directed mutagenesis) applications, as a DNA standard in qPCR, or as a template for Homologous Oriented Repair in CRISPR genome editing.
oPools DNA Oligo Pools
Single-stranded DNA sequences ranging from 40 to 350 bases are synthesized in high quality. Each pool can be designed to contain 20,000 oligos in a single tube.
TruGrade DNA Oligos
DNA oligos up to 120 bases are produced by special methods to minimize cross-interaction between oligonucleotides. TruGrade oligos help reduce the risk of barcode misalignment in multiplex NGS applications.
Megamer® Single Chain DNA Fragments
Megamer single-stranded DNA Fragments of 201-2000 bases in length are produced from clonally purified DNA. Sequence verification is done with the Next Generation Sequencing method. Homology-driven repair of CRISPR-mediated genome editing can be used in applications such as in vitro transcription.
DNA Origami reagents
DNA origami are DNA-based, complex nanostructures that form specific forms through sequence-programmed folding. These chemically modified nanostructures can be used in various applications such as drug molecule transport, biosensor and nanodevice development.
RNA Oligo Design
Single and double-stranded RNA sequences up to 60 bases are produced in high quality with the features you want. Products are subjected to quality control with Electrospray Ionization - Mass Spectrometer before shipping. Chimeric DNA bases, modified RNA bases etc. You can adapt the RNA oligo to your work by choosing from hundreds of modifications.
Ultramer® RNA Oligos
High quality RNA oligos in lengths up to 120 bases. High yield of full-length products is achieved by using special methods.
Affinity Plus DNA & RNA Oligonucleotides
Affinity Plus DNA and RNA Oligonucleotides are single- and double-stranded DNA sequences containing 1-20 Locked Nucleic Acid (KNA) nucleotides. Thanks to Affinity Plus KNAs, high performance is achieved at low cost in hybridization-based applications. The stability and exonuclease resistance of your oligos are increased (in vitro and in vivo).
Genes & Gene Fragments
Double Chain DNA Fragments gBLocks Gene Fragments
125–3000 125–3000 base pairs long, double-stranded DNA molecules that have been sequenced. Using the special technique developed for Ultramer DNA Oligos, long fragments are obtained in high quality. gBLocks Gene Fragments can be used as controls in qPCR and PCR, in applications such as CRSPR genome editing, recombinant antibody production and vaccine research.
eBlocks Gen Fragments
They are double-stranded DNA fragments 300-900 base pairs long. It provides fast and safe results in clone screening applications that require high efficiency and especially in antibody research.
Megamer® Single Chain DNA Fragments
They are single-stranded DNA fragments with a length of 201-2000 bases. It is produced from clonally purified DNA and sequence verification is done by Next Generation Sequencing. CRISPR can be used in applications such as genome editing, in vitro transcription.
Gene Design and Synthesis
Your genes synthesized using gBlocks® Gene Fragments or Ultramer® DNA Oligos are delivered ready-to-use with the plasmid vector. The entire sequence is verified by Sanger or Next Generation Sequencing.