SMALL FOOTPRINT. BIG IMPACT.

Ideal for small lab spaces with no compromise on efficiency, QPix XE has advanced imagining and robotic capabilities and allows for further integration into an automated work cell for throughput growth or walkaway time.

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Accuracy, precision, and quality all in a smaller package.

Streamline your colony selection and picking with QPix XE.

As a leader in biotechnology, you understand the importance of precision and accuracy in your research. That's why we're excited to introduce the QPix XE Microbial Colony Picker – the solution that takes your microbial colony selection and picking to the next level.

Although smaller than other colony pickers on the market, don't let its size fool you – it doesn't compromise on results. The QPix XE streamlines your colony picking process, allowing you to focus on discovery and not repetitive, error-prone tasks.

The easy-to-use interface, coupled with its compact design, ensures that you can work in a space-efficient environment without sacrificing accuracy. And automatic storage and sample tracking ensure the integrity of your data, so you can trust your results.

But that's not all – the QPix XE's modular, scalable platform allows for further integration into an automated work cell for future throughput growth or walk-away time. So why not choose the smarter option? Save up to 25% off and see the difference QPix XE can make in your research.

Benefits

Easy integration

Simple Integration

We can tailor and deploy the integration, or provide an open API and software support for you, so you can have a fully automated work cell in no time.

Scalable design

Scalable Automation

As your workflow changes and adapts, our systems scale with you into an automated work cell for future throughput growth or walk-away time.

Compact size

Compact Size

Streamline colony selection so scientists can focus on discovery instead of repetitive, error-prone tasks – without taking up valuable lab space.

Limited Time Offer: Save up to 25% off QPix XE

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Want to learn more?

Easy to use

Easy-to-Use Software

The intuitive, process-driven software interface guides users through setting up microbial colony-picking runs where precision robotics pick the right colonies – every single time.

High-Picking Efficiency

High-Picking Efficiency

With advanced imaging and robotic capabilities, QPix XE has a high-picking efficiency of up to 1500 colonies per hour. It accurately and efficiently picks individual colonies from a wide range of sample types, including bacteria, yeast, and fungi.

Screen and Pick Colonies

Screen and Pick Colonies

Colonies are screened and identified based on desirable morphological or spectral characteristics, including size, proximity, roundness, and fluorescence intensity.

Automatic Tracking

Automatic Tracking

QPix XE's automatic storage and sample tracking ensure the integrity of your data. By providing users with a complete audit trail and sample tracking, you can be sure that your data is never lost.

Featured Applications

Don't settle for less when it comes to your research.

Automated microbial colony picking systems, like the QPix XE, offer the unique option to simultaneously detect colonies and quantify fluorescent markers in a pre-screening step before picking.

Pick colonies accurately and efficiently using organism-specific pins that maximize material transfer and avoid cross-contamination with a reliable pin sterilization process.

And what's more, you're able to support a range of uses such as high-throughput cloning, library screening, strain engineering, and CRISPR editing.

Industrial applications from biotech to synthetic biology are using phage display because of its high throughput capabilities for protein interaction determination and protein engineering. However, in order to select high-affinity binders, or ligands, which can recognize a naive target from a phage library (~107 - 1012), non-binding bacteriophages need to be washed away, and phages that bind specifically with target molecules are eluted and harvested through 3–5 rounds of panning. Using conventional methods, this can be laborious to perform when screening multiple selections with different antigens simultaneously. To speed up their screening, scientists are incorporating new technologies like the QPix™systems into their workflow to speed up their phage display antibody screening.Phage Display workflow graphic-04

Molecular cloning is the assembly of DNA into a vector, leveraging E. coli as a host organism to produce plasmids. Using the QPix XE to automate the laborious process of plating and streaking and colony picking frees scientists to analyze data, not perform repetitive, time-consuming tasks. Increase throughput and speed while increasing accuracy with a complete audit trail and sample tracking.molecular cloning workflow-20230201

 

For the synthetic biologist, biological building blocks are often generated from bacteria. The design-build-test process is utilized in order to engineer these building blocks. This often requires screening and picking colonies of interest.

Traditionally, colony picking is performed manually, using sterile pipette tips, toothpicks, or inoculation loops, which is a slow, labor-intensive, and time-consuming process. Synthetic biology research can, therefore, benefit greatly from the flexibility and throughput of automated colony pickers. Not only will the QPix XE make the entire process quicker (picking up to 1,500 clones per hour), but the results are more consistent and reliable, increasing the quality of the data produced.

Food research-QPix workflow_20220629

The QPix XE from Molecular Devices plays a pivotal role in the plasmid production workflow, particularly in optimizing plating and screening processes. Through its advanced automation, transformed cells are meticulously placed on selective media using the QPix XE, which is a crucial step in promoting the growth of recombinant colonies. This targeted placement ensures that only colonies with the desired genetic modifications flourish, effectively minimizing background noise from non-transformed cells. Additionally, the device's sophisticated imaging and analysis software come into play during the screening phase, adeptly identifying and selecting those bacterial colonies that contain the targeted plasmid. This precision reduces false positives, streamlining subsequent plasmid isolation and verification. By facilitating accurate cell placement and efficient screening, the QPix XE establishes a strong foundation for a streamlined and effective plasmid production workflow.

Plasmid Workflow

 

We empower scientists to advance discovery

Automated, end-to-end solutions span research disciplines to help scientists discover, scale, and industrialize biology.

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ClonePix Series

Screen more clones in less time with monoclonal verification at day zero, then screen and pick for highest producers in weeks, not months.

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DispenCell Single-Cell Dispenser

Compact, automated cell dispenser for fast, easy, and gentle single-cell isolation. Isolate single-cell lines three times faster and at a lower cost than existing solutions.

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CloneSelect Imager FL

Streamline your workflow with comparative confluence assays to identify and verify gene edits. Advancements in imaging allow for accurate single-cell detection and proof of monoclonality at day zero.

*Price, time to deliver, and specifications will vary based on mutually agreed technical requirements. Solution requirements may cause adjustment to standard performance. Custom solutions are subject to Molecular Devices Custom Products Purchase Terms available at https://www.moleculardevices.com/custom-products-purchase-terms.

 

*DispenCell is only available in Europe and the U.S.