Single cell/particle dispenser: On-chip SPiS

In recent years, single-cell analysis technology has been attracting attention. Single cell analysis requires accurate cell dispensing technology, but the lack of such technologies had been the bottleneck of research. Especially, cancer research involves vast stains of clones and the demand for analysis of each individual cancer cells as well as the determination of subtypes and genetic mutations are escalating rapidly.
Limiting dilution widely used for cell cloning is a simple and low-cost method, but the single cell dispensing accuracy is low and repeated re-cloning operation is required. In contrast, dedicated single cell analysis instruments are expensive and inconvenient for general purposes, while the accuracy is not at a satisfactory level.
Therefore, On-chip Biotechnologies has developed On-chip SPiS in order to solve this problem. It is an easy-to-use instrument that allows dispensing of cells and large particles with single-cell/particle dispensing accuracy of over 90%.

Cat. No.	Dimensions (WxDxH)	Specification	Unit	Price	Quantity
FC03456880-01	610x365x450 mm	Dispensing accuracy: ≥90% (depending on sample conditions)	EA	Inquiry

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Product Description

Features

• Easy and automatic operation
• Disposable pipette tip-based dispensing system
• Automatic dilution function + CCD camera image recognition
• Dispensing of sample sized up to 200µm
• Ability to fit inside a standard biosafety cabinet
• Reasonable price

Specifications

Product name	On-chip SPiS
Product number	70001
Configuration	Main unit and control PC (Windows)
Main unit size	610x365x450/WxDxH (mm)
Dispensing method	Disposable pipette tips
Recognition method	Image recognition by a camera with built-in 5-megapixel resolution CMO sensor
Tip volume	0.2μL
Sample	Cells, pollen, protists, cell aggregates, beads, gel micro drops, etc.
Recognition size	10-200μm (cultured cells are recognized)
Dispensing accuracy	≥90% (depending on sample conditions)
Biosafety	Installable in a biosafety cabinet
Damage to samples	Low damage to samples such as cells
Stirring method	Automatic stirring with the disposable pipette tip
Solution	Water, culture media, seawater, etc.
Processing speed	60min/96 wells (changeable with setting conditions and sample conditions)
Supported plate	96-well plates, 384-well plates
Power input	AC 100-120V, 50/60Hz
Power consumption	1.0A typ (ACIN 100V)

Applications

Application Description

• Single cell dispensing of knockout strains
On-chip SPiS is useful for post-genome editing screening. A poliovirus (PV) receptor knockout cell line was generated using CRISPR-Cas9. A single cell was dispensed into each well of a well plate and cultured, followed by viral infection. As a result, 49 clones that acquired PV resistance were successfully established.
• HDR mutant clone selection
Transfected HEK293T cells were sorted by our microfluidic chip cell sorter (On-chip Sort) to obtain positive strains, and single cells were dispensed by On-chip SPiS. As a result, genome-edited clones were efficiently obtained one by one. In addition, clones with homozygous mutations were efficiently obtained.
• Dispensing of spheroids of different sizes for drug evaluation
The use of spheroids (cell masses) which can reproduce the biological environment has attracted attention in the evaluation of drugs such as anti-cancer agents. Uniform sized spheroids are necessary for highly accurate evaluation. Therefore, On-chip® Sort was used to select spheroids of a specific size and On-chip SPiS was used to dispense the collected spheroids on to a well plate for fast and accurate drug efficacy evaluation.
• Dispensing of gel microdrops (GMDs) containing bacteria
On-chip SPiS can dispense not only cells and large particles, but also GMDs (microdroplets solidified as gels). Bacteria grown from a single cell can form microcolonies inside the GMDs, which can be recognized by the CCD camera in On-chip SPiS. The use of GMDs is useful in screening and isolating environmental microbes and generation of mutant libraries.
• Dispensing and culture of swimming tetrahymena
Protozoan Tetrahymena were dispensed at 1 cell/well into a total of 180 wells and cultured for three days. Single cell dispensing was confirmed in 159 wells, 137 of which had cell proliferation. This result indicates that the system can dispense migrating cells with high accuracy.