โปรดเลือกที่อยู่การจัดส่ง

การเลือก ประเทศ/ภูมิภาค อาจส่งผลต่อปัจจัยต่างๆ เช่น ราคา ตัวเลือกการจัดส่งและความพร้อมจำหน่ายสินค้า
ผู้ติดต่อของฉัน
IGUS MOTION PLASTICS (THAILAND) CO., LTD.

1340 Soi Bangkok-Nonthaburi 30, Bangkok-Nonthaburi Rd.,

Bangsue, Bangsue

Bangkok 10800 Thailand

+66 (0)2 587 4899
+66 (0)2 587 4898
TH(TH)

Precise and maintenance-free linear axis for DNA diagnostics in the laboratory

This device for detecting genetic modifications utilises reliable drylin bearing technology.

This device from the Polish company Kucharczyk can be used to detect mutations in people's genetic material before they lead to clinical symptoms. To do this, glass plates, which serve as the carrier material for the DNA samples, must be positioned as precisely as possible over a heat exchanger in the device. This positioning is performed by a drylin lead screw linear system with a NEMA23 motor. The system is known for its smooth and precise movements and is also completely maintenance-free.

Profile

  • What was needed: drylin SHT lead screw linear systems, drylin electric motors
  • Requirements: The linear solution should enable precise and safe temperature control to improve the electrophoresis process.
  • Industry: medical equipment
  • Success for the customer: The use of the drylin system made it possible to press the electrophoretic glass plates with the polyacrylamide gel onto the heat exchanger automatically, precisely and evenly. It significantly improved the quality of the electrophoretic separation of analysed samples compared to the previous version of the DNA Pointer system.
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DNA Pointer System by Krzysztof Kucharczyk Techniki Elektroforetyczne Sp

Problem

Diagnostics in the field of genetic mutations (e.g. for the early detection of cancer) is intended to recognise genetic changes before the clinical symptoms of their presence become visible. Therefore, the decisive parameter of successful techniques for the detection of small genetic variants is their sensitivity. Here, for example, native nucleic acid electrophoresis, known as SSCP, is used. The most important physical conditions that influence ssDNA conformers and SSCP patterns are: pH, ionic strength, as well as temperature. However, temperature control during electrophoresis is a major problem due to the heat generated by the current flow. However, it is important because it has been proven to increase the mutation detection rate. A multi-temperature SSCP device has been developed, the DNA Pointer System, which performs genetic analyses by electrophoretic separation and under sequentially changing gel temperature.
An electrophoresis gel is pressed onto the heat exchanger. To ensure even heat distribution in the gel, electrophoretic glass plates must be precisely bonded to the heat exchanger. In the system's predecessor model, glass plates were manually inserted into the electrophoresis chamber and held in place by two clamping cam levers. To improve device handling and, above all, safe temperature control during electrophoresis, a suitable linear bearing solution was to be found instead of cam levers.

Solution

One of the main components of the latest version of the DNA Pointer System are drylin SHT lead screw linear systems in combination with a NEMA 23 stepper motor from the drylin E product portfolio, which is controlled by a microprocessor system.
The use of the drylin E system made it possible to press the electrophoretic glass plates with the polyacrylamide gel onto the heat exchanger automatically, precisely and evenly. It significantly improved the quality of the electrophoretic separation of analysed samples compared to the previous version of the DNA Pointer System. Improved temperature control directly influenced the results of the SSCP procedure and led to a more reproducible and sensitive detection of mutated genetic variants in the analysed genes. Following the evaluation tests, consideration is now being given to retrofitting the drylin system in some pre-series appliances.
DNA Pointer System
DNA Pointer System


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