QIAcuity Nanoplates 및 액세서리

QIAcuity 디지털 PCR 기기와 함께 사용

S_1220_3_LS_dPCR_Nanoplate_26k_8well

✓ 연중무휴 하루 24시간 자동 온라인 주문 처리

✓ 풍부한 지식과 전문성을 갖춘 제품 및 기술 지원

✓ 신속하고 안정적인 (재)주문

QIAcuity Nanoplate 26k 8-well (10)

카탈로그 번호 / ID.   250031

10 QIAcuity Nanoplate 26k 8-well, 11 Nanoplate Seals
MX$6,621.00
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Product TypeAccessories
QIAcuity Nanoplate
Nanoplate Seals
Nanoplate Tray
Nanoplate Adapter
웰당 분획
26k
8.5k
웰 수
8
24
QIAcuity Nanoplates 및 액세서리은/는 분자생물학 분야에 사용하기 위한 것입니다. 이 제품들은 질병의 진단, 예방, 또는 치료 목적으로 사용할 수 없습니다.

✓ 연중무휴 하루 24시간 자동 온라인 주문 처리

✓ 풍부한 지식과 전문성을 갖춘 제품 및 기술 지원

✓ 신속하고 안정적인 (재)주문

특징

  • 다양한 애플리케이션 요구 사항을 위한 네 개의 나노플레이트
  • 웰당 최대 8,500개 또는 26,000개 분획
  • SBS 형식

제품 세부 정보

QIAcuity Nanoplates는 웰당 최대 8,500개 또는 26,000개 분획으로 8개, 24개 또는 96개의 검체를 분석할 수 있는 미세 유체 디지털 PCR 플레이트입니다. 네 가지 나노플레이트 모두 QIAcuity 디지털 PCR 기기에서 실행하도록 설계되었습니다.

나노플레이트는 QIAcuity Digital PCR System에서만 사용할 수 있습니다. QIAgility를 사용하여 QIAcuity Nanoplate에서 자동 액체 취급 및 PCR 설정을 수행할 때는 QIAcuity Nanoplate 전용Adapter를 사용하십시오. 그런 다음, dPCR 반응을 위해 QIAcuity Digital PCR System에 플레이트를 로딩합니다.

제품에 대해 자세히 알아보고 당사의 dPCR 전문가에게 문의하시겠습니까? 여기에 정보를 기입하시면 곧 연락드리겠습니다.

성능

이 플레이트는 QIAcuity 기기의 디지털 PCR 반응에 사용하기 위해 특별히 설계된 플레이트입니다. QIAGEN은 네 가지 나노플레이트 유형을 제공하며 모두 염기서열분석(Sequencing by Synthesis, SBS) 형식이지만 다양한 애플리케이션 요구 사항에 따라 사양이 다릅니다.

 

나노플레이트 – 기능 및 사양
유형 프레임 색상 사양 애플리케이션
Nanoplate 26K 8-well 연한 파란색

8-well x 대략 26,000개 분획 

웰당 40µl dPCR 반응

희귀 돌연변이 검출, 
액체 생검, 유전자 
발현 분석, 
병원체 검출 등. 
Nanoplate 26K 24-well 파란색

24-well x 대략 26,000개 분획

웰당 40µl dPCR 반응

희귀 돌연변이 검출,
액체 생검, 유전자
발현 분석,
병원체 검출 등
Nanoplate 8.5K 24-well 흰색

24-well x 대략 8500개 분획

웰당 12µl dPCR 반응

복제 수 변이
분석, 유전자 발현
분석, NGS 라이브러리
정량화, 유전체 편집
검출 등
Nanoplate 8.5K 96-well 회색

96-well x 대략 8500개 분획

웰당 12µl dPCR 반응

원리

피펫팅 및 로딩, 실험 실행, 결과 분석의 간단한 3단계로 2시간 이내에 원하는 dPCR 결과를 얻을 수 있습니다. 나노플레이트에서의 dPCR 반응 원리는 여기에 설명되어 있습니다.

절차

qPCR 실험과 마찬가지로 검체 준비에는 마스터 혼합물, 프로브 및 프라이머를 8웰, 24웰 또는 96웰 나노플레이트로 옮긴 다음 검체를 추가하는 작업이 포함됩니다. 이 시스템은 분획, 열순환 및 이미징을 하나의 완전 자동화 기기로 통합하여 사용자가 2시간 이내에 검체에서부터 결과를 얻을 수 있습니다. Suite 소프트웨어에서 분석을 수행할 수 있으며, 표적 서열의 마이크로리터당 복제 농도뿐만 아니라 양성 검체나 NTC와 같은 품질 관리도 제공됩니다. 이 분석은 또한 동일한 LAN(근거리 통신망) 내의 원격 컴퓨터로 확장될 수 있습니다.

응용 분야

QIAcuity Nanoplates는 QIAcuity Digital PCR System 및 QIAcuity PCR 키트와 함께 다음을 포함한 디지털 PCR 애플리케이션을 지원합니다.

  • 희귀 돌연변이 검출
  • 복제 수 변이 분석
  • 유전자 발현 분석
  • 병원체 검출
  • 유전형 분석 (genotyping)
  • miRNA 연구
  • 세포 및 유전자 치료
  • 잔류 DNA 정량화
  • 폐수 모니터링

리소스

Protocols (9)
Here we demonstrate how to optimize your assays on a microfluidic nanoplate-based digital PCR system, the QIAcuity, and provide recommendations for a seamless transfer. Moreover, the QIAcuity dPCR workflow is very similar to qPCR.
Here we compared the performance of qPCR and the nanoplate dPCR techniques. The digital PCR method on the QIAcuity significantly improved precision when measuring copy number states and sensitivity of mutation detection through absolute quantification and reduced standard error. This is advantageous in various applications, including copy number variation analysis, small fold-change and rare mutation detection.
The QIAgility instrument is a liquid handler designed for automating PCR setup. For compatibility with the QIAcuity, we developed an adapter to secure up to two nanoplates onto the deck of the QIAgility. Using the QIAgility software, we have optimized a protocol that works for all nanoplate types and QIAcuity applications. Here we report the performance of a front end automated QIAgility dPCR nanoplate setup procedure for use with the QIAcuity dPCR system.
Digital PCR is a superior method to qPCR for the detection and absolute quantification of low concentration target templates. There are multiple digital PCR systems on the market that differ in numerous aspects including the amount of dead volume, which is the volume that is loaded but not analyzed by the given instrument. While it has been speculated that dead volume could impact the sensitivity of dPCR applications, here we provide data to support the conclusion that the most important factors in determining the relative sensitivity of each system are template addition volume and template analyzed volume. In summary, data provided herein demonstrate that higher template addition volumes can overcome any limitations that dead volume may have on the sensitivity of a dPCR application.
This study tested a workflow for quantitation and qualification of AAV samples using a duplex assay on the QIAcuity dPCR instrument targeting both an insert (GFP) and the viral backbone (AAV2-ITR). With very low intra-assay and inter-assay CVs <6.5%, we demonstrate one of the main benefits of dPCR: reproducibility.
The goal of this work was to compare performance of quantitative PCR (qPCR) and digital PCR (dPCR) in the quantification of gene expression and Wolbachia abundances in Nasonia parasitoid wasps.
Here we provide an integrated rAAV genome titer method using the QIAcuity Digital PCR (dPCR) System with detailed parameters for high assay performance. Using this optimized method for pre-PCR handling of in-process rAAV samples, the results demonstrated that QIAcuity dPCR system generates the same level of accuracy and precision as the current gold standard ddPCR system but with much faster sample-to-result times (2 hours vs 7 hours) and higher overall throughput and scalability.
The QIAcuity digital PCR system combined with the QIAcuity One-Step Viral RT-PCR Kit enables precise detection and quantitation of vector-borne viruses in mosquitoes. The results presented in this comparison study showed that digital PCR is a powerful tool for absolute quantitation of low abundant targets and is a more reliable detection method than qPCR. Multiplexing allows detection and quantitation of multiple targets in a single reaction more efficiently by increasing sample throughput at a reduced cost per target.
Here we report the use of saliva samples in combination with dPCR as a suitable alternative to screen for individuals infected with SARS-CoV-2.
User Manuals (2)
Brochures and Guides (1)
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Operating Software (9)
QIAcuity Control Software
REFERENCE (405.8MB)
Download

Version 2.1

 

Beside of improvements and bug fixes, the new features mainly address the GMP requirements by offering additional support for 21 CFR part 11 compliance and get the software ready for future Nanoplate support.

For more information, please refer to the Release Note: QIAcuity Instrument Control Software, Version 2.1.

SHA1 checksum: 0DD41A8DE46D10E81F538ACB71AC184170D39FE0

Version 3.2

The QIAcuity Control Software is an integral part of the QIAcuity instrument. It offers a GUI (graphical user interface) for basic functionalities such as plate setup, changing the order of plates to be processed, and monitoring the status of runs in real time. After a run is completed, the data are stored on the instrument’s memory and are sent to the connected QIAcuity Software Suite for analysis.

The QIAcuity instrument CSW version 3.2 has been improved with enhanced error handling to prevent subsequent errors. Furthermore, a bug effecting to operate owned plates for users with the role technician or group leader has been fixed.

 

Detailed information about the QIAcuity Control Software 3.2 is available in the Release Note, which can also be downloaded under section Software Release Notes.

Note: The latest CSW version 3.2 is only compatible with the Software Suite version 3.2. If only one software component is updated, no connection between the Software Suite and the CSW can be established.

Important: Please follow the instructions provided in the QIAcuity User Manual for software version 3.2 and in the Release Note.

It is strongly recommended to update the QIAcuity Software Suite first before proceeding with the QIAcuity Control Software!

Note: After clicking reboot during CSW upgrade or change of Suite connection, the login screen may appear for short period. Please ignore it and wait for the QIAcuity instrument to shut down and restart itself.

Please contact QIAGEN Technical Services if you are unsure and require technical support.

SHA256 checksum: D23713C8F1C0D6D67048A465FECF8825DBB3D4D1C6CB8C1E0B6753EE053E6B81



 
 

For Version 1.2
QIAcuity Control Software
SOFTWARE (263.6MB)
Download
Version 1.0

The QIAcuity Control Software is an integral part of the QIAcuity instrument. It offers a GUI (graphical user interface) for basic functionalities such as plate setup, changing the order of plates to be processed, and monitoring the status of runs in real time. After a run is completed, the data are stored on the instrument’s memory and are sent to the connected QIAcuity Software Suite for analysis.

This new version of the control software includes system stability and performance reliability improvements. We highly recommend to update the control software of your QIAcuity instrument.

Note: The installation requires approximately 90 minutes.
Safety Data Sheets (1)
Download Safety Data Sheets for QIAGEN product components.
Certificates of Analysis (1)

FAQ

Is it possible to change voltage set-up from 110V to 230V on the QIAcuity instruments?

This is not needed. The QIAcuity is equipped with a flexible power supply technology and operates within a range of 100–240V AC, 50/60 Hz, 1500 VA (max). 

FAQ-3761
Can I see error codes on the instrument touchscreen?

The instrument software GUI shows error codes including a description and information how to resolve the error. The instrument touchscreen shows an alarm icon in the upper right corner that turns red in case of an instrument failure. Accessing the System Status in the Tool tab allows users to clear errors. Rebooting of the instrument is required to complete the removal of the error.  Please do not skip this step. You may always contact QIAGEN Technical Services in case of any question. 

FAQ-3763
What is the scope of a regular maintenance of the QIAcuity?

The user manual contains instructions on how to perform a regular cleaning and decontamination, and how to replace air filters on the QIAcuity instruments. A regular maintenance reduces the dust in the instrument and therefore minimizes the presence of dust particles on the nanoplate, which might interfere with the plate analysis.

FAQ-3765
What is the impact of not applying the latest VPF? Can I reanalyze previously obtained results after installing the latest VPF?

If you had run a nanoplate for which the installed VPF misses the specific factor, the software will notify you. If you then analyze without the specific VPF, the impact depends on the variation of the partition volume of the new Nanoplate batch compared to the latest. Typically this variation is ±6–7% (approx. 5% CV over the entire plate). The analysis may be repeated after updating the VPF file. After installing the latest VPF and re-analysis of the run, a copy of the plate is generated in the QIAcuity Software Suite including the new results. 

FAQ-3769
Can I see on the QIAcuity Software Suite report file if the VPF (Volume Precision Factor) has been used or not?

Yes, the report includes a notification if the matching VPF was missing and, therefore, not applied to the analysis. If the matching VPF was applied there is no notification on the report. 

FAQ-3770
Is it necessary to reanalyze a plate with VPF (Volume Precision Factor) that was already processed using a QIAcuity instrument that was purchased in 2020?

If you had analyzed your nanoplates without VFP, the impact depends on the variation of the partition volume of the new nanoplate batch compared to the latest. The VPF reduces the CV from approximately 5% to 2%. We recommend to reanalyze results in case the data originated from different wells (e.g., copy number variations or gene expression data sets for which the reference sample was measured in a different well). Results obtained across different plates should also be r-analyzed. A reanalysis is not required for assay data that were analyzed within the same well (e.g., mutation rate determination using two channels within the same well).

FAQ-3771
Can I prepare a dPCR reaction directly in QIAcuity Nanoplate?

A standard PCR plate is required to set up dPCR reaction before transferring it to the nanoplate to ensure a proper mixing of the reaction mix before partitioning. 

FAQ-3774
Can I use a custom master mix instead of a QIAGEN master mix?

QIAGEN master mixes are optimized for nanoplate microfluidics and are recommended to be used with our dPCR system. They also include an optimized reference dye required for proper analysis.

FAQ-3777
How to prepare DNA prior to dPCR?

All DNA samples used in reaction mixes should show similar quality and quantity, which can easily be assessed using UV spectrophotometry. DNA samples with an average length of ≥20 kb (e.g., genomic DNA purified via spin column with silica membrane) should be fragmented by restriction digestion before partitioning. Enzymatic fragmentation of larger DNA ensures an even distribution of template throughout the QIAcuity Nanoplate, which in turn leads to an accurate and precise quantification.

FAQ-3778
What are the storage conditions and expiry date of QIAcuity consumables?

The QIAcuity Probe PCR Kit should be stored immediately upon receipt at –30 to –15°C in a constant-temperature freezer and protected from light. The QIAcuity Probe PCR master mix can also be stored protected from light at 2–8°C. Components are stable for 12 months, unless otherwise indicated on the label. 
The QIAcuity EG PCR Kit should be stored immediately upon receipt at –30 to –15°C in a constant-temperature freezer and protected from light. The QIAcuity EG PCR master mix can also be stored protected from light at 2–8°C. Components are stable for 6 months, unless otherwise indicated on the label. 
The QIAcuity Nanoplates does not have expiry date and are stable for at least 1 year when stored at RT. 

FAQ-3780
Can I use the QIAcuity Nanoplate in more than one runs?

The plate is designed for a single use run. For example, even if only 30 samples are loaded into the 96-well plate, a whole plate will be sealed by the roller. It can't be unsealed and used for another run. The QIAcuity Software won’t allow to set up a separate experiment for the same nanoplate to avoid that previously processed plates being not partitioned a second time.

FAQ-3781
Can I optimize a dPCR assay on the QIAcuity using gradient temperature?

An essential temperature gradient functionality was introduced with software version 2.5. When updating older software versions to 2.5, each QIAcuity instrument will offer the temperature gradient and may be used to find the best cycling temperature for new dPCR assays. When running a QIAcuity Four or a QIAcuity Eight, all plates may have their own temperature profile, including the option for a temperature gradient.

FAQ-3783
What is the VPF (Volume Precision Factor)?

The VPF provides a set of well-specific and molding form-specific factors used to specify the exact reaction volume of a nanoplate, thus increasing the concentration calculation of each well. 

FAQ-3784
When and how often do I need a new VPF (Volume Precision Factor)?

 In general, nanoplates provide partitions of fixed sizes that enable a very precise way of sample concentration calculation. If a new molding form is used for nanoplate manufacturing, potential variation of partition sizes can be addressed by applying the molding form-specific VPF. Thus, each time a new molding form is used, a new VPF is created and made available. Currently, the VPF is updated once every 3–6 months.

FAQ-3785
Is a standard curve needed in dPCR?

In dPCR we measure the absolute concentration of targets at endpoint reaction. Concentrations of unknowns can be determined based on dPCR results observed (number of negatives, number of positives, and partition volume analyzed).

FAQ-3786