Fluorescent Quantitative Detection System Real-Time PCR System

Product Details
Customization: Available
Capacity: 98 Well
Channels: 6 Channels Fluorescence Detection
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  • Fluorescent Quantitative Detection System Real-Time PCR System
  • Fluorescent Quantitative Detection System Real-Time PCR System
  • Fluorescent Quantitative Detection System Real-Time PCR System
  • Fluorescent Quantitative Detection System Real-Time PCR System
  • Fluorescent Quantitative Detection System Real-Time PCR System
  • Fluorescent Quantitative Detection System Real-Time PCR System
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  • Overview
  • Production workshop
  • Customer visit
  • Exhibition
  • Our vision
Overview

Basic Info.

Model NO.
PCR SYSTEM
Fluorescence
Yes
Sample Test Repeatability
CV<3%
Fluorescence Linearity
R≧0.99
Transport Package
Carton Box
Specification
38*38*26
Trademark
SAH
Origin
China
Production Capacity
5000000

Product Description

Fluorescent Quantitative Detection System Real-Time PCR System
Lab Fast Testing PCR Gradient Thermal Cycler Real-time Pcr Thermocycler System Clinical Analytical Machines Real Time Pcr
Real Time 48-well 96 Well Real time PCR Laboratory Thermal Cycler Gradient gene amplification instrument
Quantitative real time PCR detection system Machine
Whole block scanning and formulated line scanning mode
98 well double colour scanning takes only 5.5s.
6 channels fluorescence detection
No cross talk between different channels unique bottom detection compatible to reaction volume down to 5micro liter 
New automatic hot lid
Automatic open and close which is prevent reagent evaporation 
LED excitation light source with super long service life

 

 

Features

  • Advanced optical system including full-spectrum high-power LED and high-sensitive PMT top scanning achieves higher sensitivity you need in researches and experiments.

  • High-precision temperature control over the block with a resolution of 0.1 ºC offers reliable and consistent qPCR assay data.

  • Gradient temperature range is 30-100ºC and the temperature difference between adjacent blocks can be high up to 40ºC for assay optimization.

  • Sample tray automatically moves in/out, enabling integration with automated workstations/plate handlers for unmanned detection.

  • 6 fluorescence channels without cross talk and 96-well high-throughput process at a single run meet a variety of qPCR assay demands. 

  • The 10.1-inch large touch screen facilitates flexible programming and efficient running of PCR protocols.

  • The intuitive built-in software and PC software for improved user's experience allow you to run and analyze qPCR data from personal computer

  • Two temperature control modes enable you to control either block or tube temperatures.
     

     

Multiple Applications

The Real-Time Fluorescent Quantitative PCR System uses fluorescence real-time detection method to analyze the amplification of PCR template. It is suitable for human genome engineering, forensic medicine, oncology, population biology, paleontology, zoology, botany and other research fields.

This PCR detection system can be an in vitro diagnostic medical device, which is suitable for polymerase chain reaction fluorescence quantitative detection in the field of clinical diagnosis of viruses, tumors, genetic diseases, etc.

PCR machine is also known as thermal cyclers or DNA amplifiers, or thermocyclers. PCR machines amplify small segments of DNA or RNA chosen from the genome with a primer. It is inexpensive and a very effective tool.
Real-time PCR, also known as quantitative PCR or qPCR, is a technique for monitoring and quantifying PCR results in real-time by labeling DNA molecules with fluorescent dye.

PCR Applications
PCR can investigate differences in gene transcription among various cell types, tissues, and species at a particular time period.

  • Reverse transcription is used to create cDNA by isolating RNA  from samples of interest.
  • The quantity of cDNA produced by PCR can then be used to calculate the original RNA levels for a particular gene.
  • Sequence differences in alleles of certain cells or organisms can be determined.
  • Genotyping of transgenic organisms facilitates the amplification of the mutation or a transgenic part.
  • PCR cloning makes it possible to breed new strains of bacteria with altered genetic makeup via the insertion of amplified dsDNA fragments into the vectors such as gDNA, cDNA, and plasmid DNA.
  • Cloning assists in introducing point mutations using site-directed mutagenesis which itself employs the recombinant PCR method.
  • It also helps to create novel gene fusions.
  • Sequencing accompanies the amplification of template DNA, their purification, and processing through a sequencing step.
  • PCR is also employed in next-generation sequencing (NGS) during the library preparation phase to quantify DNA samples and tag them with sequencing adaptors for multiplexing.
  • Medical applications include genetic changes linked to disease to identifying infectious organisms. Prenatal genetic testing employs PCR to detect chromosomal abnormalities and genetic mutations in the pregnancy, providing expecting parents with crucial information about the likelihood that their children will have a particular genetic illness.
  • It can also be employed as a preimplantation genetic diagnosis technique to screen embryos for in vitro fertilization (IVF).
  • PCR can be useful for forensic investigations to identify the sources of samples and paternity testing.
  • It is used in molecular archaeology to amplify DNA from artifacts.
  • Pathogens can be found using PCR, not just in patient samples but also in matrices like food and water. This is important for both diagnosing and preventing infectious diseases.
Fluorescent Quantitative Detection System Real-Time PCR System
The PCR Machine promotes polymerase chain reaction (PCR) allowing vitro amplification of DNA fragments as fast cloning, DNA sample modification, detecting pathogenic microorganisms and accurate genotyping, detection of mutation, malignancy transformation or tissue typing, analysis of the archaeological specimen, forensic applications, paternity testing, mapping hereditary traits, and investigating gene expression.  
PCR steps
PCR involves three main steps repeated in cycles:
1.Denaturation
The mixture is heated to 94°C for 0.5 to 2 minutes.
This heat breaks the hydrogen bonds between DNA strands, turning them into single strands.
The single strands serve as templates for creating new DNA strands.
2.Annealing
The temperature is lowered to 54-60°C for 20-40 seconds.
Primers, which are short DNA or RNA sequences, bind to the complementary sequences on the single-stranded DNA.
Each separated strand gets a forward and reverse primer.
3.Elongation
The temperature is raised to 72-80°C.
The taq polymerase enzyme adds DNA bases to the 3' end of the primer, extending the DNA strand in the 5' to 3' direction.
This enzyme can withstand high temperatures and works quickly, adding about 1000 bases per minute.
These three steps are repeated 20-40 times to rapidly amplify the target DNA sequences.

Specifications

Throughput

96 well (12X8)

Applicable consumables

PCR single tube and strip of 0.2 ml, 96-well half skirted / no skirted plate

PCR single tube and strip of 0.1 ml, 96-well no skirted plate

Dynamic range

1-1010copies

Detection location

Top detection

Excitation light wavelength

400-800nm

Detection wavelength

500-800nm

Fluorescence channels

6 channels

Fluorochrome / dye

Channel 1: FAM/SYBR Green I      Channel 2: JOE/HEX/TETA/IC

Channel 3: NED/TAMRA/Cy3       Channel 4: ROX/Texas Red

Channel 5: Cy5                             Channel 6: Cy5.5

Excitation light source

full-spectrum LED

Detector

PMT

Block temperature range

4-105°C

Block temperature accuracy

≤±0.1ºC

Block temperature precision

≤±0.1ºC

Block temperature uniformity

≤±0.1ºC

Max. heating & cooling rate of block

≥6ºC/S

Gradient temperature difference

1-40°C

Block temperature control mode

Block mode, Tube mode

Sample volume range

5-100 µL

Heated lid temperature range

30°C-110°C (default 105°C)

Fluorescence intensity

CV ≤3%

Detection repeatability

Yes

Touch screen

10.1-inch touch screen

Scan mode

Full plate scan or specified line scan

Software functions

Absolute quantification, Relative quantification,

Melting curve, SNP genotyping, HRM, Quick run, etc.

Operation system

PC software (Windows 8 or higher), Built-in software

Ports

USB Type-A port x 2, USB Type-B port, RJ45 port

Power-off protection function

YES. Data can be restored after power-on

Sample tray control mode

Sample tray automatically moves in/out, enabling integration with automated workstations/plate handlers.

Dimension (WxDxH)

320mm x 525mm x 420mm

Net weight

≤23kg

Thermal Cycling Technology Peltier Module
Memory 8GB

A real-time PCR system is a powerful laboratory instrument that enables researchers to monitor and quantify DNA or RNA amplification in real-time. This technology relies on the use of fluorescent markers that emit signals during each amplification cycle, allowing for the accurate determination of the starting amount of genetic material. It can also simultaneously detect and quantify multiple target sequences in a single reaction, saving time and resources. The high sensitivity, precision, and versatility of real-time PCR make it an essential tool across an array of scientific domains such as genetics research, clinical diagnostics, microbiology, and environmental monitoring. In practice, it furnishes researchers with an unparalleled opportunity to delve into the intricacies of gene expression, diagnose diseases, and undertake a broad spectrum of molecular biology investigations with unwavering accuracy and operational efficiency.
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System
Product information LineGene 9600+ Real-Time PCR System
High-Sensitivity Multiplex Optics
The LineGene 9600+ Real-Time System combines high-performance Peltier technology with an extremely sensitive detection system. Extensive software ensures flexibility for all qPCR applications.
The experimental setup, control and data analysis are carried out either on a Windows PC or a tablet.
Software InterfaceThe LineGene 9600 Plus software includes Abso-lute Quantification, Relative Quantification, SNPAnalysis, HRM Analysis function modules. Withthe preset programs, the user can set up experi-ments simply and fast. The recently opened filesmake it easy to find previous experiments.
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System
Working principle 
Fluorescent Quantitative Detection System Real-Time PCR System
Working Principle: The heating and cooling of PCR blockduring PCR processes is done by an inbuilt Ferrotec peltiertechnology. The LED excitation source in the system pairedwith advanced fiber optic transmission technology makes thephotoelectric detection system very sensitive and reliable.The florescent emission is detected by Photomultiplier Tube(PMT).The Stepper motor with switchable filters is driven toeach and every sample by a synchronous belt for sys-temic scanning of sample from different wells.Block temperature and fluorescence detec-tion are controlled by microcomputer.The upper computer controls ex-periment operation and dataanalysis.
 
 
Detected Fluorescence

F1:FAMSYBR Green 1;

F2:VICHEXTETJOECY3TAMRA;

F3:ROXTEXAS-RAD

F4:CY5Quasar-670;

F5:CY5.5Quasar-705;

Block Temp.Range

4 ~105 ºC ( Minimun Increment  :  0.1 ºC )

SOAK Low Temp.Consercation Function

Temp.Control Mode BLOCK/Tube Simulation Mode (Automatic Control based On Sample Volume )
Gradient Temp.Range 1 ~36 ºC
Hot-lid Temp.Range 30 ~110 ºC (Adjustable default 105 ºC Automatic Hot-lid )
PC Configuration Memory:512M     Hard Disk:10GB    CPU:Pentium® 4    Virtual Memory:≥1000MB
Operation System

Microsoft  :  Windows XP/Windows vista/Windows 7/Windows 8

Software  :  Excel2000/2002/2003/2007/2012

Power Supply 100-240V ~ 50/60Hz   600W
Dimension ( L×W×H ) 410mm×386mm×352mm
socket USB Adapter  
Authentication Ferrotec Pelitier / CE/Met / RoHS2 / PICC product quality liability insurance
 
 
Fluorescent Quantitative Detection System Real-Time PCR System
Basic structure of instrument
Equipment category: category l (equipment category l with protective grounding device and
structure category ll)
Insulation category: reinforced insulation
Power supply: 100-240V~,50/60Hz
Input power: 600W
Operation: continuous operation
Pollution class:l
Protective class:lP20
Electromagnetic compatibility: Class A
Applicable region: areas under 2000m without high temperature or high humidity


 
 
 
 
 
 
 
 
Production workshop

The production of the Automatic Pathological Tissue Microtome machine machine introduce
1.Start by the blanking process for the metal part

Normally the house of the Slide Stainer medical was made by the steel or stainless steel of type as 316
The part was beginning as the blanking
1.Laser blanking machine capacity :8000*2000*10mm
2.We had about 15 pcs of the laser cutting machine in blanking workshop ,name from No1 to No 15,
3.6S fully carry out in our workshop according to the iso13485,
4.All of the raw material can be Traceability
Fluorescent Quantitative Detection System Real-Time PCR System
2.Bending process for Laboratory equipment Tissue Microtome machine by the press break bending machine
The press brake machine is a powerhouse in the metal fabrication industry, providing an efficient and successful method to bend sheet metal into different forms
To form the metal part into the shape we need ,the first part was by the bending press and the bending die
 
Stainless Steel :Provides great strength and resistance to corrosion, but its greater spring back the ability to revert to its original shape after bending means that it must be handled carefully.

 
Fluorescent Quantitative Detection System Real-Time PCR System
3.Progressive die metal stamping workshop for Slide Stainer
Fluorescent Quantitative Detection System Real-Time PCR System
Automatic Slide Stainer need the bracket for the motor and metal stamping part for the housing and electric connect part,The progressive die stamping can give out the huge volume and low cost for the Surgical Instruments Automatic Slide Stainer Stainless Steel Automatic Slide Stainer Machine Lab Equipment machine spare metal part.
4.Welding workshop for the Tissue Microtome machine
The Medical Sterilization machine need a lot of welding ,to imporve the capacity and welding quality we introduce the welding robot machine instead of labor human welding
1.QTY of the welding robot :23pcs
2.Capacity of the welding robot :500A
3.Work station:2000*1500mm
Fluorescent Quantitative Detection System Real-Time PCR System
5.Plastic injection workshop for the Benchtop Steam Automatic Slide Stainer machine
Fluorescent Quantitative Detection System Real-Time PCR System
Plastic part was one part of the Horizontal Universal Laboratory equipment Microtome machine
We had about 10 sets of the plastic injection work for the Laboratory equipment Microtome machine
1.The capacity for plastic injection machine was :1000*850*750mm
2.The max ton for plastic injection machine was 1000T
6.The spare part Warehouse for the benchtop Stainless Steel Multifunction Steam Sterilization machine
The 6S was fully carry out in our warehouse with the ERP system
1.We need to know how many part in our warehouse
2.We need to anticipate the part when to full fill in for all the Automatic Slide Stainer with Laboratory equipment Microtome machine
Fluorescent Quantitative Detection System Real-Time PCR System
7.CNC machining for the benchtop Microtome machine
Fluorescent Quantitative Detection System Real-Time PCR System
The rotor was the key part for the Universal Digital Thermostatic Ultrasonic Automatic Rotary Microtome ,to make it perfect especial for the Universal Digital Ultrasonic Automatic Rotary Microtome Equipment ,we need to control the tolerance of the rotor very tight,that was why we introduce the High Temperature Automatic Rotary Microtome
1.CNC QTY:15PCS
2.Tolerance for CNC machine :0.01mm
8.Universal Digital Ultrasonic Semi Automatic Microtome stamping ,welding ,rolling Production process on site,the container of the Ultrasonic Semi Automatic Microtome Machine need the vacuum and seal can bear though high pressure
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System


9.Electric part assemble to the Multifunction Steam Sterilization Machine workshop,the plc or the other computer control part connect to the machine before move to the next production procss.
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System
Fluorescent Quantitative Detection System Real-Time PCR System
10.Test workshop for the Multifunction Steam Sterilization Machine
All Multifunction Steam Sterilization Machine need to be test before transfer it to the warehouse.
Fluorescent Quantitative Detection System Real-Time PCR System
Customer visit

Customer review our Fully Automated Tissue Steiner workshop,We were welcome all of our customer to visit our company to review and test the Fully Automated Tissue Steiner for Organisms, Medical, Chemistry,Our business vision was :long term business ,win-win for the future

 

Exhibition

We take part into the MedtecChina Canton Fair (The China Import and Export Fair) exhibition every year ,hope one day we can meet each on the fair
Fluorescent Quantitative Detection System Real-Time PCR System

Our vision

The supplier and the customer was togeher for the future ,both parties should be in win-win situation ,so we were looking forwarder to hold hand by hand for bright future.



 

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