FASTASeq 300
FASTASeq 300* is a desktop high-throughput sequencing platform that focuses on targeted sequencing and whole-genome low-pass sequencing. Its innovative breakthroughs in sequencing chemistry, high-density flow cell, fluid design and base identification algorithms bring users more flexibility, more consistent data quality and faster delivery of high-quality data.
*Unless otherwise informed, GeneMind sequencing platform and related sequencing reagents are not available in the USA, Canada, Australia, Japan, Singapore, Western Europe and Nordic countries yet.
Flexible
-Support two types of flow cells and multiple read lengths
-Multi-time output (MTO)
-Libraries can be loaded on each flow cell lane automatically or manually
Easy-to-use
-Pre-configured, plug-and-play cartridges
-Support the RFID reader module
-Libraries can be directly used for sequencing after preparation
Rapid
-mNGS (SE50 4hrs)
-Targeted sequencing (PE75 9.5hrs)
-Targeted sequencing (PE150 13hrs)
Unit | Flow cell Type | Lane | Reads/FC | Read Length | Output (Gb) | Q30 | TAT (h) |
Single | FCL | 2 | 50M | SE100 | 5 | ≥90% | 5.5 |
FCM | 4 | 125M | SE75 | 9.4 | ≥90% | 4.5 | |
PE75 | 18.8 | ≥90% | 9.5 | ||||
PE150 | 37.5 | ≥90% | 13 | ||||
FCH | 4 | 280M | SE75 | 21 | ≥90% | 5 | |
PE75 | 42 | ≥90% | 9.5 | ||||
PE150 | 84 | ≥90% | 16 | ||||
FCP | 4 | 500M | SE75 | 37.5 | ≥90% | 7.5 | |
PE75 | 75 | ≥90% | 14 | ||||
PE150 | 150 | ≥90% | 24 | ||||
FCX | 2 | 100M | SE400 | 40 | ≥80% | 31.5 | |
PE300 | 60 | ≥85% | 46.5 |
Application | Data Requirement | FCM Flow Cell | FCH Flow Cell | FCP Flow Cell |
NIPT Plus | >7M unique reads/sample | 12 | 24 | 48 |
PGT-A | >3.5M unique reads/sample | 12 | 32 | 64 |
TB-tNGS | >2M raw reads/sample | 36 | 96 | 192 |
Small tumor panel (tissue) | 0.2Gb/sample | >48 | >96 | >192 |
Small tumor panel (ctDNA) | 5Gb/sample | 6 | 16 | 32 |
Large tumor panel (tissue) | 5-10Gb/sample | 6 | 16 | 32 |
tpNGS | 0.1M-1M reads/sample | >96 | >192 | >384 |
mNGS | 20M reads/sample | 4 | 12 | 24 |
Dimensions | 684mm x 644mm x 615mm |
---|---|
Weight | 145kg |
Operating Power | 2000VA |
Power Requirements | 100V-240VAC,50/60Hz |
Operating Environment | Temperature:19℃-25℃ Humidity:20%-80%(non-condensing) Altitude:0-3000m |
Instrument Control Computer | CPU:Intel XeonSilver4126 Memory:32GB DDR4*6 Solid-state Drive:480GB Hard Drive:2TB Operating System: windows10 x64 |
Description of Read Header | |
Parameter | Description |
<SN> | Serial number of the instrument. |
<Barcodescore> | Numbers 0 to 9 are used to evaluate the sequencing quality value of the index sequence. The higher the value, the better the quality. |
<Flowcell ID> | The ID of sequence chip. |
<Lane> | Number of the lane, it can be L00、L01、L02、L03、L04,etc. L00 indicates that all lanes are merged. |
<FOV> | Coordinate of the FOV. |
<X> | X-coordinate of the cluster. |
<Y> | Y-coordinate of the cluster. |
<read1/2> | Read 1 or Read 2. |
<N> | Default character. |
<0> | Default character. |
<Index> | The sequence of the index, if it is a combination of index1 and index2, it should be concatenated with symbol”+”. |
Note:@<SN>:<Barcodescore>:<Flowcell ID>:<Lane>:<FOV>:<X>:<Y> <read1/2>:<N>:<0>:<Index> The header identifier is represented by the symbol “@”, while the parameter items are differentiated using the symbol “:”. |