Notice Information
Notice Title
PromethION 24 Sequencing Unit PRO-SEQ024 and Consumables
Notice Description
Genomics Birmingham at the University of Birmingham is home to a diverse range of cutting-edge technologies dedicated to supporting the research endeavours of University of Birmingham (UoB) scholars and students. Our service laboratories, situated on Level 2 of the Institute of Biomedical Research (IBR) within the College of Medical and Dental Sciences (MDS), offer an array of resources and expertise. One pivotal component of our service offerings is the utilization of Oxford Nanopore Technology sequencing platforms. These platforms distinguish themselves significantly from other sequencing technologies available within our service portfolio. Oxford Nanopore Technology stands out due to its unparalleled capacity to produce data outputs that are beyond the reach of any other sequencing technology, whether it is within our genomics service or external providers. We are currently equipped with the PromethION, MinION, and GridION platforms, allowing us to harness the full potential of this groundbreaking technology to benefit the research community at Genomics Birmingham.
Lot Information
Lot 1
Our decision to source Oxford Nanopore Technologies for these sequencing platforms is founded on several irrefutable factors. Oxford Nanopore Technologies not only manufactures the instruments but also produces the necessary consumables, establishing them as the sole comprehensive source for our requirements. Moreover, the proprietary nature of their technology is affirmed by a series of patents, including WO2010/086622, WO2012/164270, WO2013/014451, WO2014/013260, WO2013/041878, WO2010/000789, US5795782A1, US6015714A1, US6362002B1, US7189503B2, EP0815438B1, EP1238275B1, and US8673556B2. We already have these sequencers in the laboratory and cannot purchase the required consumables for the equipment from any other provider. Oxford Nanopore are the sole providers of consumables and reagents for their sequencers. This unique position of Oxford Nanopore Technologies as both manufacturer and patent holder translates into our sole reliance on them to provide not only the hardware and software components but also the indispensable consumables essential for the operation of these sequencing platforms. Their proprietary knowledge and technical expertise extend to servicing the equipment and offering invaluable guidance on resolving technical challenges, making them the unrivalled choice for our genomics service. No other company possesses the capability to furnish us with the complete suite of resources and support necessary to uphold the exceptional standards of research and innovation we strive to maintain at Genomics Birmingham. Oxford Nanopore Technologies (ONT) holds a unique position in the genomics and sequencing industry for several reasons, which sets them apart from other companies and makes them the preferred choice for Genomics Birmingham: Proprietary Technology: ONT's sequencing technology is proprietary and patented, as indicated by the list of patents provided. This means that they have exclusive rights to this innovative technology, giving them a competitive advantage. Other companies may use different sequencing technologies that may not offer the same advantages or capabilities. Unique properties of Oxford Nanopore sequencing technologies are as follows: * Benchtop instrument that can sequence native DNA from fragment sizes of 20bp to millions of bases for up to 24 independent samples gaining coverage of >30X per sample. * Sequencing of native DNA and native RNA to give output files of modified BAMs and FASTQ files for 5mC and 5hmC methylation and canonical bases. This is performed in one sequencing run simultaneously with no need for additional manipulation of the DNA or RNA. * Real-time sequencing, with real-time basecalling & alignment enabling * Sequencing until a defined coverage is met and/or the ability to fix a run time for your sequencing requirements without the need for a default run time. * Adaptive sampling (enrichment or depletion of known regions without any need for PCR or chemical pull down) this is also capable dynamically allowing targets where read depth is already met to stop sequencing so other targets can be covered. * The same libraries can be run on all Oxford Nanopore instruments, for example, to perform library QC or generate additional data * Possibility to perform a sequencing run, recover the library from the flow cell, and re-sequence to boost yield. Also the ability to wash and re-load the same flow cell enabling flexibility and maximum usage. These properties are unique to Oxford Nanopore and not available from other providers. Data Output: ONT's sequencing platforms, such as the PromethION, MinION, and GridION, are known for their ability to produce unique and extensive data outputs that can be critical for various research applications. The data quality and quantity achieved through ONT's technology may not be matched by alternatives. The duplex chemistry provides around Q30 (99.9%) accuracy with the detection of modified bases at no extra cost or manipulation. Fragments of any size from 20bp upwards can be analysed in the same sequencing run, in real time. Adaptive sampling provides enrichment or depletion without the need for any other manipulation of the DNA or RNA. The P24 can run 24 flow cells independently of each other allowing for maximum flexibility.
Procurement Information
Our decision to source Oxford Nanopore Technologies for these sequencing platforms is founded on several irrefutable factors. Oxford Nanopore Technologies not only manufactures the instruments but also produces the necessary consumables, establishing them as the sole comprehensive source for our requirements. Moreover, the proprietary nature of their technology is affirmed by a series of patents, including WO2010/086622, WO2012/164270, WO2013/014451, WO2014/013260, WO2013/041878, WO2010/000789, US5795782A1, US6015714A1, US6362002B1, US7189503B2, EP0815438B1, EP1238275B1, and US8673556B2. We already have these sequencers in the laboratory and cannot purchase the required consumables for the equipment from any other provider. Oxford Nanopore are the sole providers of consumables and reagents for their sequencers.
Notice Details
Publication & Lifecycle
- Open Contracting ID
- ocds-h6vhtk-0403c5
- Publication Source
- Find A Tender Service
- Latest Notice
- https://www.find-tender.service.gov.uk/Notice/028333-2023
- Current Stage
- Award
- All Stages
- Award
Procurement Classification
- Notice Type
- Award Notice
- Procurement Type
- Standard
- Procurement Category
- Goods
- Procurement Method
- Limited
- Procurement Method Details
- Award procedure without prior publication of a call for competition
- Tender Suitability
- Not specified
- Awardee Scale
- Large
Common Procurement Vocabulary (CPV)
- CPV Divisions
38 - Laboratory, optical and precision equipments (excl. glasses)
-
- CPV Codes
38000000 - Laboratory, optical and precision equipments (excl. glasses)
Notice Value(s)
- Tender Value
- Not specified
- Lots Value
- Not specified
- Awards Value
- Not specified
- Contracts Value
- £202,518 £100K-£500K
Notice Dates
- Publication Date
- 26 Sep 20232 years ago
- Submission Deadline
- Not specified
- Future Notice Date
- Not specified
- Award Date
- 25 Sep 20232 years ago
- Contract Period
- Not specified - Not specified
- Recurrence
- Not specified
Notice Status
- Tender Status
- Complete
- Lots Status
- Not Specified
- Awards Status
- Active
- Contracts Status
- Active
Buyer & Supplier
Contracting Authority (Buyer)
- Main Buyer
- THE UNIVERSITY OF BIRMINGHAM
- Contact Name
- Kseniya Samsonik
- Contact Email
- k.samsonik@bham.ac.uk
- Contact Phone
- +44 1214146899
Buyer Location
- Locality
- BIRMINGHAM
- Postcode
- B15 2TT
- Post Town
- Birmingham
- Country
- England
-
- Major Region (ITL 1)
- TLG West Midlands (England)
- Basic Region (ITL 2)
- TLG3 West Midlands
- Small Region (ITL 3)
- TLG31 Birmingham
- Delivery Location
- TLG West Midlands (England)
-
- Local Authority
- Birmingham
- Electoral Ward
- Edgbaston
- Westminster Constituency
- Birmingham Edgbaston
Further Information
Notice URLs
Open Contracting Data Standard (OCDS)
View full OCDS Record for this contracting process
The Open Contracting Data Standard (OCDS) is a framework designed to increase transparency and access to public procurement data in the public sector. It is widely used by governments and organisations worldwide to report on procurement processes and contracts.
{
"tag": [
"compiled"
],
"id": "ocds-h6vhtk-0403c5-2023-09-26T11:57:53+01:00",
"date": "2023-09-26T11:57:53+01:00",
"ocid": "ocds-h6vhtk-0403c5",
"initiationType": "tender",
"tender": {
"id": "SC12009/23",
"legalBasis": {
"id": "32014L0024",
"scheme": "CELEX"
},
"title": "PromethION 24 Sequencing Unit PRO-SEQ024 and Consumables",
"status": "complete",
"classification": {
"scheme": "CPV",
"id": "38000000",
"description": "Laboratory, optical and precision equipments (excl. glasses)"
},
"mainProcurementCategory": "goods",
"description": "Genomics Birmingham at the University of Birmingham is home to a diverse range of cutting-edge technologies dedicated to supporting the research endeavours of University of Birmingham (UoB) scholars and students. Our service laboratories, situated on Level 2 of the Institute of Biomedical Research (IBR) within the College of Medical and Dental Sciences (MDS), offer an array of resources and expertise. One pivotal component of our service offerings is the utilization of Oxford Nanopore Technology sequencing platforms. These platforms distinguish themselves significantly from other sequencing technologies available within our service portfolio. Oxford Nanopore Technology stands out due to its unparalleled capacity to produce data outputs that are beyond the reach of any other sequencing technology, whether it is within our genomics service or external providers. We are currently equipped with the PromethION, MinION, and GridION platforms, allowing us to harness the full potential of this groundbreaking technology to benefit the research community at Genomics Birmingham.",
"lots": [
{
"id": "1",
"description": "Our decision to source Oxford Nanopore Technologies for these sequencing platforms is founded on several irrefutable factors. Oxford Nanopore Technologies not only manufactures the instruments but also produces the necessary consumables, establishing them as the sole comprehensive source for our requirements. Moreover, the proprietary nature of their technology is affirmed by a series of patents, including WO2010/086622, WO2012/164270, WO2013/014451, WO2014/013260, WO2013/041878, WO2010/000789, US5795782A1, US6015714A1, US6362002B1, US7189503B2, EP0815438B1, EP1238275B1, and US8673556B2. We already have these sequencers in the laboratory and cannot purchase the required consumables for the equipment from any other provider. Oxford Nanopore are the sole providers of consumables and reagents for their sequencers. This unique position of Oxford Nanopore Technologies as both manufacturer and patent holder translates into our sole reliance on them to provide not only the hardware and software components but also the indispensable consumables essential for the operation of these sequencing platforms. Their proprietary knowledge and technical expertise extend to servicing the equipment and offering invaluable guidance on resolving technical challenges, making them the unrivalled choice for our genomics service. No other company possesses the capability to furnish us with the complete suite of resources and support necessary to uphold the exceptional standards of research and innovation we strive to maintain at Genomics Birmingham. Oxford Nanopore Technologies (ONT) holds a unique position in the genomics and sequencing industry for several reasons, which sets them apart from other companies and makes them the preferred choice for Genomics Birmingham: Proprietary Technology: ONT's sequencing technology is proprietary and patented, as indicated by the list of patents provided. This means that they have exclusive rights to this innovative technology, giving them a competitive advantage. Other companies may use different sequencing technologies that may not offer the same advantages or capabilities. Unique properties of Oxford Nanopore sequencing technologies are as follows: * Benchtop instrument that can sequence native DNA from fragment sizes of 20bp to millions of bases for up to 24 independent samples gaining coverage of >30X per sample. * Sequencing of native DNA and native RNA to give output files of modified BAMs and FASTQ files for 5mC and 5hmC methylation and canonical bases. This is performed in one sequencing run simultaneously with no need for additional manipulation of the DNA or RNA. * Real-time sequencing, with real-time basecalling & alignment enabling * Sequencing until a defined coverage is met and/or the ability to fix a run time for your sequencing requirements without the need for a default run time. * Adaptive sampling (enrichment or depletion of known regions without any need for PCR or chemical pull down) this is also capable dynamically allowing targets where read depth is already met to stop sequencing so other targets can be covered. * The same libraries can be run on all Oxford Nanopore instruments, for example, to perform library QC or generate additional data * Possibility to perform a sequencing run, recover the library from the flow cell, and re-sequence to boost yield. Also the ability to wash and re-load the same flow cell enabling flexibility and maximum usage. These properties are unique to Oxford Nanopore and not available from other providers. Data Output: ONT's sequencing platforms, such as the PromethION, MinION, and GridION, are known for their ability to produce unique and extensive data outputs that can be critical for various research applications. The data quality and quantity achieved through ONT's technology may not be matched by alternatives. The duplex chemistry provides around Q30 (99.9%) accuracy with the detection of modified bases at no extra cost or manipulation. Fragments of any size from 20bp upwards can be analysed in the same sequencing run, in real time. Adaptive sampling provides enrichment or depletion without the need for any other manipulation of the DNA or RNA. The P24 can run 24 flow cells independently of each other allowing for maximum flexibility.",
"hasOptions": false
}
],
"items": [
{
"id": "1",
"deliveryAddresses": [
{
"region": "UKG"
}
],
"relatedLot": "1"
}
],
"procurementMethod": "limited",
"procurementMethodDetails": "Award procedure without prior publication of a call for competition",
"coveredBy": [
"GPA"
],
"procurementMethodRationaleClassifications": [
{
"scheme": "TED_PT_AWARD_CONTRACT_WITHOUT_CALL",
"id": "D_OUTSIDE_SCOPE",
"description": "The procurement falls outside the scope of application of the directive"
}
],
"procurementMethodRationale": "Our decision to source Oxford Nanopore Technologies for these sequencing platforms is founded on several irrefutable factors. Oxford Nanopore Technologies not only manufactures the instruments but also produces the necessary consumables, establishing them as the sole comprehensive source for our requirements. Moreover, the proprietary nature of their technology is affirmed by a series of patents, including WO2010/086622, WO2012/164270, WO2013/014451, WO2014/013260, WO2013/041878, WO2010/000789, US5795782A1, US6015714A1, US6362002B1, US7189503B2, EP0815438B1, EP1238275B1, and US8673556B2. We already have these sequencers in the laboratory and cannot purchase the required consumables for the equipment from any other provider. Oxford Nanopore are the sole providers of consumables and reagents for their sequencers."
},
"awards": [
{
"id": "028333-2023-SC12009/23-1",
"relatedLots": [
"1"
],
"title": "PromethION 24 Sequencing Unit PRO-SEQ024 and Consumables",
"status": "active",
"suppliers": [
{
"id": "GB-COH-05386273",
"name": "Oxford Nanopore Technologies plc"
}
]
}
],
"parties": [
{
"id": "GB-COH-RC000645",
"name": "THE UNIVERSITY OF BIRMINGHAM",
"identifier": {
"legalName": "THE UNIVERSITY OF BIRMINGHAM",
"id": "RC000645",
"scheme": "GB-COH"
},
"address": {
"streetAddress": "Edgbaston",
"locality": "BIRMINGHAM",
"region": "UKG31",
"postalCode": "B152TT",
"countryName": "United Kingdom"
},
"contactPoint": {
"name": "Kseniya Samsonik",
"telephone": "+44 1214146899",
"email": "K.Samsonik@bham.ac.uk"
},
"roles": [
"buyer"
],
"details": {
"url": "https://www.birmingham.ac.uk/index.aspx",
"buyerProfile": "https://www.birmingham.ac.uk/index.aspx",
"classifications": [
{
"scheme": "TED_CA_TYPE",
"id": "BODY_PUBLIC",
"description": "Body governed by public law"
},
{
"scheme": "COFOG",
"id": "09",
"description": "Education"
}
]
}
},
{
"id": "GB-COH-05386273",
"name": "Oxford Nanopore Technologies plc",
"identifier": {
"legalName": "Oxford Nanopore Technologies plc",
"id": "05386273",
"scheme": "GB-COH"
},
"address": {
"streetAddress": "Gosling Building Edmund Halley Road, Oxford Science Park,",
"locality": "Oxford",
"region": "UK",
"postalCode": "OX4 4DQ",
"countryName": "United Kingdom"
},
"roles": [
"supplier"
],
"details": {
"scale": "large"
}
},
{
"id": "GB-FTS-8446",
"name": "The University of Birmingham",
"identifier": {
"legalName": "The University of Birmingham"
},
"address": {
"locality": "Birmingham",
"postalCode": "B15 2TT",
"countryName": "United Kingdom"
},
"roles": [
"reviewBody"
]
}
],
"buyer": {
"id": "GB-COH-RC000645",
"name": "THE UNIVERSITY OF BIRMINGHAM"
},
"contracts": [
{
"id": "028333-2023-SC12009/23-1",
"awardID": "028333-2023-SC12009/23-1",
"title": "PromethION 24 Sequencing Unit PRO-SEQ024 and Consumables",
"status": "active",
"value": {
"amount": 202518,
"currency": "GBP"
},
"dateSigned": "2023-09-26T00:00:00+01:00"
}
],
"language": "en"
}