Notice Information
Notice Title
Elyra 7
Notice Description
With the recently developed Lattice SIM2 technology, there is a clear opportunity to broadly deploy SR at the new Institute for Regeneration and Repair (IRR) at the Edinburgh bioQuarter campus. Our ability to track dynamic cellular processes has been transformed by new tools and techniques that have emerged from genetics (CRISPR), stem cell biology (iPSCs and organoids), and synthetic biology (genetic circuits and reporters). These can be combined with super-resolution (SR) imaging capabilities to gain deep mechanistic insights into human disease mechanisms and support drug discovery (target validation). We are therefore seeking support to purchase the Zeiss Lattice SIM2 SR microscope. This will open possibilities for many MRC funded research groups to routinely perform live cell super-resolution imaging across a range of physiological samples, scales and models.
Lot Information
Lot 1
Zeiss Lattice SIM2 SR microscope. This will open possibilities for many research groups to routinely perform live cell super-resolution imaging across a range of physiological samples, scales and models. The procurement route taken is a direct award facilitated through APUC frameworks. Stem cell biology and regenerative medicine have been a strategic priority for the UoE over the past two decades. Newly recruited faculty at all career stages have created a critical mass of PIs who have, and continue, to make seminal contributions to our understanding of fundamental biology and translation into new technologies, platforms and therapeutics. The new Institute for Regeneration and Repair (IRR) at the Edinburgh bioQuarter campus, brings together faculty from the former MRC Centre for Regenerative Medicine, MRC Centre for Inflammation Research and MRC Centre for Reproductive Health. Over the past decade these MRC Centres have created a wealth of novel stem cell-based models, genetically engineered derivative cell reporters, model organisms (development, regeneration/repair and cancer), as well as human tissue slice techniques, co-cultures
Procurement Information
The MaxCyte ExPERT GTx is the only instrument available on the market that can perform transfection of human cells at a scale compatible with large-scale genome engineering applications: up to 20 billion cells per experiment. The MaxCyte offers high efficiency of electroporation, low cytotoxicity and high flexibility through its unique flow electroporation technology, in which cells are pumped through an integrated electroporation circuit. Competing instruments that lack the flow electroporation capacity are not compatible with large-scale genome engineering applications. This unique capability has been compared to the required output of the use of the machine and directly applies to the usage
Notice Details
Publication & Lifecycle
- Open Contracting ID
- ocds-r6ebe6-0000754541
- Publication Source
- Public Contracts Scotland
- Latest Notice
- https://www.publiccontractsscotland.gov.uk/search/show/search_view.aspx?ID=JAN495885
- Current Stage
- Award
- All Stages
- Award
Procurement Classification
- Notice Type
- OJEU - F3 - Contract 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
38512200 - Molecular microscopes
Notice Value(s)
- Tender Value
- Not specified
- Lots Value
- Not specified
- Awards Value
- Not specified
- Contracts Value
- £795,179 £500K-£1M
Notice Dates
- Publication Date
- 8 Jan 20242 years ago
- Submission Deadline
- Not specified
- Future Notice Date
- Not specified
- Award Date
- 21 Dec 20232 years ago
- Contract Period
- Not specified - Not specified
- Recurrence
- Not specified
Notice Status
- Tender Status
- Complete
- Lots Status
- Complete
- Awards Status
- Not Specified
- Contracts Status
- Active
Buyer & Supplier
Contracting Authority (Buyer)
- Main Buyer
- UNIVERSITY OF EDINBURGH
- Contact Name
- Not specified
- Contact Email
- e.silvester@ed.ac.uk
- Contact Phone
- Not specified
Buyer Location
- Locality
- EDINBURGH
- Postcode
- EH1 1HT
- Post Town
- Edinburgh
- Country
- Scotland
-
- Major Region (ITL 1)
- TLM Scotland
- Basic Region (ITL 2)
- TLM1 East Central Scotland
- Small Region (ITL 3)
- TLM13 City of Edinburgh
- Delivery Location
- TLM75 City of Edinburgh
-
- Local Authority
- City of Edinburgh
- Electoral Ward
- City Centre
- Westminster Constituency
- Edinburgh East and Musselburgh
Further Information
Notice Documents
-
https://www.publiccontractsscotland.gov.uk/search/show/search_view.aspx?ID=JAN495885
Elyra 7 - With the recently developed Lattice SIM2 technology, there is a clear opportunity to broadly deploy SR at the new Institute for Regeneration and Repair (IRR) at the Edinburgh bioQuarter campus. Our ability to track dynamic cellular processes has been transformed by new tools and techniques that have emerged from genetics (CRISPR), stem cell biology (iPSCs and organoids), and synthetic biology (genetic circuits and reporters). These can be combined with super-resolution (SR) imaging capabilities to gain deep mechanistic insights into human disease mechanisms and support drug discovery (target validation). We are therefore seeking support to purchase the Zeiss Lattice SIM2 SR microscope. This will open possibilities for many MRC funded research groups to routinely perform live cell super-resolution imaging across a range of physiological samples, scales and models.
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.
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