Overview
Adoptive cell therapy (ACT) has led to highly effective cancer treatments for patients who had very few treatment options. It utilizes the patient’s own immune system to attack cancer cells.
Engineered TCR therapy is a type of ACT that leverages engineered T cell receptors to target tumor specific antigens. This starts with sequencing of the tumor biopsy to identify tumor mutations, and typically, the peripheral blood to uncover the TCR repertoire.
TCR repertoire sequencing can be done via single cell sequencing or bulk sequencing. Each has it’s own advantages. Bulk sequencing enables you to sample more of the sequence space but information about the alpha-beta TCR pairing is lost. Single-cell sequencing enables you to capture information on the alpha-beta chain pairing and receptor composition. However, single-cell sequencing has a much lower throughput than bulk sequencing.
How can Twist help me build TCR libraries?
Twist offers TCR libraries that complements both strategies:
Paired Pooled TCR Library (figure 1A)
- Enables you to retain the original alpha-beta chain pairing to maximize hit validation and replicate the TCR repertoire
- This is a good complement to single-cell sequencing where the alpha-beta TCR pairing is known
Combinatorial TCR Library (figure 1B)
- Enables you to shuffle alpha and beta chain pairs to create additional diversity and explore novel combinations beyond the identified repertoire
- This is a good complement to bulk sequencing where the alpha-beta TCR pairing is unknown
Tell us what you would like more information on. We’re here to help!
Contact Us
Overview
Adoptive cell therapy (ACT) has led to highly effective cancer treatments for patients who had very few treatment options. It utilizes the patient’s own immune system to attack cancer cells.
Engineered TCR therapy is a type of ACT that leverages engineered T cell receptors to target tumor specific antigens. This starts with sequencing of the tumor biopsy to identify tumor mutations, and typically, the peripheral blood to uncover the TCR repertoire.
TCR repertoire sequencing can be done via single cell sequencing or bulk sequencing. Each has it’s own advantages. Bulk sequencing enables you to sample more of the sequence space but information about the alpha-beta TCR pairing is lost. Single-cell sequencing enables you to capture information on the alpha-beta chain pairing and receptor composition. However, single-cell sequencing has a much lower throughput than bulk sequencing.
How can Twist help me build TCR libraries?
Twist offers TCR libraries that complements both strategies:
Paired Pooled TCR Library (figure 1A)
- Enables you to retain the original alpha-beta chain pairing to maximize hit validation and replicate the TCR repertoire
- This is a good complement to single-cell sequencing where the alpha-beta TCR pairing is known
Combinatorial TCR Library (figure 1B)
- Enables you to shuffle alpha and beta chain pairs to create additional diversity and explore novel combinations beyond the identified repertoire
- This is a good complement to bulk sequencing where the alpha-beta TCR pairing is unknown
Tell us what you would like more information on. We’re here to help!
Contact Us
Performance Data
The discovery of TCRs is driven by the screening of immune cell repertoires and the re-synthesis of large numbers of potential binders. TCR Libraries can be leveraged to rapidly generate combinations of TCR beta and alpha chains for high throughput screening. With combinatorial TCR libraries, the alpha and beta chains are shuffled together to create a library of greater diversity to integrate the variant space beyond the identified repertoire. With paired pool TCR libraries, explicit alpha and beta chain pairing identified through sequencing are conserved.
Combinatorial TCR Libraries
Paired Pool TCR Libraries
T Cell Receptor (TCR) Discovery workflow
Partner with Twist Bioscience to identify and develop novel advanced cell therapies through large-scale, highly diverse T-cell Receptor (TCR) libraries.
We will provide you with highly uniform screening libraries that are precise, user-defined combinations of gene fragments, which enable you to efficiently test comprehensive screening of the desired combinations.
Tell us what you would like more information on. We’re here to help!
Performance Data
The discovery of TCRs is driven by the screening of immune cell repertoires and the re-synthesis of large numbers of potential binders. TCR Libraries can be leveraged to rapidly generate combinations of TCR beta and alpha chains for high throughput screening. With combinatorial TCR libraries, the alpha and beta chains are shuffled together to create a library of greater diversity to integrate the variant space beyond the identified repertoire. With paired pool TCR libraries, explicit alpha and beta chain pairing identified through sequencing are conserved.
Combinatorial TCR Libraries
Paired Pool TCR Libraries
T Cell Receptor (TCR) Discovery workflow
Partner with Twist Bioscience to identify and develop novel advanced cell therapies through large-scale, highly diverse T-cell Receptor (TCR) libraries.
We will provide you with highly uniform screening libraries that are precise, user-defined combinations of gene fragments, which enable you to efficiently test comprehensive screening of the desired combinations.
Tell us what you would like more information on. We’re here to help!
A New Way of Designing Your Libraries
The New Digital Library Design (DLD) Tool is your all in one solution to streamline, optimize, and expedite the DNA Library design and ordering process.
If you have any questions, please feel free to email us at [email protected]
Take a peak to our Digital Library Design (DLD) Tool
A New Way of Designing Your Libraries at Twist
Watch Step by Step how to optimize your sequences
Let’s get Started
The New Digital Library Design (DLD) Tool is your all in one solution to streamline, optimize, and expedite the DNA Library design and ordering process.
Step 1
Log into your account. If you don’t have one, it only takes a few minutes to set it up!
Step 2
Start to design your library in the new interactive libraries design tool which has a step by step “how to” wizard. With this option you can optimize your library in real time with validations on the fly and real-time pricing and receive an SOW at the end of the submission process.
Step 3
Once the quote is accepted by the customer, the Libraries Team will send the project to the production team
Note:
The Digital Libraries Design Tool is not currently available in the APAC region. Please check with your local support team on availability date.
A New Way of Designing Your Libraries
The New Digital Library Design (DLD) Tool is your all in one solution to streamline, optimize, and expedite the DNA Library design and ordering process.
If you have any questions, please feel free to email us at [email protected]
Take a peak to our Digital Library Design (DLD) Tool
A New Way of Designing Your Libraries at Twist
Watch Step by Step how to optimize your sequences
Let’s get Started
The New Digital Library Design (DLD) Tool is your all in one solution to streamline, optimize, and expedite the DNA Library design and ordering process.
Step 1
Log into your account. If you don’t have one, it only takes a few minutes to set it up!
Step 2
Start to design your library in the new interactive libraries design tool which has a step by step “how to” wizard. With this option you can optimize your library in real time with validations on the fly and real-time pricing and receive an SOW at the end of the submission process.
Step 3
Once the quote is accepted by the customer, the Libraries Team will send the project to the production team
Note:
The Digital Libraries Design Tool is not currently available in the APAC region. Please check with your local support team on availability date.
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