Description | SYPHU-CHINA - iGEM 2025
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Description

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Parts Overview

iGEM 2025

Our team has designed and characterized a collection of biological parts for synthetic biology applications, including both basic and composite parts developed in collaboration with other iGEM teams.

Design Philosophy. We focused on creating modular, well-characterized parts that can be easily assembled into functional genetic circuits for various applications.
Tip: use the search box or filters to quickly locate a part.

Parts Statistics

Overview of our parts collection with key metrics and characterization status.

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Total Parts
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Basic Parts
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Composite Parts
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Collaboration Parts
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Characterized

Basic Parts

Collection of foundational biological parts developed by our team.

Part Number Type Description Status Actions
BBa_25APDUHW Terminator Lambda t0 terminator Characterized View Details
BBa_255PRUUP Terminator T7 terminator Characterized View Details
BBa_25IIOM6L Promoter trc promoter Characterized View Details
BBa_25CIG11F Promoter lacI promoter Characterized View Details
BBa_25FTF83L Coding Retinal dehydrogenase (raldh) Characterized View Details
BBa_25JW8R6Y Coding blh gene with lactic acid chemotaxis Characterized View Details

Composite Parts

Advanced genetic constructs combining multiple basic parts into functional units.

Part Number Type Description Status Actions
BBa_25P4P9KL Plasmid pET-21a-trc-raldh-lIdR-blh Characterized View Details
BBa_25XPE0RF Composite raldh-lIdR-blh Characterized View Details

Collaboration Parts

Biological parts developed in collaboration with Ocean University of China iGEM team.

Part Number Type Description Status Actions
BBa_K5048034 Regulatory lacI promoter with CDS Characterized View Details
BBa_K5303081 Miscellaneous F1 origin replicon Characterized View Details
BBa_K5471001 Regulatory AmpR promoter Characterized View Details
BBa_25UNFLT8 Coding AmpR gene Characterized View Details

Parts Development Timeline

Our journey from conceptualization to characterization of biological parts.

March 2025

Initial design and conceptualization of basic parts.

April 2025

DNA synthesis and cloning of basic parts.

May 2025

Collaboration with Ocean University of China initiated.

June 2025

Assembly and testing of composite parts.

July 2025

Characterization and data collection for all parts.

August 2025

Submission to iGEM Registry and documentation.

Registry Information

Registry Links. All parts have been submitted to the iGEM Registry of Standard Biological Parts and are available for use by the synthetic biology community.

For detailed sequence information, characterization data, and usage guidelines, please visit the official iGEM Registry pages for each part through the links provided in the tables above.

Visit iGEM Registry
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