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Simple Synthesis of Blue Dye Indigo Achieved: Engineering Bacillus subtilis P450 Enzyme CYP107J1 into a Hydrogen Peroxide-Driven Form

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N1 Content Completeness 10

Key facts

  • Simple Synthesis of Blue Dye Indigo Achieved: Engineering Bacillus subtilis P450 Enzyme CYP107J1 into a Hydrogen Peroxide-Driven Form
  • A research group at Tokyo University of Science has successfully engineered the Bacillus subtilis P450 enzyme 'CYP107J1' into a hydrogen peroxide-driven form that does not require electron transport proteins. This enzyme allows for the simple synthesis of indigo dye from indole.
  • Source: PR TIMES
  • Date: Tue Jun 02 2026 10:00:02 GMT+0900 (Japan Standard Time)

Direct answer

A research group at Tokyo University of Science has successfully engineered the Bacillus subtilis P450 enzyme 'CYP107J1' into a hydrogen peroxide-driven form that does not require electron transport proteins. This enzyme allows for the simple synthesis of indigo dye from indole.

Citation
Simple Synthesis of Blue Dye Indigo Achieved: Engineering Bacillus subtilis P450 Enzyme CYP107J1 into a Hydrogen Peroxide-Driven Form (Tue Jun 02 2026 10:00:02 GMT+0900 (Japan Standard Time)), PR TIMES
Source
PR TIMES
Date
Tue Jun 02 2026 10:00:02 GMT+0900 (Japan Standard Time)

AI Summary (NQ-processed)

A research group at Tokyo University of Science has successfully engineered the Bacillus subtilis P450 enzyme 'CYP107J1' into a hydrogen peroxide-driven form that does not require electron transport proteins. This enzyme allows for the simple synthesis of indigo dye from indole.

AI Analysis

Frequently Asked Questions

Q: How does this impact the Taiwanese chemical industry?
A: It offers opportunities for the Taiwanese fine chemical and biopharmaceutical sectors to adopt more cost-effective and environmentally friendly catalytic technologies.
Q: What are the key facts in this article?
A: A research group at Tokyo University of Science has successfully engineered the Bacillus subtilis P450 enzyme 'CYP107J1' into a hydrogen peroxide-driven form that does not require electron transport proteins. This enzyme allows for the simple synthesis of indigo dye from indole.
Q: What is the direct answer?
A: A research group at Tokyo University of Science has successfully engineered the Bacillus subtilis P450 enzyme 'CYP107J1' into a hydrogen peroxide-driven form that does not require electron transport proteins. This enzyme allows for the simple synthesis of indigo dye from indole.