Close Menu
Indian Textile Journal
  • Home
  • Textile Machinery
    • Allied Equipment and Accessories
    • Automation
    • Dyeing, Processing & Finishing
    • Knitting
    • Printing
    • Spinning
    • Weaving
  • Tech Textiles
  • Sustainability
  • Resources
    • Trade Fair
    • Events
    • Videos
  • Interview & Opinion
  • Subscribe Now
  • Advertise
  • Digital
  • Apparels & Garments
  • Fibres & Raw Materials
  • Home Textiles
  • Industry Update
Facebook X (Twitter) YouTube LinkedIn
Indian Textile Journal
Epson
  • Home
  • Textile Machinery
    • Allied Equipment and Accessories
    • Automation
    • Dyeing, Processing & Finishing
    • Knitting
    • Printing
    • Spinning
    • Weaving
  • Tech Textiles
  • Sustainability
  • Resources
    • Trade Fair
    • Events
    • Videos
  • Interview & Opinion
  • Subscribe Now
  • Advertise
  • Digital
  • Apparels & Garments
  • Fibres & Raw Materials
  • Home Textiles
  • Industry Update
Indian Textile Journal
Home » Antibiotic spider silk developed
Industry Update

Antibiotic spider silk developed

By January 23, 20171 Min Read
Share Facebook Twitter LinkedIn WhatsApp Copy Link

An interdisciplinary work has resulted in functionalized artificial spider silk using E.coli bacteria.

Scientists at the United Kingdom-based Nottingham University have utilised a concept called “click chemistry,” to synthesise antibiotic spider silk. Professor Neil Thomas of the School of Chemistry collaborated with life scientist Dr. Sara Goodacre and her team in the research. Recombinant silk fibers functionalised with levofloxacin was able to retain its antibacterial activity by slow release for up to five days after functionalisation.

According to Professor Thomas, the biocompatible fibers can find applications in tissue engineering and biomedicine. The structure serves as scaffolds for cell growth and provides antimicrobial properties due to the presence of antibacterial agents, by slow release mechanism.

A chance meeting between chemist and scientists from SpiderLab resulted in antibiotic recombinant silk fibers, using “click reaction” technique. The work involved the synthesis of silk protein in a bacterium, where an amino acid not found in protein was added. This amino acid has an azide group, which helps with the click reaction resulting in the functionalized artificial silk.

By: Seshadri Ramkumar, Texas Tech University, USA

Previous ArticleGood start for global cotton industry
Next Article OCM’s 1st franchise fashion store in Delhi

Related Posts

D.BADAMI debuts high-end collection at Bharat Tex 2026

July 15, 2026

DC Handlooms opens ‘Weave The Future 4.0’ at Dilli Haat

July 15, 2026

PDS and Busana Apparel Group join forces to redefine global apparel manufacturing

July 15, 2026
Recent Posts
  • D.BADAMI debuts high-end collection at Bharat Tex 2026
  • DC Handlooms opens ‘Weave The Future 4.0’ at Dilli Haat
  • GHCL Textiles unveils premium yarn and fabric portfolio at Bharat Tex 2026
  • eVent Fabrics and PELLIOT partner to advance eco-conscious outdoor solutions
  • Trident Group accelerates growth at Bharat Tex 2026 through innovation and significant R&D commitment
  • RSWM unveils ‘Sutradhaar’ at Bharat Tex 2026, showcasing the future of Indian textiles
  • Amazon India and TEXPROCIL ink MoU at Bharat Tex 2026 to accelerate global e-commerce for cotton textiles
  • PDS and Busana Apparel Group join forces to redefine global apparel manufacturing
Facebook X (Twitter) YouTube LinkedIn
  • About us
  • Contact us
  • Privacy Policy
  • Terms and Conditions

SISTER PUBLICATIONS

Construction World Equipment India Industrial Product Finder Infrastructure Today

© 2026 Indian Textile Journal. All Rights Reserved.

Type above and press Enter to search. Press Esc to cancel.