Difference between revisions of "Team:Paris Bettencourt/Project/Indigo"

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<br> We cultured microorganisms on denim covered with minimal M9, isolated the strains and identified them. Then, we tested their capacity at indigo’s degradation. At the end we have three microorganisms that degrade indigo: 2 <i>Streptomyces</i> and <i>Pantoea</i>. </p>
 
<br> We cultured microorganisms on denim covered with minimal M9, isolated the strains and identified them. Then, we tested their capacity at indigo’s degradation. At the end we have three microorganisms that degrade indigo: 2 <i>Streptomyces</i> and <i>Pantoea</i>. </p>
  

Revision as of 14:20, 17 October 2016


Making patterns on denim

Goals

  • Find microorganisms that naturally degrade indigo
  • Test enzyme known for degrading indigo
  • Make patterns on jeans

Methods

Someone should write down this part

Results

3 strains degrading indigo in liquid M9 were identified

Abstract

The main focus of our project this year was enzyme design and discovery. We chose to engineer enzymes because they are a practical technology for removing stains, already known to be safe and economic. However, in our search for microbes that produce stain-removing enzymes we discovered something else: microbes are beautiful. When nutrients are added to fabric samples, bacterial and fungal colonies bloom in every size, shape and color. These microbes grow in beautiful patterns, remove pigments from fabric and leave other pigments behind. When the microbes were gone, the color and texture of the fabric was changed in ways that looked cool to us. What we describe below is not necessarily practical and only somewhat scientific. We are playing around with microbes on ordinary denim blue jeans and trying to create beauty.

Motivation and Background

Blue Jeans: Structure and Function

Jeans are trousers made with denim, a cotton textile. Blue jeans are dyed with indigo, a plant-derived pigment that is now mostly produced synthetically. In a classic blue denim weave, the warp thread is dyed with indigo while the weft threat is left white. The reasulting fabric is blue on one surface, white on the other, with a grainy texture where the fibers cross. The blue threads are stained only on the outside and stay white at the core. As a result, the fabric lightens with wear, producing a characteristic fading pattern (Figure 1).

Denim Washes

The popular appeal of faded denim has lead to the development of many industrial processes that simulate or accelerate the fading process. New denim may be chemically treated, sandblasted, rubbed with sandpaper, or tumbled with abrasive stones prior to sale. These "wash" processes soften the fabric, fade the indigo, and produce a distinctive pattern and appearance. Especially with the trend toward high fashion and premium jeans, designers are motivated to discover new and innovative wash processes. The global jeans market was predicted to be 56 billion USD in 2014 (Agarwal, 2009).

Enzymatic Biowashing

In recent years, enzymes have become a popular tool for producing denim washes. Treatment with cellulases can degrade the external cellulose fibers under mild conditions (Montazer, 2008). As a result, it requires less energy, produces fewer chemical by-products, and causes less damage than chemical or abrasive washes.
Enzymatic treatment with laccase enzymes can be used to fade denim (Campos, 2001). Laccases (EC 1.10.3.2) are copper-containing oxidases that act on a variety of substrates. Acting on indigo, laccase abstracts one electron from each aromatic amine, leaving behind an unstable radical that quickly degrades.
Whole live cells with laccase activity have been used as bioremediation agents, in particular for indigo-containing wastewater from textile factories (Conceição, 2013). This activity was also the inspiration for the Bielefeld 2012 iGEM team. Thus, as we began this project, we knew that live cells and pure enzymes could act on the key components of blue jeans.

Results


We cultured microorganisms on denim covered with minimal M9, isolated the strains and identified them. Then, we tested their capacity at indigo’s degradation. At the end we have three microorganisms that degrade indigo: 2 Streptomyces and Pantoea.

Isolation of Microbes on Denim Media

Quantification of Indigo Degradation

Microbe Wash Denim

Methods

Preparation of Denim and Indio Media

Microbial Identification with 16s rRNA Sequencing

Quantification of Indigo Consumption

Attributions

This project was done mostly by Mislav and Elisa. We would like to thank XX for their collaboration.

References

  • Agarwal, S. (2009). World Denim Market Production and Consuption Report 2012, Denimsandjeans.com.
  • Montazer, M., & Maryan, A. S. (2008). Application of laccases with cellulases on denim for clean effluent and repeatable biowashing. Journal of Applied Polymer Science, 110(5), 3121–3129.
  • Conceição, V., Freire, F. B., & Carvalho, K. Q. de. (2013). Treatment of textile effluent containing indigo blue dye by a UASB reactor coupled with pottery clay adsorption. Acta Scientiarum. Technology, 35(1), 1–6
  • Campos, R., Kandelbauer, A., Robra, K. H., Cavaco-Paulo, A., & Gübitz, G. M. (2001). Indigo degradation with purified laccases from Trametes hirsuta and Sclerotium rolfsii. Journal of Biotechnology, 89(2-3), 131–139.
  • Dubé, E., Shareck, F., Hurtubise, Y. et al. Appl Microbiol Biotechnol (2008) 79: 597. Homologous cloning, expression and characterization of a laccase from Streptomyces coelicolor and enzymatic decolourisation of an indigo dye.
  • J Margot, C Bennati-Granier, J Maillard, P Blánquez, D.A Barry, C Holliger (2013). Bacterial versus fungal laccase : potential for micropollutant degradation. ABM Express ; 3 :63.

Centre for Research and Interdisciplinarity (CRI)
Faculty of Medicine Cochin Port-Royal, South wing, 2nd floor
Paris Descartes University
24, rue du Faubourg Saint Jacques
75014 Paris, France
+33 1 44 41 25 22/25
igem2016parisbettencourt@gmail.com
2016.igem.org