|
|
| (55 intermediate revisions by 3 users not shown) |
| Line 41: |
Line 41: |
| | </div> | | </div> |
| | <!-- End of Section One --> | | <!-- End of Section One --> |
| − |
| |
| − | <!-- Section Two -->
| |
| − | <div class="row" id="projintro" style="padding-top:0px;">
| |
| − | <div class="col-md-1"></div>
| |
| − | <div class="col-md-5 content" style="max-width:1000px;padding:10px 50px;">
| |
| − | </br></br><font size="6">Balance is Key</font></br></br>
| |
| − | Experience has most likely reinforced the idea that balance is key to health, happiness, and well-being. There are lessons to be learned depending on how we apply an understanding of balance to the nature of the process in question. Regarding the human body, scientists have made significant progress in understanding the balance of interactions in biochemical and physiological systems ever since Robert Hooke discovered the first cell in 1665. The vast complexity of interactions in the body between the cells and tissues have made studying how these systems work difficult, yet rewarding. When these interactions fall out of balance, the outcome can be deleterious for the healthy progress of other bodily functions. In some cases, an excess or lack of certain biomolecules can result in medical conditions. One such case is evident and problematic in patients that suffer from chronic wounds. This year, our team seeks a treatment to help restore balance to chronic wounds in hopes of reducing the healing time for patients.
| |
| − | </div>
| |
| − | <div class="col-md-5 content" style="max-width:1000px;padding:10px 150px;">
| |
| − | <center>
| |
| − | </br></br></br><img src="https://static.igem.org/mediawiki/2016/c/cf/T--Lubbock_TTU--aristole.jpg" width="60%"></img>
| |
| − | </br></br><font size="4"><i>"All things in moderation" - Aristotle</i></font>
| |
| − | </center>
| |
| − | </div>
| |
| − | <div class="col-md-2"></div>
| |
| − | </div>
| |
| − | <!-- End of Section 2-->
| |
| − |
| |
| − | <!-- Section 3 -->
| |
| − | <div class="row" id="projintro" style="Background:#f6f6f6;">
| |
| − | <div class="col-md-1"></div>
| |
| − | <div class="col-md-5 content" style="max-width:1000px;padding:10px 50px;">
| |
| − | <center>
| |
| − | </br></br></br>
| |
| − | </center>
| |
| − | </div>
| |
| − | <div class="col-md-5 content" style="max-width:1000px;padding:10px 50px;">
| |
| − | </br></br><font size="6">The Art of Balance</font></br></br>
| |
| − | Biochemical pathways play a sophisticated balancing act within cells and the surrounding environment to maintain the proper emergent functionality of a biological system or process. For example, wound healing is generally categorized into four stages, hemostasis, inflammation, proliferation, and remodeling: these are emergent processes that occur in response to an injury and encompass a vast collection of interactions among proteins, cells, and biological mediators. The healthy progression of each stage can be characterized by a dependency on balanced physical and chemical interactions of these mediators and structural components. In the inflammation stage, growth factors are released to recruit cells that remove debris and help rebuild the matrix to support tissue growth. Our team focused on restoring balance by mitigating the consequences associated with an excess build-up of an enzyme which breaks down matrix proteins and growth factors. These enzymes are known as matrix metalloproteinases (MMPs) and play a pivotal role in healthy wound healing. In chronic wounds, MMPs are present in surplus amounts and excessively degrade valuable bioactive molecules and structural proteins necessary for progressing past the inflammation stage.
| |
| − | </br></br>
| |
| − | </div>
| |
| − | <div class="col-md-2"></div>
| |
| − | </div>
| |
| − | <!-- End of Section 3 -->
| |
| − |
| |
| − | <!-- Section 4 -->
| |
| − | <a name="gensup">
| |
| − | <div class="row" id="projintro" style="padding-top:0px;">
| |
| − | <div class="col-md-1"></div>
| |
| − | <div class="col-md-5 content" style="max-width:1000px;padding:10px 50px;">
| |
| − | </br></br><font size="6" color="#5d5d5d">Restoring Balance with Synthetic Biology</font></br></br>
| |
| − | <font color="#5d5d5d">The excess build-up of wound site protease can be moderated by a protease inhibitor. In order for a chronic wound to pass the inflammation phase, there are a series of medical treatments that must maintain a certain degree of balance to remain effective. Synthetic biology aims to establish more modular environments to solve problems with engineering principles. Our team sought a modular platform by using fusion proteins as ropes to attach therapeutic proteins to our collagen scaffold. We hope iGEM teams can build off the modularity of the fusion proteins. This will allow accelerated testing of various therapeutic factors within a chronic wound by using different growth factors and protease inhibitors. A library of fusion proteins can be established and developed in the future to accelerate personalized wound dressings. We primarily worked with platelet derived growth factor (PDGF) and Aprotinin, a trypsin protease inhibitor. In the future, we hope to explore the effects of many other fusion proteins in the restoration of balance within chronic wounds. </font></br></br>
| |
| − | </div>
| |
| − | <div class="col-md-5 content" style="max-width:1000px;padding:10px 50px;">
| |
| − | <center>
| |
| − | </br></br></br>
| |
| − | </br></br>
| |
| − | </center>
| |
| − | </div>
| |
| − | <div class="col-md-2"></div>
| |
| − | </div>
| |
| − | <!-- End of Section 4 -->
| |
| | | | |
| | <!-- Section 5 --> | | <!-- Section 5 --> |
