Difference between revisions of "Team:Valencia UPV/pruebaSeminario"

 
(6 intermediate revisions by the same user not shown)
Line 16: Line 16:
 
#content { margin-left:0px; margin-top:-30px; padding:0px; width:100%;}
 
#content { margin-left:0px; margin-top:-30px; padding:0px; width:100%;}
  
.red{
 
  style=" height: 100%; width: 100%; position: absolute;"
 
}
 
  
.red:hover{
 
  background-color:#e55e5e;
 
  style=" height: 100%; width: 100%; position: absolute;"
 
}
 
 
.blue{
 
  style=" height: 100%; width: 100%; position: absolute;"
 
}
 
 
.blue:hover{
 
  background-color:#57b6f9;
 
  style=" height: 100%; width: 100%; position: absolute;"
 
}
 
 
.yellow{
 
  style=" height: 100%; width: 100%; position: absolute;"
 
}
 
 
.yellow:hover{
 
  background-color:#ffc711;
 
  style=" height: 100%; width: 100%; position: absolute;"
 
}
 
  
 
</style>
 
</style>
Line 116: Line 91:
 
display: block;">
 
display: block;">
 
                              
 
                              
                            <h1 style="
+
                     
margin-bottom: 3px;left: 0em;
+
    position: relative;
+
    z-index: 98;
+
    color: #353535;">Synbio Has Never Been Easier</h1>
+
 
                             <div class="modal-instance block">
 
                             <div class="modal-instance block">
 
                                  
 
                                  
Line 165: Line 136:
 
margin-bottom: 0px !important;width: 132em;height: auto;margin-top: 0em;border-radius: 0;overflow;overflow: hidden;">
 
margin-bottom: 0px !important;width: 132em;height: auto;margin-top: 0em;border-radius: 0;overflow;overflow: hidden;">
 
</div>
 
</div>
<div class=" col-lg-6 col-md-6 pos-left" style="
+
<div class=" col-lg-6 col-md-6" style="
top: -7.5em;
+
top: -7.5em;float: left !important;
 
padding-right: 0px;
 
padding-right: 0px;
 
padding-left: 0px;
 
padding-left: 0px;
position: relative;
+
position: relative;
height: 67%;
+
float: left;">
background-color: #DCDEDC;
+
                    <div style="
float: right;">
+
width: 100%;
<div class="row" style="
+
height: 16%;"><p style="
padding: 5em;
+
padding-top: 5.5em !important;
;
+
padding-left: 6em !important;
display: block;
+
margin: 0em !important;
position: absolute;
+
height: 87% !important;
height: 100%;">
+
margin-bottom: 11em !important;margin-left: 6em;
                        <div class="col-lg-12 col-md-12 mt--12" style="
+
margin-top: 5em;
display: block;">
+
padding-right: 5em !important;
                           
+
font-size: 18px !important;
                            <p class="lead" style="
+
width: 102%;
 +
overflow-x: hidden !important;
 +
padding: 0;
 +
height: 100%;
 +
overflow: scroll;
 
letter-spacing: 0px;
 
letter-spacing: 0px;
 
line-height: 27px !important;
 
line-height: 27px !important;
  
 
color: white;
 
color: white;
     position: relative;
+
     position: absolute;
 
     left: 0em;
 
     left: 0em;
 
     z-index: 20;">
 
     z-index: 20;">
 
                               Access to Synthetic Biology by the interested layperson is currently hampered by several barriers, including a required background knowledge and availability of expensive and often bulky technological equipment. Printeria, a fully-equipped bioengineering device able to automate the process of printing genetic circuits in bacteria but made as simple and easy to operate as a domestic desktop printer, breaks down these barriers. It uses a digital microfluidic system creating little droplets that can be mixed and moved across predefined electrode paths on a PCB surface. Printeria combines this novel system with Golden Gate Technology, low-cost sensors and electronics, and a user-friendly software application. This way, the user is capable of assembling domesticated DNA parts in a one-step reaction and can control all biotechnological steps, from the assembly of parts and transformation to cell culture, with high accuracy. Printeria opens the door to a world of applications affordable for the general public.
 
                               Access to Synthetic Biology by the interested layperson is currently hampered by several barriers, including a required background knowledge and availability of expensive and often bulky technological equipment. Printeria, a fully-equipped bioengineering device able to automate the process of printing genetic circuits in bacteria but made as simple and easy to operate as a domestic desktop printer, breaks down these barriers. It uses a digital microfluidic system creating little droplets that can be mixed and moved across predefined electrode paths on a PCB surface. Printeria combines this novel system with Golden Gate Technology, low-cost sensors and electronics, and a user-friendly software application. This way, the user is capable of assembling domesticated DNA parts in a one-step reaction and can control all biotechnological steps, from the assembly of parts and transformation to cell culture, with high accuracy. Printeria opens the door to a world of applications affordable for the general public.
                             </p>
+
                             </p></div><img alt="image" loop="infinite" src="https://static.igem.org/mediawiki/2018/3/37/T--Valencia_UPV--ImagenHomeNegroDerUPV2018.jpeg" style="
                            <div class="modal-instance block">
+
margin-bottom: 0px !important;width: 132em;height: auto;margin-top: 0em;border-radius: 0;overflow;overflow: hidden;">
                               
+
</div>
                               
+
 
                               
+
                                <!--end of modal-container-->
+
                            </div>
+
                            <!--end of modal instance-->
+
                        </div>
+
                    </div><img alt="image" src="https://static.igem.org/mediawiki/2018/3/37/T--Valencia_UPV--ImagenHomeNegroDerUPV2018.jpeg" style="width: 132em;height: auto;margin-top: 0em;border-radius: 0;overflow;overflow: hidden;">
+
                   
+
                    <!--end of row-->
+
                </div>
+
 
                 <!--end of container--></row>
 
                 <!--end of container--></row>
 
             </section></div>
 
             </section></div>

Latest revision as of 12:55, 14 October 2018

Stack Multipurpose HTML Template

image
image
image

Access to Synthetic Biology by the interested layperson is currently hampered by several barriers, including a required background knowledge and availability of expensive and often bulky technological equipment. Printeria, a fully-equipped bioengineering device able to automate the process of printing genetic circuits in bacteria but made as simple and easy to operate as a domestic desktop printer, breaks down these barriers. It uses a digital microfluidic system creating little droplets that can be mixed and moved across predefined electrode paths on a PCB surface. Printeria combines this novel system with Golden Gate Technology, low-cost sensors and electronics, and a user-friendly software application. This way, the user is capable of assembling domesticated DNA parts in a one-step reaction and can control all biotechnological steps, from the assembly of parts and transformation to cell culture, with high accuracy. Printeria opens the door to a world of applications affordable for the general public.

image

CONTACT US igem.upv.2018@gmail.com