Team:Virtus-Parva Mexico/Parts

From 2014.igem.org

Revision as of 03:01, 17 October 2014 by Abraham MA 27 (Talk | contribs)

(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)

For human practices we have done a variety of things, mostly dedicated to the dissemination of science within our University, locally in the city of Puebla and nationally through collaborations with other high schools

Law Initiative

Virtus-Parva During the length of our project, we found that importing chemicals reagents and biological agents that we needed were difficult to pass through customs. In coordination with other Mexican teams, specially Tec-Monterrey Team we propose to a local Deputy Patricia Leal Islas a change in customs law, to make it easier for future iGEMers and other scientists to continue with their investigations. Trough this Virtus-Parva shows as a team it's compromise to help the development of science in Mexico.

As we were transforming our E. coli cells, we noticed it wasn’t as fast and efficient as we had hoped, which is how we came up with module two of the project. Quite simply, we wanted to take advantage of the shape of our system and its mobility thanks to magnetism in order to make a more efficient transformation. We were able to verify our method was more efficient by making cells express GFP and RFP, which can then be quantified with optic instruments.

The Idea

The basis for these “drills” will be NEMS, nano electro-mechanical systems, technology.
We took a survey to fellow iGEMers and external people in order to find out how many people knew about the existence of NEMS and if they knew how they worked. Turns out only 36% of survey takers had heard of the term before and of those, only 28% knew what it was!

Given these statistics, it became part of our project to teach newer generations about our subject.

NEMS

NEMS are nanometric electromechanical systems. In this case we take as basis the structure of a resonator which are engineered to make a conversión between energy, such as electric, magnetic, or vibrational into mechanical response.

How exactly do NEMS come into play in our project?

Well, by combining an inorganically synthesized nanoparticle, called magnetite and DNA into what we call BioNEMS drill.

DNA Coiling into Chromosomes

Contenido subtitulo 2

Manuals

Descripcion general de Seccion 3 We also found that being the first iGEM team from our university was not an easy task, advice from a past iGEMer would have been very helpful. Other teams noticed this as well, in particular, Instituto Tecnológico y de Estudios Superiores de Monterrey Campus Estado de México. In cooperation with them, we decided to write an extensive manual for future iGEM teams that need to consult on the mechanics of the contest and need a little push to continue teams in their own universities. This manual talks about an administrative section as well as a lab section. We have made 3 volumes named : "Good laboratory practices an iGEM laboratory work handbook", "The iGeM’s [unofficial, yeT (hopefully) very efficienT] TeaM Manual", " PARTS REGISTRY HANDBOOK: A Guideline into iGEM standardized parts

Good Laboratory practices

After choosing the best method possible, it was time to silanize our magnetite in order for it to be biocompatible with DNA and be able to tie them together. In order for the silanization to take place, we used a solution of TEOS (tetraethoxysilane) dispersed in a medium of water and propanol and dripped this mix slowly onto our magnetite. Just like when we synthesized our particles, we tested different concentrations of TEOS and magnetite, as well as different addition rates in order to observe which combination would give us the smallest possible nanoparticles.

Our results were then characterized by DLS (dynamic light scattering), for which we observed a peak at 39 nm, once coated with TEOS, the peak was moved toward 60 and 80 nm. We also ran our two samples in the IR, comparing the spectra of the pure magnetite and silanized magnetite, we were able to distinguish a peak at 990.2 cm^-1 corresponding to a Si-O bond, confirming the correct silanization of the magnetite.

Biological Section

Soon..