Difference between revisions of "BioTech Lab"
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|colspan=2 align=center style="margin:0;background-color:#008ac3;font-size:120%;font-weight:bold;border:1px solid #008ac3;text-align:center;color:#fff;padding:0.2em 0.4em;border-radius:25px;"|'''Biotech Lab''' | |colspan=2 align=center style="margin:0;background-color:#008ac3;font-size:120%;font-weight:bold;border:1px solid #008ac3;text-align:center;color:#fff;padding:0.2em 0.4em;border-radius:25px;"|'''Biotech Lab''' | ||
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| − | |''' | + | |colspan=2|'''Members with Knowledge''' |
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|- | |- | ||
| − | | | + | |Dan Burroughs |
| − | + | Dave Casey | |
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|colspan=2|'''Location''' | |colspan=2|'''Location''' | ||
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| − | | | + | |Behind a locked door, to the left of the lobby |
| − | Behind a locked door, to the left of the lobby | ||
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== Why is BioTech Important for FamiLAB? == | == Why is BioTech Important for FamiLAB? == | ||
We appear to be in a unique point in history where we can leverage our existing strengths to learn new skills to make a meaningful contribution to science and quality of life, -'''''in our spare''''' '''''time.''''' | We appear to be in a unique point in history where we can leverage our existing strengths to learn new skills to make a meaningful contribution to science and quality of life, -'''''in our spare''''' '''''time.''''' | ||
| − | * Biotech is a rapidly growing multi-billion dollar industry with many parallels to the state the computer industry in during the late 70's. | + | * Biotech is a rapidly growing multi-billion dollar industry with many parallels to the state of the computer industry in during the late 70's. |
* There are many areas where quality of life could be improved through a better understanding of biology, but there is not sufficient potential ROI to warrant development by large corporations/institutions. | * There are many areas where quality of life could be improved through a better understanding of biology, but there is not sufficient potential ROI to warrant development by large corporations/institutions. | ||
** Research funding typically goes to academic institutions and industry. | ** Research funding typically goes to academic institutions and industry. | ||
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* Participating in the [http://igem.org/ iGEM] (International Genetically Engineered Machines) Labs program by designing and implementing new [http://parts.igem.org/Help:Standards/Assembly "biobrick parts"] that perform useful functions, and submitting them to a growing open source repository. | * Participating in the [http://igem.org/ iGEM] (International Genetically Engineered Machines) Labs program by designing and implementing new [http://parts.igem.org/Help:Standards/Assembly "biobrick parts"] that perform useful functions, and submitting them to a growing open source repository. | ||
** Refining a violacein production pathway in yeast to more easily produce an expensive, medically useful, and exceedingly cool looking purple pigment. | ** Refining a violacein production pathway in yeast to more easily produce an expensive, medically useful, and exceedingly cool looking purple pigment. | ||
| − | ** Creating a biobrick that implements an easy to use protein excretion tag which would facilitate measurement and large scale bioproduction of useful compounds | + | ** Creating a biobrick that implements an easy to use protein excretion tag which would facilitate measurement and large scale bioproduction of useful compounds |
* Participating in [http://bio.academany.org/ HTGAA], accepting applications now! | * Participating in [http://bio.academany.org/ HTGAA], accepting applications now! | ||
** Building a relatively affordable atomic force microscope in order to verify DNA origami constructs | ** Building a relatively affordable atomic force microscope in order to verify DNA origami constructs | ||
** Synthetic miminal cell production of small circular peptides that may have interesting antibiotic properties | ** Synthetic miminal cell production of small circular peptides that may have interesting antibiotic properties | ||
| − | * [http://openbci.com/ OpenBCI] - Open-source brain-computer interface. <--- This is dead. If you think it sounds neat be a hero and bring it back to life!! | + | * [http://openbci.com/ OpenBCI] - Open-source brain-computer interface. <--- This is currently a dead project. If you think it sounds neat then be a hero and bring it back to life!! |
* Collaborating with [http://biocurious.org BioCurious.org] on a [[3D BioPrinter]] project | * Collaborating with [http://biocurious.org BioCurious.org] on a [[3D BioPrinter]] project | ||
** Plant Tissue Culture | ** Plant Tissue Culture | ||
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** Glowing fungi | ** Glowing fungi | ||
* [https://opentrons.com/ OpenTrons] fluid handling robot (currently offsite due to space limitations). | * [https://opentrons.com/ OpenTrons] fluid handling robot (currently offsite due to space limitations). | ||
| − | * Engineering e. coli strains to produce chromoproteins in more colors for Agar Art events | + | * Engineering e. coli strains to produce chromoproteins in more colors for Agar Art events. |
| + | * Repairing and refurbishing our very own [[SEM]]. | ||
== Current ToDo List == | == Current ToDo List == | ||
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== Equipment Wish List == | == Equipment Wish List == | ||
| − | |||
* Nanodrop | * Nanodrop | ||
| − | * Consumable items (pipette tips, plates, etc.) | + | * Consumable items (pipette tips, plates, culture tubes, weigh boats, serological pipets, etc, etc.) |
| − | * Multi-port, luer-lock | + | * Multi-port, luer-lock vacuum manifold, preferably the Promega vacuum pig |
| + | * Wheaton bottles | ||
| + | * Whatcha got? | ||
== Experts and References == | == Experts and References == | ||
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===References=== | ===References=== | ||
<references /> | <references /> | ||
| + | [https://en.wikipedia.org/wiki/Biotechnology Biotechnology] article in Wikipedia.<br> | ||
| + | [https://www.fscj.edu/academics/areas-of-study/sciences/biotechnology-laboratory-technology-as/ Biotechnology program] at FSCJ. | ||
| − | [[Category:BioTech]] | + | [[Category:BioTech Lab]] [[Category:BioTech]] |
Latest revision as of 17:51, 19 April 2022
| Biotech Lab | |
| Members with Knowledge | |
| Dan Burroughs
Dave Casey | |
| Location | |
| Behind a locked door, to the left of the lobby | |
The BioTech Lab is located off the lobby. It operates at Biosafety Level 1, meaning it is suitable for work with well-characterized agents that do not cause disease in healthy humans.
Contents
Why is BioTech Important for FamiLAB?
We appear to be in a unique point in history where we can leverage our existing strengths to learn new skills to make a meaningful contribution to science and quality of life, -in our spare time.
- Biotech is a rapidly growing multi-billion dollar industry with many parallels to the state of the computer industry in during the late 70's.
- There are many areas where quality of life could be improved through a better understanding of biology, but there is not sufficient potential ROI to warrant development by large corporations/institutions.
- Research funding typically goes to academic institutions and industry.
- Historically, real innovation has comes from amateurs and hobbyists. The ability to read, write, and edit DNA is just now becoming something that is accessible at the "homebrew computer club" scale.
- As the use of biotechnology becomes more and more a part of our lives, it is imperative that we become literate in how it works, and hands on learning in a safe environment is an ideal way to develop a deeper understanding of what is involved, and what is at stake.
Notes about BioTech Safety
We are a BSL-1 lab, so we only work with well-characterized, non-pathogenic, non-mammalian organisms. (ToDo: add info regarding our ISRB, working with FBI, EPA, etc.)
Projects We are Working On
- DNA Barcoding workshops in which participants bring in plant, insect, or fungi samples from which DNA is extracted, amplified, and sent off for sequencing. Results are compared with existing data to either ID the specimen, or, possibly, add a new discovery to the database.
- Participating in the iGEM (International Genetically Engineered Machines) Labs program by designing and implementing new "biobrick parts" that perform useful functions, and submitting them to a growing open source repository.
- Refining a violacein production pathway in yeast to more easily produce an expensive, medically useful, and exceedingly cool looking purple pigment.
- Creating a biobrick that implements an easy to use protein excretion tag which would facilitate measurement and large scale bioproduction of useful compounds
- Participating in HTGAA, accepting applications now!
- Building a relatively affordable atomic force microscope in order to verify DNA origami constructs
- Synthetic miminal cell production of small circular peptides that may have interesting antibiotic properties
- OpenBCI - Open-source brain-computer interface. <--- This is currently a dead project. If you think it sounds neat then be a hero and bring it back to life!!
- Collaborating with BioCurious.org on a 3D BioPrinter project
- Plant Tissue Culture
- Growing things that glow (or at least fluoresce)
- Glowing Plant Project Beta
- Dinoflagellates (plankton)
- Bioluminescent bacteria
- Green Fluorescent Protein producing baker's yeast
- Green Fluorescent Protein excreting brewer's yeast
- Glowing fungi
- OpenTrons fluid handling robot (currently offsite due to space limitations).
- Engineering e. coli strains to produce chromoproteins in more colors for Agar Art events.
- Repairing and refurbishing our very own SEM.
Current ToDo List
- Set up temperature monitoring, and isolated lighting for glowing dinoflagellates
- Develop better structure for DNA barcoding workshop
- Resolve issues with temperature limits in firmware for 3D bioprinter
- Get -80ºC freezer wiring in place and get freezer working
- Plan for Bio Activities at Maker Faire Orlando
- Validate silica purification methods for genomic and plasmid DNA
- Organize Agar Art event
- Organize with mushroom guy for a two part fungal indentification class
- Run a line for air pressure
- Troubleshoot temperature stability in plate incubator
Protocols and Equipment
Link to our BioTech Protocols article.
Link to our BioTech Equipment article.
Equipment Wish List
- Nanodrop
- Consumable items (pipette tips, plates, culture tubes, weigh boats, serological pipets, etc, etc.)
- Multi-port, luer-lock vacuum manifold, preferably the Promega vacuum pig
- Wheaton bottles
- Whatcha got?
Experts and References
Experts
User:DaveCasey - Hardware design and acquisition, networking, general awesomeness
User:Gene.jacket - Genetics, molecular biology
User:CosmicAug - Mycology, plant culture
External Links
Reading list/resources:
- diybio.org Their mailing list is very active, though signal to noise varies dramatically from month to month.
Spaces we are collaborating with:
References
Biotechnology article in Wikipedia.
Biotechnology program at FSCJ.
