OUR COMPANY

Company: Everyday DNA

LAB 6 WRITE-UP

Computer-Aided Design

TinkerCAD

TinkerCAD is a web based tool that allows users to design printable 3D objects. These printable 3D objects are created by various shapes found in the directory towards the right side of the page. The software allows for the manipulation of the three dimensional shapes to exact measurements, providing the user with accurate scale modeling capability. TinkerCAD also allows user to have their 3D objects viewable to the public, allowing anyone who wants to improve the object or 'tinker" to do so. This public feature also allows users to use certain objects as the basic design for their 3D objects. TInkerCAD was used by the product designers for EverydayDNA in the lab on November 20th to improve the designs of the flourimeter and PCR test tube used in previous labs.

Implications of Using TinkerCAD for Design

TinkerCAD allows the the engineer to crate visual prototypes and designs in a virtual space, allowing them to know how the design will look before it is built. This capability allows the engineer to more accurately manipulate the prototypes parts and will help to improve on the design as a whole. TinkerCAD can also be very useful when it comes to redesigning an item. For example, our company, EverydayDNA, redesigned the PCR tubes. TinkerCAD allows you to easily make different changes and see how they look in 3D. The product designers for EverydayDNA decided to connect the PCR tubes into two strips of four. This allows the user to handle the tubes better and keep them all together. A small hook in the middle of each strip was also added in order to make it easier to pick up and navigate the PCR tubes. Lastly, EverydayDNA's kit features tubes that are already labeled. When PCR testing was done previously, there was a risk of the labels made in marker coming off. This would have created a problem of not knowing which tube was which. The changes made fix this problem. TinkerCAD allowed the design to be changed in different ways before making the final decision. It also allowed the design to be viewed prior to manufacturing, which helped determine if it would be a beneficial change to make.

Feature 1: Cancer SNP-Specific Primers

[Instructions: This information will come from the Week 9 exercises you did in lab. Your notes should be in a pdf file that is saved on Blackboard under your group.]

Background on the cancer-associated mutation

[Instructions: Use the answers from questions 3, 4, 5, and 7 to compose, in your own words, a paragraph about rs17879961]

Primer design

• Forward Primer: ACTCACTTAAACCATATTCT
• Cancer-specific Reverse Primer: GGTCCTAAAAACTCTTACAC

How the primers work: [Instructions: explain what makes the primers cancer-sequence specific. In other words, explain why the primers will amplify DNA that contains the cancer-associated SNP rs17879961, and will not exponentially amplify DNA that has the non-cancer allele.]

Feature 2: Consumables Kit

EverydayDNA's consumables kit will include a stackable tip system that provides a stable stand for the pipette tips. This will hold all the tips in place and prevent them from tipping over when picking up new tips. The new test tubes will be connected into groups of four for convenience and will each contain a small handle to prevent spillage when handling the tubes. The kit will also include a few opaque colored tubes for the SYBR Green as opposed to translucent tubes. This will prevent the SYBR Green from being exposed to flourescent light, which can bleach it and render it ineffective. Another change that can be made to the test tubes is the addition of a label holder. This will be added in order to ensure that the marker used to write the label does not rub off while handling the test tubes.

[Instructions: Summarize how the consumables will be packaged in your kit. You may add a schematic image. An image is OPTIONAL and will not get bonus points, but it will make your report look awesome and easy to score.]

[Instructions: IF your consumables packaging plan addresses any major weakness discussed by your group or mentioned by others (see the Virtual Comment Board Powerpoint files on Blackboard, Lab Week 12) explain how in an additional paragraph.]

Feature 3: PCR Machine Hardware

The PCR machine is included in EverydayDNA's system as a method of amplifying the DNA molecules by continuously raising and lowering the temperature of the DNA. This amplification will enable the DNA molecules to be easily analyzed.

The major weaknesses of the PCR machines from previous testing were their slow speed and bulky size. In order to make a more compact PCR machine, the dimensions of the PCR were altered from 20 x 13 x 25cm to 15 x 10 x 20 cm. The speed was addressed by changing the temperature blocks to an easily heated alloy. The alloys max block ramp rate and max sample rate are respectively 4.15[math]\displaystyle{ ^O }[/math]C/sec and 3.95[math]\displaystyle{ ^O }[/math]C/sec. The new temperature blocks can hold 35 PCR tubes, while the old PCR could only handle 16.

Feature 4: Fluorimeter Hardware

One of the biggest issues with the fluorimeter of previous systems was that it was very difficult to regulate the distance between the camera and the fluorimeter and maintain a proper camera angle. To combat this, the EverydayDNA's new diagnostic system contains a fluorimeter with a connected phone stand, as seen in the picture. The phone stand can be placed in any of the four notches on the horizontal pieces coming off the fluorimeter. This allows the distance to be adjusted while still allowing it to be regulated, making it difficult to accidentally alter the distance from the camera to the fluorimeter, which could negatively affect the data.

[Instructions: Summarize how you will include the fluorimeter in your system. You may add a schematic image. An image is OPTIONAL and will not get bonus points, but it will make your report look really REALLY awesome and easy to score.]

[Instructions: IF your group has decided to redesign the fluorimeter to address any major weakness discussed by your group or mentioned by others (see the Virtual Comment Board Powerpoint files on Blackboard, Lab Week 12) explain how in an additional paragraph.]

Bonus Opportunity: What Bayesian Stats Imply About The BME100 Diagnostic Approach

The result from calculation 3 is very small, almost around one tenth of one, and implies that the CHEK2 PCR is not accurate a predicting that a patient possessing the SNP(single-nucleotide polymorphism) CHEK2 will test positive for cancer. The not very big result from calculation 4 implies the CHEK2 PCR is somewhat reliable at predicting that a patient possessing the SNP CHEK2 would not test positive for cancer.