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Frequently Asked Questions

General Product FAQ's

Does the price of the test include the processing fee?
Yes. Upon completion of analysis, you will be mailed an Ancestry Analysis Certificate, suitable for framing. You will also receive a Behavior, Health and Personality Summary which will give you general information pertaining to each of the breeds found.

Can you confirm that my dog is pure bred?
No. The DNA Breed Identification test is designed for the sole purpose of identifying breeds found in the genetic composition of mixed breed dogs. The test can only identify breeds, from those in our database, which are present. If only one breed is detected, it could be that there are breeds present that are not in our database, or that there is DNA present from another breed, but in amounts too small to be detected.

Can I collect the DNA myself?
Yes, the collection process is very simple and can be performed at home by following the instructions that come with the kit.

Does DNA collection hurt my pet?
The DNA collection is painless. The gentle swabs minimize any chance of irritation.

How do I send the DNA back to BioPet?
Once you have collected your DNA sample, simply put the swab back in the paper sleeve, and place it, along with the Customer Information Card, in the enclosed prepaid envelope.

How long does it take to get the results?
Results are normally mailed within 2 weeks from the receipt of the sample.

How does BioPet know which breeds are present in my dog?
At BioPet, we have spent a considerable amount of time analyzing DNA from purebred dogs, to build a comprehensive database that highlights the differences between different breeds. By comparing your dog's DNA with our database, we can identify which of our 63 validated breeds are present.

What is the Ancestry Analysis Certificate?
The list on the certificate shows the detected breeds in decreasing order. The most prevalent breed is listed first, the least prevalent being last.

Why are several breeds listed on my Ancestry Analysis Certificate, and what does the order mean?
The list on the certificate shows the detected breeds in Levels, based on the percentage of DNA found.

What if there are breeds in my dog that are not in your database?
We believe that 92% of the mixed breed population is covered by our validated breeds. However, if there is DNA detected from a breed not in our database, it will be assigned to the most closely related breed, or to breeds further back in your dog's ancestry.

Why is pit bull not on your list?
The EDP Validated Breeds are based on breeds recognized by the American Kennel Club® (AKC). The term “pit bull” has come to describe several types of dogs, often of mixed breed, that share similar physical characteristics. There are several AKC breeds with characteristics often shared by dogs referred to as “pit bull” that are in our database, such as the American Staffordshire Terrier, Boxer, Bulldog, Bull Terrier, Boston Terrier and Mastiff, so these breeds could be identified.

How do I find out what dogs are present in your database?
Please view our list of Identified Breeds here. Check back frequently as new breeds are added, our website will be updated.

How accurate is this test?
It is understood that no analytical test is 100% accurate. If a breed is present in your dog that is in our database of 63 validated breeds, it should be detected. However, if DNA is found from a breed that is not in our data base, it will be assigned to the most closely related breed, or to breeds that are further back in your dog’s ancestry.


Will the test tell me what percentage of each breed makes up my dog?
Results are reported in Levels, which indicate a percentage range. These are:

   Level 1: Over 75% of the DNA found in your dog is from the breed listed.
   Level 2: Each breed listed represents between 37-74% of your dog's DNA
   Level 3: Each breed listed represents between 20-36% of your dog's DNA
   Level 4: Each breed listed represents between 10-19% of your dog's DNA
   Level 5: Each breed listed represents less than 10% of your dog's DNA.

Will you be adding more dogs to your database?
BioPet is always actively working on adding more breeds to our database. They will be listed on our website as they are added.

Science FAQ's

How was the test developed?
Research into the Dog Genome has been ongoing for several years. It began with a hope that a better understanding of the dog genome would help the fight against human cancer as it had been shown that there were many similarities between canine and human cancers. Completion of the Dog Genome Project in 2005 has enabled scientists to discover segments of the DNA molecule that produce differences between various breeds of dogs, such as the shape of the tail, size or color. (reference: The Dog Genome: Survey Sequencing and Comparative Analysis Ewen F. Kirkness, Vineet Bafna, Aaron L. Halpern, Samuel Levy, Karin Remington, Douglas B. Rusch, Arthur L. Delcher, Mihai Pop, Wei Wang, Claire M. Fraser, and J. Craig Venter Science 26 September 2003 301: 1898-1903)

How does the test actually work?
When a sample is received by the lab it is put into a solution that takes the cheek cells off the swab and releases the DNA. Once you have the DNA in solution, it is mixed with a number of chemicals and copied by a process called PCR (Polymerase Chain Reaction). This basically makes millions and millions of copies of the bits of the DNA that are needed for analysis, and we call those pieces of DNA "markers". Once we have the amplified DNA markers, we analyze the information from those markers and compare it to our reference database. The comparison database is really the key to the whole process. During the comparison process, the results for the DNA markers from your mixed breed dog is compared with DNA marker information from thousands and thousands of pure bred dogs. This matching process is performed on a computer through a sophisticated program that repeats the analysis thousands of times to assure an accurate result.

How many breeds does your test recognize and how did you choose those breeds?
The BioPet Breed ID test can recognize 63 breeds. Those 63 breeds represent about 92% of the dog DNA that is in the US according to historical trends in breed popularity. The breeds that we detect are the most common breeds you see, such as Labrador Retriever, German Shepherd Dog, Yorkshire Terrier or Chihuahua. These common breeds are the ones most likely to be present in a mixed breed dog or in the increasingly common designer dogs. The rare breeds that are found in the US are unlikely to be present in a normal mixed breed, so breeds like Pharaoh Hound or Kuvasz or Wirehaired Pointing will not be seen in many mixed breed dogs.

How accurate is your test?
To state what our accuracy is, we need to know what the correct answer is, and for most mixed breed dogs nobody knows exactly which breeds are present. It is possible to quote a statistical value (called positive predictive value or PPV) for pure bred dogs (where we have a PPV>99%) or for first generation mixed breed dogs (where we have a PPV>95%), but as the vast majority of mixed breed dogs are neither pure bred nor first generation mixed breed, those figures are inappropriate. The figure that we can tell you with certainty is that less than 3% of owners complain about their results, and normally the problem has been caused by contamination of the sample during collection, transit or handling.

I have read that the number of markers is critical for accurate breed identification, is that true?
That statement is almost correct. The number of markers is important, but it is not the only important factor. We also need to consider the amount of information that each marker will give us. For example, if you have a choice between using 10 markers that will only identify one breed each and one marker that will help to identify 15 breeds, it is obvious that you would choose the marker that helps to identify the 15. Just quoting the number of markers that are used does not really help you know the precision of the test. You must also know how much information each marker will give you, therefore basing a comparison on the number of markers used in the test is not valid. We can however tell you that in our test we compare well over 500 data points when performing the breed identification.

Is the size of my dog controlled by the same markers as the breed?
One interesting genetic discovery about dogs is that there is a specific size gene for the dog. This is the reason why you can have dogs with an identical appearance except different size! The Poodle family (Toy, Miniature and Standard) illustrate this point perfectly. As an extreme example if you crossed a Great Dane and a Yorkshire Terrier it would be possible to have a dog that looks like a Great Dane but is only 6 inches tall. (reference; A Single IGF1 Allele Is a Major Determinant of Small Size in Dogs Nathan B. Sutter, Carlos D. Bustamante, Kevin Chase, Melissa M. Gray, Keyan Zhao, Lan Zhu, Badri Padhukasahasram, Eric Karlins, Sean Davis, Paul G. Jones, Pascale Quignon, Gary S. Johnson, Heidi G. Parker, Neale Fretwell, Dana S. Mosher, Dennis F. Lawler, Ebenezer Satyaraj, Magnus Nordborg, K. Gordon Lark, Robert K. Wayne, and Elaine A. Ostrander Science 6 April 2007 316: 112-115)

Do you perform any quality control tests in your assay?
Having an effective quality control system is essential for a lab to process large numbers of DNA samples correctly. To prove that our test continues to perform properly, we run a number of control dogs every day. These are dogs that we know and have access to on a regular basis so we know what their results should be. By running a sample from these dogs alongside every group of customer dogs we are able to check that our processes are working properly. If our control dogs fail or give results that were different from previous runs, we retest all the customer samples that were processed at that same time.

Is blood the best sample for breed identification?
No, not necessarily. It has been suggested that a blood sample is the "Gold Standardö for genotyping applications. That is simply not true. For every critical application where DNA is required it is typically a cheek swab that is used. For example, if you are watching CSI on TV, the investigators take a cheek swab to match a suspects DNA to evidence found at a crime scene. Globally, DNA databases used for matching DNA have been built by using cheek swabs. Blood samples are simply not the only, nor the preferred, way to collect DNA samples for forensics labs, the FBI or any other organization that routinely collects DNA. In human paternity testing more than 95% of the labs who perform those tests use cheek cells collected on swabs. If you look in the scientific literature, more than 85% of papers published over the past 10 years involving genotyping (what we do in the breed identification process) use a cheek swab. If the use of a cheek swab is the best method for collecting samples that will be used to determine murder trials or prove who a child's parents are, then it is also the best method that we can use for our pets.

Why is using a cheek swab better than using a blood sample?
The use of a cheek swab has many advantages over the use of a blood sample. The DNA that is present in cells is the same regardless of the source of that cell, be it blood or cheek. It does not matter where in the body those cells actually come from, the DNA that is in them is the same. The main advantage that you have with cheek cells is that the sample is easy to collect and relatively clean. When you collect epithelial cells from the lining of the cheek there is not much present on the swab other than cheek cells and a bit of saliva. A blood sample it is a very different proposition. The most common cell type in blood, red cells, does not contain any DNA. Even worse, those very common red cells contain hemoglobin which will interfere with a critical reaction in the breed ID process. Therefore the red cells must all be removed by a time consuming and expensive process. When we look at a cheek swab, the DNA that we obtain is easy to get to, relatively pure, and doesn't require a labor intensive purification process like blood.

But a cheek swab is also easier to use right?
Yes it is. Almost anyone can successfully take a cheek swab from their dog and send it in. It is quick, easy and, most importantly, stress and pain free for the dog. Compare that with a blood sample, where you must take the time to drive your dog to the V place (we do not want to say Veterinarian in case your dog gets scared and runs off). When you get there, your now stressed dog must be taken in by a technician, have a needle stuck into a vain and blood drawn. What is worse, the vet will normally charge you for the privilege of sticking them with a needle!

So why would anyone use a blood sample rather than a cheek swab?
We cannot think of any good reason which is why we use a cheek swab! We at BioPet have been involved in collecting DNA samples for analysis for more than 20 years. There is no valid technical reason why you would want to use a blood sample over a cheek swab for this application.

I have been told that cheek swabs do not work and often fail. Is that true?
Not in our case. If we look at the samples we have received here at BioPet over the past year, about 90% of the swabs work first time. If we look at using 2 swabs, 98% of the samples give sufficient DNA to work. That is why at BioPet we include 2 swabs in each collection kit giving a better chance of getting a successful sample then others have reported with blood!