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DNA Testing
DNA Testing -Paternity (Real Father)
Home kit: $183.67 (EC $499)
Investigative Services: $308 (USD)
Personal package- Test two alleged fathers and one child at the same time for $820
Maternity (Real Mother)
Personal: $595 – may be used in adoption, missing persons, hospital error etc.
Avuncular (Aunt or Uncle)
$875
Siblingship Test (Full vs Half) Brother or Sister relatedness etc.
$875
Out-call sample collection $50
Home kit: $183.67 (EC $499)
Investigative Services: $308 (USD)
Personal package- Test two alleged fathers and one child at the same time for $820
Maternity (Real Mother)
Personal: $595 – may be used in adoption, missing persons, hospital error etc.
Avuncular (Aunt or Uncle)
$875
Siblingship Test (Full vs Half) Brother or Sister relatedness etc.
$875
Out-call sample collection $50
Dear Friend,
Paternity test reports provide powerful, and often life-changing, information. This section explains how to read and understand a standard paternity test report from IDENTIGENE of Sorenson Genomics. Sample collections facilitated by Caribbean Detective Agency.
PATERNITY TEST — THE RESULTS STATEMENT
Following paternity testing accreditation guidelines, results are reported with one of three possible statements. For example, if we tested John Doe, alleged father, and James Doe (child), our paternity test results report might say one of the following:
A DNA test profile is a set of DNA markers (up to 15) used to determine paternity and identity, including the FBI CODIS markers used for DNA evidence. Geneticists developed this set of markers for consistency in identifying individuals and named them according to their chromosomal location. Each marker location (or "locus") shows two alleles (or variations values), represented by numbers on the report. In this case the alleles are simply measures of short tandem repeats (STR. One of these STR alleles comes from a person’s father, one from their mother.
In a paternity test, the analysis seeks matches of allele number values between the alleged father and child. Because the child must receive one STR allele from his father at all locations (or "loci" which is plural for locus), there should be matches for each marker. (In some cases there are natural mutations, where the child has a slightly higher or lower value than the father, but these occurrences are more infrequent. For this tutorial, we'll assume no natural mutations exist.)
An alleged father can be excluded as the biological father with as little as few as two to three mismatches between DNA profiles. When a person is excluded as the father, the profiles often reveal several, if not many, mismatches. In the following example, the 3 mismatches would exclude the alleged father (he could not be the biological father). Even though there are also 3 matches, these matches are random and do not indicate a paternity relationship. Almost any two people will have at least some matches, but a father-child relationship will show matches at all locations (again, not considering mutations).
PATERNITY TEST — INDEX AND PROBABILITY
Each match receives a Paternity Index (PI) value. The paternity index is a way of measuring the strength of a particular match based in part on the relative uniqueness of the match. In our example, the child and alleged father each show an allele value of "12" at marker D2S1338, the paternity index value is 1.845. This is a reasonably strong match.
However, if the allele value of "12" at this location were more frequent in the population meaning a lot of people have this value at D2S1338, the PI would be smaller, say .0782. It's true the two participants match, and that could be because one is the biological father of the child, but it could also be they match simply because most people would match with this allele value at this location.
On the other hand, what if it was known that very few people would have an allele value of "12" at this location? The match would be stronger because it's more rare. In this case the PI value might increase; it might be 3.452, or 12.819 or as high as 34.125, depending on the strength of the match. A PI value is 0.000 indicates that there is no match between the two profiles at this location.
Once the profiles have been analyzed at all locations, the product of all paternity indexes creates the Combined Parentage Index (CPI). For an alleged father to be considered the child's father (to be "not excluded" as the biological father) the CPI value must be at least 100. A CPI value of 100 corresponds to a probability of paternity of 99.0000%, a CPI value of 10,000 translates to a probability of 99.9900% and so on.
According to DNA paternity testing accreditation guidelines, a paternity report must show a CPI of greater than 100 (and a probability of paternity greater than 99.0%). Most courts, child support agencies, or other legal entities require an accredited paternity test report (see Legal Paternity Testing for more information). Immigration cases require a CPI value of 200 (99.5%) or better.
CONCLUSION
While most DNA paternity tests reflect this "text book" example, there are many other factors to be considered. For example, natural mutations sometimes present more complicated results. Sometimes father and child share many common alleles and though there are many matches, the CPI value is not strong enough for a conclusive result. In most of these cases, including the biological mother significantly strengthens the test results.
Thank you for using Caribbean Detective Agency.
Paternity test reports provide powerful, and often life-changing, information. This section explains how to read and understand a standard paternity test report from IDENTIGENE of Sorenson Genomics. Sample collections facilitated by Caribbean Detective Agency.
PATERNITY TEST — THE RESULTS STATEMENT
Following paternity testing accreditation guidelines, results are reported with one of three possible statements. For example, if we tested John Doe, alleged father, and James Doe (child), our paternity test results report might say one of the following:
- John Doe is excluded as the biological father of James Doe.
This means that John Doe cannot be the father of James Doe because the analysis shows that they do not share a paternity relationship. - John Doe is not excluded as the biological father of James Doe.
This means that John Doe is highly likely to be the father of James Doe because the analysis shows that they share a paternity relationship.
A DNA test profile is a set of DNA markers (up to 15) used to determine paternity and identity, including the FBI CODIS markers used for DNA evidence. Geneticists developed this set of markers for consistency in identifying individuals and named them according to their chromosomal location. Each marker location (or "locus") shows two alleles (or variations values), represented by numbers on the report. In this case the alleles are simply measures of short tandem repeats (STR. One of these STR alleles comes from a person’s father, one from their mother.
In a paternity test, the analysis seeks matches of allele number values between the alleged father and child. Because the child must receive one STR allele from his father at all locations (or "loci" which is plural for locus), there should be matches for each marker. (In some cases there are natural mutations, where the child has a slightly higher or lower value than the father, but these occurrences are more infrequent. For this tutorial, we'll assume no natural mutations exist.)
An alleged father can be excluded as the biological father with as little as few as two to three mismatches between DNA profiles. When a person is excluded as the father, the profiles often reveal several, if not many, mismatches. In the following example, the 3 mismatches would exclude the alleged father (he could not be the biological father). Even though there are also 3 matches, these matches are random and do not indicate a paternity relationship. Almost any two people will have at least some matches, but a father-child relationship will show matches at all locations (again, not considering mutations).
PATERNITY TEST — INDEX AND PROBABILITY
Each match receives a Paternity Index (PI) value. The paternity index is a way of measuring the strength of a particular match based in part on the relative uniqueness of the match. In our example, the child and alleged father each show an allele value of "12" at marker D2S1338, the paternity index value is 1.845. This is a reasonably strong match.
However, if the allele value of "12" at this location were more frequent in the population meaning a lot of people have this value at D2S1338, the PI would be smaller, say .0782. It's true the two participants match, and that could be because one is the biological father of the child, but it could also be they match simply because most people would match with this allele value at this location.
On the other hand, what if it was known that very few people would have an allele value of "12" at this location? The match would be stronger because it's more rare. In this case the PI value might increase; it might be 3.452, or 12.819 or as high as 34.125, depending on the strength of the match. A PI value is 0.000 indicates that there is no match between the two profiles at this location.
Once the profiles have been analyzed at all locations, the product of all paternity indexes creates the Combined Parentage Index (CPI). For an alleged father to be considered the child's father (to be "not excluded" as the biological father) the CPI value must be at least 100. A CPI value of 100 corresponds to a probability of paternity of 99.0000%, a CPI value of 10,000 translates to a probability of 99.9900% and so on.
According to DNA paternity testing accreditation guidelines, a paternity report must show a CPI of greater than 100 (and a probability of paternity greater than 99.0%). Most courts, child support agencies, or other legal entities require an accredited paternity test report (see Legal Paternity Testing for more information). Immigration cases require a CPI value of 200 (99.5%) or better.
CONCLUSION
While most DNA paternity tests reflect this "text book" example, there are many other factors to be considered. For example, natural mutations sometimes present more complicated results. Sometimes father and child share many common alleles and though there are many matches, the CPI value is not strong enough for a conclusive result. In most of these cases, including the biological mother significantly strengthens the test results.
Thank you for using Caribbean Detective Agency.