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Understanding Haplogroups, “Deep Ancestry”: Part I

Category: Genetic Genealogy Basics » Haplogroups

Haplogroups relate to our deep ancestry. Deep ancestry is not traditional genealogy: it is not for tracing family or confirming family linkages. Deep ancestry is a look at our ancient ancestral roots from tens of thousands of generations ago and shows how all people living today are connected to an ancient ancestor who lived in Africa over 100,000 years ago.

Haplogroup studies have been around for many years in the scientific community. Many will remember seeing the traditional biology 101 textbook diagram (phylogenetic tree) which shows how all living organisms are connected:

A phylogenetic tree shows the evolutionary relationship of biological species believed to have common ancestor. In a phylogenetic tree, each node with descendants represents the most recent common ancestor of the descendents.

Humans represent one branch of the phylogenetic tree of all living organisms. The human branch of the phylogenetic tree was built based on DNA, in particular, SNP markers found in human DNA.

Our Y-DNA, which is passed down from father to son shows that the Y-DNA of every male living today can be traced back to a common male ancestor who lived in Africa over 100,000 years ago. He is often termed the “Y-Chromosomal Adam”.

Likewise, our mtDNA, which is passed down from a mother to her children shows that all people living today shared a common female ancestor who lived in Africa over 100,000 years ago. She is often termed the “Mitochondrial Eve”.

The type of genetic markers used to build the human phylogenetic tree are called SNP (single nucleotide polymorphism) markers. SNP markers are found in both the mtDNA and the Y-DNA.

The main branches of the human phylogenetic tree are called “Y-DNA haplogroups”. The Y-DNA tree has approximately 18 main branches “Y-DNA haplogroups”, classified by the letters A to R. Each Y-DNA haplogroup has many further sub-branches (subclades), classified by numbers and letters i.e. R1A, R1b1, R1b2, etc.

The mtDNA tree has approximately 26 main branches “mtDNA haplogroups” classified by the letters ”A to Z”. Each mtDNA haplogroup has many further sub-branches (subclades), classified by numbers and letter, i.e. L1A1, L1A2, L1B, etc. All people living today have descended from of the main branches of the human mtDNA phylogenetic tree.

By testing the SNP markers in your Y-DNA and mtDNA, you will be able to tell which branch of the haplogroup tree you belong to.

Of course, each main branch has further sub-branches or “subclades”. Once you know which haplogroup you belong to, you can then focus on your sub-clade through “subclade testing”.

In Part II of this blog, we will go into detail about how to use the haplogroup feature at Genebase.

Facts and Common Misconceptions:

No, haplogroups are not the same as haplotypes.
Yes, all people living today fall into one of 18 main Y-DNA haplogroups on their paternal line, and one of 26 main mtDNA haplogroups on their maternal line.
No, haplogroups will not show if you are related to someone (unless you count distant relationships from thousands of years ago).
Yes, once you know your haplogroup, you will be able to view how your haplogroup migrated out of Africa and retrace their migration routes.
No, haplogroups will not add people to your family tree or allow you to trace your surname (that’s the job of STR haplotypes).
No, haplogroups will not tell you precise migration routes, it will show a broad migration route and population distribution.
No, if you and someone else belong to the same haplogroup, it does not mean that you are closely related.
Yes, once you know your haplogroup, you can often fine tune your branch of the haplogroup tree through subclade testing.
No, you cannot confirm your haplogroup through STR testing or HVR1 testing. A Y-DNA STR test and HVR1 test will often allow you to predict your haplogroup, but only a SNP backbone test will confirm the prediction.
No, SNP backbone testing will not give you information about sub-clades. It will confirm your haplogroup. Once your haplogroup has been confirmed, a subclade panel test for your particular haplogroup will trace your subclade.
Yes, STR testing can give predictions for haplogroups and even some sub-clades, but the backbone test can only confirm the haplogroup, not the sub-clade.
Yes, subclades are determined through SNP subclade testing (once your haplogroup has been confirmed)
No, your haplogroup will not tell you if you are Welsh or Irish. It will not tell you your ethnicity. Although there are associations between ethnic groups and haplogroups, you must remember that haplogroups represent deep ancestry, tracing events from tens of thousands of years ago. It does not tell you what your ancestors have been up to over the last few hundred years (that’s the job of Y-DNA STR markers, and applications such as Surname Projects, which will be the topic of another blog).
Yes, all people living in the world today are connected in the human phylogenetic tree. Just like how all people belong to a certain blood group i.e. A, B, AB, O which can be determined through testing, all people also belong to a certain haplogroup which is unique to their ancestry, and their haplogroup type can be determined through genetic genealogy testing.

Understanding Haplogroups, “Deep Ancestry”: Part II

Category: Genetic Genealogy Basics » Haplogroups

This blog is a continuation of Haplogroups Part I. Click here to view Part I.

In Part II, we will go over how to use the Haplogroup feature at Genebase. For the purpose of this demonstration, we will trace the Y-DNA Haplogroup of a hypothetical individual who belongs to Haplogroup R1b:

1. After logging in to the Genebase Control Panel, click “DNA Ancestry”:

2. Next, click “Haplogroups” to go to the haplogroup tool:

3. Select the Y-DNA haplogroup (paternal), or the mtDNA haplogroup (maternal), then click “Begin Analysis” to proceed:

4. A list of all people in your family who have been tested will appear. Find the line in your family that you would like to trace from the list and click “Proceed”:

5. The Haplogroup Predictor tool will predict the haplogroup and generate a migration map. The migration map shows the path of migration for ancestors in this haplogroup as they journeyed out of Africa and indicates where they travelled. All people living today can be traced to one of 18 main Y-DNA haplogroups and one of 26 main mtDNA haplogroups:

In this hypothetical example, the predictor indicates that the individual specifically belongs to Haplogroup R1b. R1b happens to be one of the largest family groups in Europe. Many individuals of European descent are descendents of this ancient family group. More specifically, the predictor is stating that this individual belongs to haplogroup “R”, subclade “R1″, and further subclade “R1b”.

The prediction can be confirmed through haplogroup backbone testing. To proceed with backbone testing, click “Confirm this haplogroup prediction”. The backbone test will confirm whether the individual is indeed a member of the R Haplogroup.

The R Haplogroup and even the R1b sub-clade have many further sub-branches. The R1b family group can be further classified into over 18 known subclades. 14 of the R1b sub-clades can be confirmed through sub-clade testing.

The 14 subclades of R1b which can be determined through sub-clade testing are as follows:

R1b1a
R1b1b
R1b1c
R1b1c1
R1b1c2
R1b1c3
R1b1c4
R1b1c5
R1b1c6
R1b1c7
R1b1c9
R1b1c9a
R1b1c9b
R1b1d

Users who are confirmed members of the R, R1a, or R1b haplogroups may consider R sub-clade testing to further investigate the R branch, in particular, the R1b branch of the haplogroup family tree. The R sub-clade test panel will be launched in the control panel in the upcoming month. An update will be posted here once the launch date for the R sub-clade test panel is confirmed.

Let’s take a peek at what’s in development in our research facilities. A lot of the upcoming developments in the lab are sub-clade refinement panels. Users can expect to see sub-clade panels for the following haplogroups in the next few months:

Y-DNA sub-clade tests will become available for the following haplogroups:

mtDNA sub-clade tests will become available for the following haplogroups:

Watch for release dates of each sub-clade test in upcoming blogs.

6. To view the human phylogenetic tree and see how you fit into it, click “Haplogroup Tree of R1b”.

The phylogenetic tree feature shows how haplogroup R1b is connected to all other haplogroups. Click on the individual haplogroups in the phylogenetic tree to navigate the tree and view other branches. The phylogenetic tree will illustrate how you are linked to all of the people living in the world today and shows how we have all descended from a common ancestor.

7. To read more about haplogroup R1b, click “About R1b”. From here, you can read the latest information about R1b.

You can also trace the haplogroup of other lines in your family tree by selecting a family member from the list on the left column. All family members who have been tested will be listed here so you can work together with other family members to trace the deep ancestry of multiple lines in your family tree.

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Category: Genetic Genealogy Basics » Haplogroups

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