The Y Chromosome Haplotype Reference Database is an open-access, annotated collection of population samples typed for Y chromosomal sequence variants. Two important objectives are pursued: the generation of reliable frequency estimates for Y-STR haplotypes and Y-SNP haplotypes to be used in the quantitative assessment of matches in forensic and kinship cases and the characterization of male lineages to draw conclusions about the origins and history of human populations. Since its creation in 1999 it has been curated by Lutz Roewer and Sascha Willuweit at the Institute of Legal Medicine and Forensic Sciences, Charité – Universitätsmedizin Berlin. The database is endorsed by the International Society for Forensic Genetics. By December 2019 307,169 9-STR locus haplotypes, among them 246,821 17-STR locus haplotypes, 73,006 23-STR locus haplotypes, 73,810 27-STR locus haplotypes and 25,672 Y SNP profiles sampled in 136 countries have been directly submitted by forensic institutions and universities from 73 countries. In geographic terms, 47% of the YHRD samples stem from Asia, 23% from Europe, 14% from North America, 11% from Latin America, 3% from Africa, 1% from Oceania/Australia and 0.3% from the Arctic. The 1,348 individual sampling projects are described in more than 600 peer-reviewed publications
Submission and registration
YHRD is built by direct submissions of population data from individual laboratories. Upon receipt of a submission, the YHRD staff examines the originality of the data and assigns an accession number to the population sample and performs quality assurance checks. The submissions are then registered to the public database, where the entries are retrievable by Search for haplotypes, populations, contributors or accession numbers. All population data published in forensic journals as or International Journal of Legal Medicine are required to be validated by the YHRD custodians and are subsequently included in the YHRD.
Database structure
The database supports the most frequently used haplotype formats, Powerplex Y12, YFiler, Powerplex Y23 , YfilerPlus and Maximal for which differently-sized databases exist. Because strong correlations exist between geographic areas and Y chromosomal variants, the YHRD population database was structured to display the geographic, linguistic and phylogenetic relationship of searched haplotype profiles. Currently the YHRD database recognizes four separate "metapopulation" structures: national, continental, linguistic/ethnic and phylogenetic affiliation with several categories within. In population genetics the term metapopulation describes discrete spatially distributed population groups which are interconnected by geneflow and migration. By analogy, the term metapopulation is used in forensic genetics to describe a set of geographically dispersed populations with shared ancestry and continuing geneflow. Thus, the population groups are more similar within the metapopulation than to groups outside the metapopulation.
National
The concept of pooling data to build "national databases" has a very straightforward explanation: law enforcement agencies and forensic services rely on their national population to build reference databases. In most instances offenders and victims stem from the national population, and their genetic profiles should thus be represented in the database. In countries like USA, Brazil, UK or China which are characterized by strong population substructure national reference databases are often built on basis of a historical concept of ethnic affiliation, e.g. the US population is sub-structured in Caucasian, African, Hispanic, Asian and Native American populations or UK differentiates English, Afro-Caribbean, Indo-Pakistani and Chinese. National databases due to their importance in national legislation are thus searchable in the YHRD. Each national Metapopulation in the YHRD comprises all individuals sampled in a particular country regardless of the ancestry of the individuals.
Continental
Continental Metapopulations in the YHRD comprises all individuals sampled in a particular continent regardless of their ancestries. The YHRD defines seven continental Metapopulations following the United Nations classification of geographical regions: Africa, Arctic, Asia, Europe, Latin America, North America, Oceania/Australia.
Linguistic/ethnic
The Metapopulation structure built on basis of "ethnicity/linguistic affiliation" takes to a larger extent the ancestry of sampled individuals into account. "Ancestry" is a term collating historical, cultural, geographical and linguistic categories. Of course, a Metapopulation concept on basis of "ethnicity" is by no means ideal, fully rational or fully translatable, but simply takes the fact into account that on a global level categories other than "nation" or "geography" far better describe the observed genetic clustering and inhomogeneity of Y chromosome patterns. For a global reference database the "major language group" criterion seems most appropriate to group data by taking the ancestry into account and produce subdatabases with respect togenetic similarity. The reasoning in doing so is twofold: first, language is an inherited cultural trait and thus the language phylae often correlate with genetic traits not the least to Y chromosome polymorphisms. Second, since languages are well examined by science and mostly understood by the public due to the long tradition of language research, the linguistic terminology is in principal more understandable and translatable into practice than their genetic pendant. Aside from the pure linguistic categorization we took also unifying geographic criteria. It is important to state, that the current Metapopulation structure is an a-priori categorization which needs a continuous evaluation and verification by means of statistical methods to quantify the genetic similarity/dissimilarity between the samples. While the current categorization of eight large Metapopulations gains some support from genetic distance analysis done on basis of ~41,000 haplotypes a further subdivision of the "Eurasian – European Metapopulation" was implemented solely on basis of Y-STR haplotypes. The analysis of ~12,000 European Haplotypes by AMOVA demonstrates that three larger pools of European haplotypes exist: the western, eastern and southeastern metapopulations. Currently the YHRD has seven non-overlapping broadly defined metapopulations: African, Afro-Asiatic, Native American, Australian Aboriginal, East Asian, Eskimo-Aleut, and Eurasian. Some of these metapopulations are further subdivided, e.g. Eurasian into six subcategories, from which the European subgroup splits further into three groups of Western, Eastern and Southeastern Europeans.
Phylogenetic
The DNA profiling of Y chromosomes submitted to the YHRD is now continuously extended for binary Y-SNP polymorphisms. The phylogeny of the Y chromosome defined by binary polymorphisms is well established and stable, Hammer et al., Jobling and Tyler-Smith and Karafet et al. ). All Y chromosomes sharing a mutation are related by descent, until a further mutation splits the branch. Haplotypes within a haplogroup could be highly similar or even "identical by descent". In thus, the haplogroup could be used as a criterion to substructure the database according to the phylogenetic descent of samples. Even though the chronology of the SNP mutations is far less certain than the structure of the tree, many haplogroups could be equated with events in human prehistory. The worldwide distribution of the patterns of the human Y-chromosome diversity has revealed clear geographically associated haplogroups.
Database tools
AMOVA
is a method for analyzing population variation using molecular data, e.g. Y-STR haplotypes. With AMOVA it is possible to evaluate and quantify the extent of differentiation between two or more population samples. AMOVA is implemented as an online tool in the YHRD and provides a way of estimating ΦST and FST values. The online tool accepts Excel files and creates entry files from it. As much as 9 reference populations selected from the YHRD as well as population sets can be added to the AMOVA analysis. The online calculation returns as a result a *.csv table with pairwise FST or ΦST values plus p-values as a test for significance. In addition, an MDS plot is generated to illustrate the genetic distance between the analyzed populations graphically. The program shows the references for the selected population studies which facilitates the correct citation.
Mixture
The tool can be applied for forensic cases when a mixed trace should be analyzed. The result will be a likelihood ratio of donorship vs. non-donorship of the putative contributor to the trace.
Kinship
The tool can be applied for kinship cases when a relationship between upstream and downstream relatives should be analyzed. The result will be a likelihood ratio of patrilineal relationship vs. patrilineal non-relationship of the analyzed persons.
Match statistics
Searching the YHRD will result in a match or a non-match between a searched haplotype and the databased reference samples. The relative number of matches is described as the profile frequency. In forensic casework the probability of a match which is based on the profile frequency is evaluated using different methods. Some of these are recommended by national guidelines, e.g. the augmented counting method with confidence intervals and/or theta subpopulation correction or the Discrete Laplace method as recommended in Germany. Both augmented counting and DL values are provided by the YHRD for different metapopulations.
