Post by Admin on Dec 29, 2021 23:49:48 GMT
A search in the YHRD database as well as in our own
databank revealed that none of the Y-STR haplotypes
obtained from the south Siberian samples perfectly
matched (at 17 loci) those included in the databases.
Nevertheless, when not all loci were scored, matches were
found for all samples except two (S07 and S32) for which
even the search based on the 9-loci minimal haplotype
was fruitless (Table 4).
The S10/S16 haplotype matched the most frequent R1a1 haplotype
(12 loci) seen in the south Siberian population of Derenko et al. (2006).
This haplotype is notably found at high frequency in Altaians.
It carries an allelic stucture 16-14-32-25-11-11-13
(DYS19-DYS389I-DYS389II-DYS390-DYS391-DYS392-
DYS393) which is considered as a founder haplotype relative
to southern Altaians (Kharkov et al. 2007). The S10/
S16 haplotype is also found in eastern Europe (Hungary,
Slovenia, Poland) as well as in Asia (Central Anatolia).
The S24/S34 haplotype is mainly found in Poland and
Germany. In Asia it is found in Anatolia, Armenia, Nepal
and India. Haplotype of specimen S26 has a wide distribution
since it appears in Europe as well as in western Asia,
in Central Asia, in southern Asia and in southern Siberia.
The allelic structure 16-24-11-11-13 (DYS19, DYS390,
DYS391, DYS392, DYS393) found in this haplotype was
described as the most frequent motif observed in a Ukrainian
population by Kravchenko et al. (2002). According
to these authors, this 5 Y-STR-loci haplotype might be an
ancestral one. Haplotype S28 is the most frequently found
in present-day populations. It is essentially carried by
eastern and northern Europe individuals, as well as south
Siberians. The S32 haplotype was not found in the
databases even though it differs from the S24/S34 haplotype
by only one-step mutation at locus DYS392. The S07
haplotype also did not appear in the YHRD database even
when one mismatch was allowed in the minimal
haplotype search. The current distribution pattern of all
the Y-STR haplotypes found in our ancient sample is
Table 3 reported in the map on Fig.2.
databank revealed that none of the Y-STR haplotypes
obtained from the south Siberian samples perfectly
matched (at 17 loci) those included in the databases.
Nevertheless, when not all loci were scored, matches were
found for all samples except two (S07 and S32) for which
even the search based on the 9-loci minimal haplotype
was fruitless (Table 4).
The S10/S16 haplotype matched the most frequent R1a1 haplotype
(12 loci) seen in the south Siberian population of Derenko et al. (2006).
This haplotype is notably found at high frequency in Altaians.
It carries an allelic stucture 16-14-32-25-11-11-13
(DYS19-DYS389I-DYS389II-DYS390-DYS391-DYS392-
DYS393) which is considered as a founder haplotype relative
to southern Altaians (Kharkov et al. 2007). The S10/
S16 haplotype is also found in eastern Europe (Hungary,
Slovenia, Poland) as well as in Asia (Central Anatolia).
The S24/S34 haplotype is mainly found in Poland and
Germany. In Asia it is found in Anatolia, Armenia, Nepal
and India. Haplotype of specimen S26 has a wide distribution
since it appears in Europe as well as in western Asia,
in Central Asia, in southern Asia and in southern Siberia.
The allelic structure 16-24-11-11-13 (DYS19, DYS390,
DYS391, DYS392, DYS393) found in this haplotype was
described as the most frequent motif observed in a Ukrainian
population by Kravchenko et al. (2002). According
to these authors, this 5 Y-STR-loci haplotype might be an
ancestral one. Haplotype S28 is the most frequently found
in present-day populations. It is essentially carried by
eastern and northern Europe individuals, as well as south
Siberians. The S32 haplotype was not found in the
databases even though it differs from the S24/S34 haplotype
by only one-step mutation at locus DYS392. The S07
haplotype also did not appear in the YHRD database even
when one mismatch was allowed in the minimal
haplotype search. The current distribution pattern of all
the Y-STR haplotypes found in our ancient sample is
Table 3 reported in the map on Fig.2.