Information on the East Asian - Tai-Kadai Metapopulation

The Tai-Kadai Metapopulation (East Asian - Tai-Kadai) consists of 6412 minimal haplotypes.

Population Sample Minimal PowerPlex Y Yfiler PowerPlex Y23 Yfiler Plus Maximal
Chiang Mai, Thailand [Thai] 103 Haplotypes 32 Haplotypes 32 Haplotypes 0 Haplotypes 0 Haplotypes 0 Haplotypes
Central Thailand, Thailand [Thai] 757 Haplotypes 757 Haplotypes 256 Haplotypes 256 Haplotypes 0 Haplotypes 0 Haplotypes
Guangxi, China [Zhuang] 2913 Haplotypes 2913 Haplotypes 2913 Haplotypes 266 Haplotypes 2314 Haplotypes 0 Haplotypes
Xishuangbanna, China [Dai] 92 Haplotypes 92 Haplotypes 92 Haplotypes 92 Haplotypes 0 Haplotypes 0 Haplotypes
Laos [Laotian] 45 Haplotypes 45 Haplotypes 45 Haplotypes 0 Haplotypes 45 Haplotypes 0 Haplotypes
Hunan, China [Dong] 80 Haplotypes 80 Haplotypes 80 Haplotypes 0 Haplotypes 0 Haplotypes 0 Haplotypes
Northern Thailand, Thailand [Yong] 124 Haplotypes 124 Haplotypes 124 Haplotypes 124 Haplotypes 0 Haplotypes 0 Haplotypes
Northern Thailand, Thailand [Northern Thai] 15 Haplotypes 15 Haplotypes 15 Haplotypes 15 Haplotypes 0 Haplotypes 0 Haplotypes
Northern Thailand, Thailand [Shan] 12 Haplotypes 12 Haplotypes 12 Haplotypes 12 Haplotypes 0 Haplotypes 0 Haplotypes
Guangxi, China [Maonan] 135 Haplotypes 135 Haplotypes 135 Haplotypes 0 Haplotypes 0 Haplotypes 0 Haplotypes
Guizhou, China [Shui] 200 Haplotypes 200 Haplotypes 200 Haplotypes 200 Haplotypes 0 Haplotypes 0 Haplotypes
Guizhou, China [Gelao] 531 Haplotypes 531 Haplotypes 531 Haplotypes 234 Haplotypes 297 Haplotypes 0 Haplotypes
Qiannan_Guizhou, China [Bouyei] 98 Haplotypes 98 Haplotypes 98 Haplotypes 98 Haplotypes 0 Haplotypes 0 Haplotypes
Thailand [Thai] 140 Haplotypes 140 Haplotypes 140 Haplotypes 0 Haplotypes 140 Haplotypes 0 Haplotypes
Guangxi, China [Gelao] 156 Haplotypes 156 Haplotypes 156 Haplotypes 0 Haplotypes 0 Haplotypes 0 Haplotypes
Hainan, China [Li] 524 Haplotypes 524 Haplotypes 524 Haplotypes 0 Haplotypes 524 Haplotypes 0 Haplotypes
Hainan, China [Lingao] 487 Haplotypes 487 Haplotypes 487 Haplotypes 0 Haplotypes 487 Haplotypes 0 Haplotypes
(Overall) 6412 Haplotypes 6341 Haplotypes 5840 Haplotypes 1297 Haplotypes 3807 Haplotypes 0 Haplotypes

Discrete-Laplace frequency estimation (Minimal)

Release
R59
Loci included
DYS19, DYS389I, DYS389II*, DYS390, DYS391, DYS392, DYS393
Central haplotypes
41
EM converged
true
EM iterations
33
GLM method
internal_coef
Init method
pam
Per locus details
DL centers distribution (download PDF)
Table of haplotype centers (click to show/hide)
DYS19 DYS389I DYS389II* DYS390 DYS391 DYS392 DYS393
1 14 12 16 25 10 14 12
2 15 13 17 25 11 11 13
3 15 12 18 23 10 14 13
4 14 12 16 23 10 14 12
5 14 12 16 24 10 14 12
6 14 12 18 24 10 11 13
7 15 12 16 25 10 13 12
8 15 12 16 21 10 11 12
9 15 13 17 23 10 11 15
10 15 13 17 22 10 13 12
11 15 12 16 23 10 12 12
12 15 12 17 24 10 13 14
13 15 12 17 23 10 14 13
14 15 12 18 23 10 13 12
15 15 13 16 25 10 13 14
16 15 13 17 25 11 13 13
17 16 13 18 24 11 13 14
18 15 14 17 24 10 13 14
19 13 14 16 24 9 14 14
20 16 12 16 23 11 13 12
21 16 12 16 24 10 13 12
22 15 12 17 24 10 13 15
23 16 13 17 25 10 13 14
24 16 13 16 24 10 13 14
25 16 13 17 24 11 13 14
26 17 12 16 24 10 13 12
27 15 14 16 25 11 13 14
28 15 13 16 24 11 13 14
29 16 13 16 23 10 11 14
30 16 13 16 24 11 13 14
31 15 13 16 24 10 13 14
32 15 12 16 23 10 14 13
33 16 13 17 24 10 13 12
34 16 12 16 25 10 13 12
35 15 14 16 24 10 13 12
36 15 12 16 24 10 13 15
37 14 14 16 22 10 14 13
38 14 13 16 23 10 14 13
39 14 14 17 23 11 14 13
40 15 12 17 23 11 14 13
41 15 13 15 24 11 14 15

Discrete-Laplace frequency estimation (Yfiler)

Release
R59
Loci included
DYS19, DYS389I, DYS389II*, DYS390, DYS391, DYS392, DYS393, DYS437, DYS438, DYS439, DYS448, DYS456, DYS458, DYS635, YGATAH4
Central haplotypes
40
EM converged
true
EM iterations
50
GLM method
internal_coef
Init method
pam
Per locus details
DL centers distribution (download PDF)
Table of haplotype centers (click to show/hide)
DYS19 DYS389I DYS389II* DYS390 DYS391 DYS392 DYS393 DYS437 DYS438 DYS439 DYS448 DYS456 DYS458 DYS635 YGATAH4
1 16 13 17 24 11 13 14 14 10 12 18 15 18 22 11
2 15 13 16 24 11 13 14 14 10 12 18 15 16 21 11
3 17 13 17 24 10 13 14 14 10 11 17 15 17 22 11
4 15 12 16 23 10 14 13 14 10 11 18 15 15 20 12
5 15 13 16 25 10 13 14 14 10 12 18 15 16 22 11
6 14 12 18 24 10 11 13 15 11 11 19 14 16 19 12
7 15 13 16 24 11 13 14 14 10 12 18 15 17 24 11
8 15 12 16 23 10 12 12 15 10 12 19 15 18 20 12
9 15 13 17 23 10 11 15 14 10 11 21 15 15 22 11
10 13 14 16 24 9 14 14 14 12 11 19 16 17 22 10
11 16 12 16 23 10 14 13 14 10 11 15 17 18 21 12
12 15 14 17 25 11 11 13 14 10 12 21 15 16 22 12
13 16 12 16 23 10 13 12 15 10 11 20 15 17 21 12
14 16 12 16 25 10 13 12 14 10 12 19 14 17 22 12
15 14 12 16 24 10 14 12 15 11 12 20 15 19 20 12
16 15 12 17 24 10 13 15 14 10 11 18 15 18 23 10
17 15 12 16 21 10 11 12 14 10 11 20 15 17 24 11
18 14 12 16 23 10 14 12 14 11 11 20 15 17 20 12
19 15 12 18 23 10 13 12 14 10 11 19 15 18 21 11
20 14 12 16 24 10 14 12 15 11 12 20 15 18 20 12
21 15 12 16 24 10 13 15 14 10 11 18 15 18 23 10
22 16 12 16 24 10 13 12 15 10 12 22 15 17 21 12
23 14 12 16 24 10 14 12 15 11 12 20 15 20 20 12
24 17 12 16 24 10 13 12 15 10 11 20 15 19 23 12
25 14 13 16 23 10 14 13 14 10 12 18 15 16 19 12
26 15 13 15 24 11 14 15 14 9 12 18 15 15 21 11
27 16 13 17 24 11 13 14 14 10 13 18 15 18 24 11
28 14 14 16 22 10 14 13 14 10 12 18 15 15 20 12
29 15 12 17 23 10 12 12 15 10 13 19 15 18 19 12
30 15 13 16 24 10 13 14 14 10 11 18 15 17 23 10
31 15 14 16 24 10 13 14 14 10 11 18 15 15 21 12
32 15 14 17 24 10 13 14 14 11 11 18 15 16 20 10
33 15 12 17 23 11 14 13 14 10 11 18 17 15 19 12
34 15 13 17 22 10 13 12 15 10 12 19 16 17 21 12
35 14 14 17 23 11 14 13 14 11 11 19 15 15 24 12
36 14 12 16 25 10 14 12 15 11 14 20 15 18 20 12
37 15 12 17 23 10 14 13 14 10 12 18 15 15 21 12
38 16 13 16 23 10 11 14 14 10 11 21 15 16 21 11
39 15 13 16 24 10 13 12 15 10 12 19 15 18 21 11
40 15 13 17 25 11 13 13 14 10 12 18 15 18 22 11

* Please note that DYS389I was substracted from DYS389II

* See FAQ/Glossary (http://yhrd.org/pages/faq) for further explanations of abbreviated terms used here