Y(xCR) C3(xC3c) C3c DE* D F* K* - Nature · KGD LBO ALK TAL BIT MLF THA SO KHM OYB AHE DAU KK KRA...
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Balaresque et al., Supplementary Figure 1 Supplementary Figure 1: Summary of Y-chromosomal binary marker data generated in this study. The phylogenetic tree (left) shows Y-chromosomal binary markers typed, and the table (right) shows frequencies of haplogroups in population samples. Three-letter populatiion codes are defined in Table 1. C(xC3) M216 C3(xC3c) C3c Y(xCR) M217 M48 M89 D M145 M174 E1b1b1 M35 M96 E(xE1b1b1) F* M69 H M170 I 12f2.1 J(xJ2) J2 M172 M9 K* L M61 T M70 N(xN1b,N1c1) M214 LLY22g O3(xO3a3c) M122 M175 O(xO3) N1b P43 O3a3c M134 N1c1 Tat M45 P* P36 Q R1* M173 R2 M124 R* M207 R1a R1b1b2 M269 SRY 10831.2 P25 R1b SRY 10831.1 M201 G DE*
Transcript of Y(xCR) C3(xC3c) C3c DE* D F* K* - Nature · KGD LBO ALK TAL BIT MLF THA SO KHM OYB AHE DAU KK KRA...
Balaresque et al., Supplementary Figure 1
Supplementary Figure 1: Summary of Y-chromosomal binary marker data generated in this study.
The phylogenetic tree (left) shows Y-chromosomal binary markers typed, and the table (right) shows frequencies of haplogroups in population samples. Three-letter populatiion codes are de�ned in Table 1.
C(xC3)M216
C3(xC3c)
C3c
Y(xCR)
M217
M48
M89
DM145
M174
E1b1b1M35
M96 E(xE1b1b1)
F*
M69 H
M170 I
12f2.1 J(xJ2)
J2M172
M9K*
LM61
TM70
N(xN1b,N1c1)
M214
LLY22g
O3(xO3a3c)M122
M175O(xO3)
N1bP43
O3a3cM134
N1c1Tat
M45 P*
P36 Q
R1*M173
R2M124
R*M207
R1a
R1b1b2M269
SRY10831.2
P25 R1b
SRY10831.1
M201 G
DE*
Balaresque et al., Supplementary Figure 2a (DC2)
50 1000
500
8
16
24
32
40%
KOR
JOR BRH
KRB
PAH
TJR
KMR
MKR
TJU
ILA PLN
IYNIYRVAN
BLC
VLRAMB
IRASYR
Balaresque et al., Supplementary Figure 2b (DC3)
50 1000
500
4
8
12
16%
BJH
MAN
THA
SO
MAC
HAO
HEZ
KCH
KKO
KOR
Balaresque et al., Supplementary Figure 2c (DC4)
50 1000
500
8
16
24
32
40
48
56%
HHR
ILA
KLS
KRA
MUS
PLN
RAJ
TJK
UZ
VAN
XBE
ASW
KRG
MKR
MONOMG
TAJTJA TJR
TJU
VLR
DUNHUI
IYN
KBR
OSS
SDH
TUR
BLC
KRD
ULY UYU
IYR
UZB
BRH
LOD
TKMANR KYROTU
AZEASEAST
IRA
AISANE
GEOANW
AESACT
JOR
SYR
Balaresque et al., Supplementary Figure 2d (DC5)
50 1000
500
35
70%
HMD HAO
KGDLBO
ALK TAL
BIT
MLF
THA
SOKHM
OYB
AHE
DAU
KKKRAOTU
RAJ
UYY
UZ
XBE
BRY
HMXHNI
HYL
IMG
OMG
QIG
BJH
EWK
HLZ
SHE
KHL
HAN
KCH
KKOMAC
MZO
HCD
HHR
YLN
HEZ
TIB
MAN
TRI
JAM
KOR
Balaresque et al., Supplementary Figure 2e (DC6)
50 1000
500
8
16
24
32
40%
KHL
KRA KYR MAC
ULY XBE
IMG
BRY
MANHEZ
KZKMON
OMG
EWK
ORQ
Balaresque et al., Supplementary Figure 2f (DC8)
50 1000
50
0
8
16
24
32
26%
IMG
KCH
OMG
KOR
KHL
HMD
HEZBRY
Balaresque et al., Supplementary Figure 2g (DC10
Balaresque et al., Supplementary Figure 2h (DC11)
50 1000
500
8
16
24
32
36%
AMB
BRS
HO
ILA
IYR
JAMMZO
ULY
WBR
IRA
IYNPLN
RAJ
VAN
HALLOD
MRT
KLS
CHA
KDR
KRBKOT
VLR
KMRMUR
HLZ
HMX
HYLMAC
MUR
SHEYLN
HANHCD
QIG
YBMHALMZO
LI
KOR
BUYHNI
HO
KDR
KMR
KRY
50 1000
500
8
16
24
32
40%
HMD HAO
KGDLBO
INH
BO
ALKTAL
BITLBN
SUYNGT
JEHMLF
THA
SO
BRA
KHM
OYB
AHE
KUF
Balaresque et al., Supplementary Figure 2i (DC14)
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