N-Y4338 (age: 2610 ybp)
Formula: (2310+2911)/2
 Formula: (2310+2911)/2

Branch ID Sample ID Number of SNPs Coverage (bp) Formula to correct SNPs number Corrected number of SNPs Formula to estimate age Age by this line only
 N-Y4339  15.58 15.58 * 144.41 + 60 2310
YF001697 8.00 7252664 8.00/7252664 * 8467165 9.34 9.34 * 144.41 + 60 1409
YF001767 16.00 7444548 16.00/7444548 * 8467165 18.20 18.20 * 144.41 + 60 2688
YF002265 16.00 7832175 16.00/7832175 * 8467165 17.30 17.30 * 144.41 + 60 2558
YF002719 16.00 7978092 16.00/7978092 * 8467165 16.98 16.98 * 144.41 + 60 2512
YF002790 14.00 7680380 14.00/7680380 * 8467165 15.43 15.43 * 144.41 + 60 2289
YF002835 23.00 8212671 23.00/8212671 * 8467165 23.71 23.71 * 144.41 + 60 3484
YF004674 16.00 7857314 16.00/7857314 * 8467165 17.24 17.24 * 144.41 + 60 2550
YF005025 9.00 7884174 9.00/7884174 * 8467165 9.67 9.67 * 144.41 + 60 1456
YF005115 17.00 7899329 17.00/7899329 * 8467165 18.22 18.22 * 144.41 + 60 2691
YF005250 10.00 7862285 10.00/7862285 * 8467165 10.77 10.77 * 144.41 + 60 1615
YF005251 11.00 7768770 11.00/7768770 * 8467165 11.99 11.99 * 144.41 + 60 1791
YF005587 11.00 8009496 11.00/8009496 * 8467165 11.63 11.63 * 144.41 + 60 1739
YF005641 16.00 8095862 16.00/8095862 * 8467165 16.73 16.73 * 144.41 + 60 2476
YF005890 17.00 8073725 17.00/8073725 * 8467165 17.83 17.83 * 144.41 + 60 2635
YF006063 15.00 7988145 15.00/7988145 * 8467165 15.90 15.90 * 144.41 + 60 2356
YF007187 12.00 8053661 12.00/8053661 * 8467165 12.62 12.62 * 144.41 + 60 1882
YF007822 9.00 7589843 9.00/7589843 * 8467165 10.04 10.04 * 144.41 + 60 1510
YF008145 21.00 7485287 21.00/7485287 * 8467165 23.75 23.75 * 144.41 + 60 3490
YF008830 16.00 7663792 16.00/7663792 * 8467165 17.68 17.68 * 144.41 + 60 2613
YF009219 10.00 7753773 10.00/7753773 * 8467165 10.92 10.92 * 144.41 + 60 1637
YF009238 15.00 7874999 15.00/7874999 * 8467165 16.13 16.13 * 144.41 + 60 2389
YF009286 16.00 7731698 16.00/7731698 * 8467165 17.52 17.52 * 144.41 + 60 2590
YF010175 14.00 7858316 14.00/7858316 * 8467165 15.08 15.08 * 144.41 + 60 2238
YF013934 13.00 7688727 13.00/7688727 * 8467165 14.32 14.32 * 144.41 + 60 2127
YF014051 13.00 7377475 13.00/7377475 * 8467165 14.92 14.92 * 144.41 + 60 2215
YF014382 14.00 7370690 14.00/7370690 * 8467165 16.08 16.08 * 144.41 + 60 2382
YF016036 16.00 7588322 16.00/7588322 * 8467165 17.85 17.85 * 144.41 + 60 2638
YF065963 14.00 8410125 14.00/8410125 * 8467165 14.09 14.09 * 144.41 + 60 2095
YF070840 17.00 8331866 17.00/8331866 * 8467165 17.28 17.28 * 144.41 + 60 2555
YF071388 17.00 8292879 17.00/8292879 * 8467165 17.36 17.36 * 144.41 + 60 2566
YF071656 13.00 8360424 13.00/8360424 * 8467165 13.17 13.17 * 144.41 + 60 1961
YF073910 14.00 8280916 14.00/8280916 * 8467165 14.31 14.31 * 144.41 + 60 2127
YF077626 19.00 8341804 19.00/8341804 * 8467165 19.29 19.29 * 144.41 + 60 2845
YF097258 14.00 8340696 14.00/8340696 * 8467165 14.21 14.21 * 144.41 + 60 2112
YF122608 19.00 8405515 19.00/8405515 * 8467165 19.14 19.14 * 144.41 + 60 2824
YF124073 16.00 8392102 16.00/8392102 * 8467165 16.14 16.14 * 144.41 + 60 2391
YF124426 14.00 8380998 14.00/8380998 * 8467165 14.14 14.14 * 144.41 + 60 2102
YF127677 15.00 8412130 15.00/8412130 * 8467165 15.10 15.10 * 144.41 + 60 2240
 YF002057  18.00 7719150 18.00/7719150 * 8467165 19.74 19.74 * 144.41 + 60 2911

FAQ: What are SNPs "currently defining" a subclade and subclade "formed" age, "TMRCA" and confidence intervals?

FAQ: What is YFull's age estimation methodology?

Increase in age     Decrease in age

SNPs currently defining N-Y4338
Y4338    
Other SNPs possibly defining N-Y4338
FT92006    level N-Y4339<->N-Y4341
Y496060    level N-Y4339<->N-Y4341
BY28940    level N-Y4339<->N-Y4341
FT29669    level N-Y4339<->N-Y4341
Y306220    level N-Y4339<->N-Y4341
Y496301    level N-Y4339<->N-Y4341
Y495130    level N-Y4339<->N-Y4341
Y520547    level N-Y4339<->N-Y4341
STRs Mutation rate ANC DER
DYS539 10 11
DYS521 8 7
DYS505 13 12
DYS458 17 18
DYR32 16 17
DYS627 27 28
DYS695 31 32
DYS720 29 28
DYS612 28 29
DYR165 38 37
DYR250 36 37
DYS711 64 65
STR haplotype for MRCA of N-Y4338 (minimum parsimony hypothetical using 39 samples) with 824 STRs
DYS393
14
DYS390
23
DYS19
14
DYS391
11
DYS426
11
DYS388
12
DYS439
10
DYS389I
14
DYS392
14
DYS389II
30
DYS458
18
DYS455
11
DYS454
12
DYS447
25
DYS437
14
DYS448
19
DYS449
28
DYS460
11
Y-GATA-H4
11
DYS456
14
DYS607
15
DYS576
16
DYS570
19
DYS442
14
DYS438
10
DYS531
11
DYS578
8
DYS590
8
DYS537
8
DYS641
10
DYS472
8
DYF406
11
DYS511
10
DYS425
12
DYS557
14
DYS594
10
DYS436
12
DYS490
12
DYS534
17
DYS450
7
DYS444
13
DYS481
20
DYS520
21
DYS446
16
DYS617
12
DYS568
11
DYS487
10
DYS572
11
DYS640
11
DYS492
12
DYS565
11
DYS710
39
DYS485
16
DYS632
8
DYS495
15
DYS540
12
DYS714
24
DYS716
27
DYS717
19
DYS505
12
DYS556
14
DYS549
11
DYS589
12
DYS522
14
DYS494
9
DYS533
11
DYS636
12
DYS575
10
DYS638
10
DYS462
12
DYS452
31
DYS445
12
Y-GATA-A10
12
DYS463
21
DYS441
18
DYS525
9
DYS712
22.g
DYS593
15
DYS650
21.a
DYS532
12
DYS715
22
DYS504
13
DYS513
13
DYS561
14
DYS552
26
DYS726
12
DYS635
22
DYS587
18
DYS643
11
DYS497
13
DYS510
16
DYS434
8
DYS461
12
DYS435
11
ATA71D03
11
DXYS156
12
DYF382
12
DYF389
11
DYF392
8
DYF393
27
DYF394
8
DYF398.1
7
DYF398.2
18
DYS443
14
DYS453
11
DYS466
7
DYS467
11
DYS468
17
DYS469
17
DYS470
11
DYS471
28
DYS473
10
DYS474
8
DYS475
8
DYS476
12
DYS477
8
DYS478
13
DYS480
8
DYS484
12
DYS488
14
DYS489
11
DYS491
12
DYS493
10
DYS496
9
DYS499
8
DYS500
14
DYS501
8
DYS502
13
DYS506
15
DYS507
9
DYS508
11
DYS509
9
DYS512
8
DYS514
19
DYS516
14
DYS517
14
DYS518
35
DYS521
7
DYS523
14
DYS526A
12
DYS526B
34
DYS530
9
DYS536
10
DYS538
9
DYS539
11
DYS541
12
DYS542
16
DYS543
14
DYS544
13
DYS545
10.t
DYS546
14
DYS547
40
DYS548
12
DYS550
8
DYS551
14
DYS554
9
DYS558
9
DYS559
8
DYS562
21
DYS567
10
DYS569
11
DYS571
10
DYS573
8
DYS574
10
DYS577
9
DYS579
9
DYS580
9
DYS581
8
DYS582
8
DYS583
8
DYS584
8
DYS585
11
DYS588
13
DYS592
11
DYS595
8
DYS596
8
DYS598
9
DYS599
20
DYS600
11
DYS608
8
DYS609
8
DYS611
18
DYS612
29
DYS613
8
DYS614
15
DYS615
8
DYS616
14
DYS618
12
DYS619
9
DYS620
8
DYS621
8
DYS622
19
DYS623
10
DYS624
9
DYS625
33
DYS626
26
DYS627
28
DYS629
12
DYS630
20
DYS631
10
DYS633
8
DYS634
8
DYS637
11
DYS639
11
DYS642
8
DYS644
13
DYS645
8
DYS649
8
DYS651
18
DYS655
11
DYS662
8
DYS664
51
DYS666
7
DYS667
7
DYS668
5
DYS672
9
DYS673
12
DYS675
6
DYS676
11
DYS677
11
DYS678
10
DYS679
13
DYS681
5
DYS683
10
DYS684
61
DYS685
43
DYS686
21
DYS687
32
DYS688
80
DYS692
7
DYS694
7
DYS695
32
DYS696
7
DYS701
5
DYS702
25
DYS703
12
DYS705
7
DYS706
13
DYS707
24
DYS708
27
DYS709
21
DYS711
65
DYS713
46
DYS718
14
DYS719
12
DYS720
28
DYS721
20
DYS722
20
DYS723
21
G09411
12
L1313
3
L14
4
DYR1
15
DYR2
13
DYR3
12
DYR5
9
DYR6
15
DYR7
14
DYR8
12
DYR10
10
DYR12
11
DYR13
9
DYR14
10
DYR15
13
DYR19
9
DYR20
11
DYR23
12
DYR26
11
DYR27
10
DYR28
11
DYR29
10
DYR30
15
DYR31
7
DYR32
17
DYR33
15
DYR39
10
DYR40
12
DYR41
11
DYR43
8
DYR44
12
DYR46
9
DYR47
4
DYR48
12
DYR49
12
DYR51
6
DYR52
9
DYR54
11
DYR55
12
DYR56
11
DYR57
11
DYR59
14
DYR60
15
DYR61
8
DYR62
5
DYR65
8
DYR69
6
DYR70
10
DYR71
8
DYR73
10
DYR74
12
DYR75
11
DYR76
14
DYR77
11
DYR78
10
DYR79
14
DYR80
6
DYR81
29
DYR82
10
DYR83
12
DYR84
12
DYR85
8
DYR87
7
DYR89
11
DYR90
9
DYR91
6
DYR92
12
DYR93
11
DYR94
10
DYR95
7
DYR96
7
DYR97
12
DYR99
6
DYR100
11
DYR101
10
DYR102
7
DYR103
11
DYR104
10
DYR105
6
DYR106
8
DYR107
8
DYR108
9
DYR110
5
DYR111
12
DYR112
14
DYR113
8
DYR115
30
DYR116
6
DYR117
7
DYR118
10
DYR119
12
DYR120
7
DYR123
17
DYR126
11
DYR127
10
DYR130
13
DYR131
7
DYR135
11
DYR136
6
DYR137
4
DYR138
15
DYR139
15
DYR143
11
DYR144
7
DYR146
9
DYR150
13
DYR152
11
DYR154
11
DYR156
18
DYR157
16
DYR158
16
DYR159
14
DYR160
13
DYR161
15
DYR162
18
DYR163
29
DYR164
23
DYR165
37
DYR166
11
DYR167
11
DYR168
6
DYR169
8
DYR170
36
DYR171
38
DYR172
17
DYR173
29
DYR174
12
DYR175
15
DYR177
7
DYR178
5
DYR179
5
DYR181
10
DYR182
5
DYR183
10
DYR184
10
DYR185
7
DYR186
5
DYR188
8
DYR189
9
DYR190
7
DYR191
6
DYR192
5
DYR193
10
DYR194
8
DYR195
8
DYR196
8
DYR197
10
DYR198
7
DYR199
6
DYR200
6
DYR201
6
DYR202
6
DYR203
6
DYR204
6
DYR205
9
DYR206
9
DYR207
6
DYR208
9
DYR209
6
DYR210
5
DYR211
8
DYR212
15
DYR214
6
DYR215
10
DYR217
11
DYR218
5
DYR219
6
DYR221
14
DYR222
6
DYR224
6
DYR225
6
DYR227
5
DYR228
6
DYR229
5
DYR230
6
DYR231
7
DYR234
7
DYR236
7
DYR238
6
DYR239
8
DYR240
8
DYR241
12
DYR242
8
DYR243
19
DYR244
11
DYR245
7
DYR247
6
DYR248
6
DYR249
12
DYR250
37
DYR251
7
DYR252
6
DYR253
5
DYR254
10
DYR255
7
DYR256
7
DYR257
11
DYR258
8
DYR259
10
DYR260
6
DYR262
6
DYR263
7
DYR264
6
DYR265
8
DYR266
5
DYR268
5
DYR269
5
DYR271
6
DYR273
8
DYR275
7
DYR278
6
DYR279
5
DYR280
5
DYR281
7
DYR286
14
DYR287
13
DYR299
5
DYR308
5
DYR315
7
DYR318
5
DYR320
4
DYR322
9
DYR323
6
DYR324
4
DYR327
4
DYR337
7
DYR340
6
DYR344
5
DYR352
10
DYR354
4
DYR366
6
DYR370
4
DYR372
6
DYR374
4
DYR376
4
DYR377
8
DYR383
5
DYR392
5
DYR393
5
DYR394
5
DYR399
4
DYR402
4
DYR403
7
DYR405
4
DYR406
5
DYR408
5
DYR410
6
DYR417
9
DYR418
5
DYR419
6
DYR420
6
DYR421
11
DYR422
7
DYR423
5
DYR429
4
DYR431
8
DYR440
13
DYR441
6
DYR447
5
DYR448
5
DYR452
4
DYR453
9
DYR455
11
DYR458
4
DYR467
4
DYR468
11
DYR469
11
DYR470
7
DYR471
6
DYR472
7
DYR480
7
DYR481
9
DYR484
5
DYR486
4
DYR494
4
DYR497
4
DYR498
8
DYR499
6
DYR500
5
DYR502
5
DYR508
5
DYR512
5
DYR515
6
DYR518
5
DYR519
6
DYR523
7
DYR528
6
DYR541
5
DYR542
4
DYR551
7
DYR559
8
DYR560
4
DYR563
9
DYR567
4
DYR570
4
DYR572
5
DYR573
10
DYR582
5
DYR585
6
DYR586
6
DYR590
4
DYR591
5
DYR592
6
DYR593
4
DYR594
4
DYR597
6
DYR600
4
DYR603
7
DYR613
4
DYR615
12
DYR618
4
DYR620
5
DYR621
5
DYR622
4
DYR625
5
DYR633
5
DYR634
11
DYR636
12
DYR637
7
DYR638
4
DYR639
5
DYR640
4
DYR647
4
DYR651
11
DYR656
10
DYR657
8
DYR660
7
DYR661
4
DYR662
4
DYR667
4
DYR668
6
DYR672
5
DYR674
10
DYR675
4
DYR681
5
DYR682
6
DYR683
6
DYR685
8
DYR686
7
DYR688
4
DYR691
4
DYR701
5
DYR702
6
DYR703
5
DYR705
6
DYR706
5
DYR707
4
DYR711
5
DYR713
7
DYR714
7
DYR718
5
DYR719
5
DYR720
6
DYR723
5
DYR724
9
DYR729
6
DYR730
5
DYR731
7
DYR732
8
DYR733
4
DYR734
11
DYR736
6
DYR739
6
DYR740
5
DYR742
4
DYR748
5
DYR749
5
DYR753
5
DYR757
6
DYR758
5
DYR763
8
DYR764
7
DYR770
9
DYR773
4
DYR776
4
DYR778
6
DYR779
4
DYR784
8
DYR785
6
DYR786
5
DYR787
5
DYR790
10
DYR793
6
DYR794
8
DYR795
7
DYR797
7
DYR798
10
DYR801
4
DYR805
4
DYR806
5
DYR809
5
DYR815
5
DYR819
4
DYR824
6
DYR825
5
DYR826
6
DYR830
6
DYR832
11
DYR834
6
DYR839
5
DYR840
4
DYR843
4
DYR846
6
DYR847
5
DYR850
5
DYR853
5
DYR855
4
DYR857
4
DYR858
5
FTY327
4
FTY394
11
FTY62
6
FTY246
5
FTY362
4
FTY161
8
FTY192
5
FTY227
7
FTY391
7
FTY180
4
FTY369
7
FTY70
11
FTY195
7
FTY105
7
FTY214
13
FTY262
5
FTY208
4
FTY11
5
FTY95
6
FTY234
5
FTY27
5
FTY329
5
FTY211
5
FTY138
5
FTY288
6
FTY18
4
FTY115
5
FTY322
6
FTY153
4
FTY203
5
FTY142
6
FTY191
12
FTY299
11
FTY185
8
FTY397
4
FTY334
5
FTY348
8
FTY275
10
FTY306
5
FTY383
5
FTY285
9
FTY85
10
FTY325
4
FTY237
8
FTY129
11
FTY301
12
FTY216
7
FTY68
11
FTY32
8
FTY265
8
FTY300
5
FTY201
8
FTY98
5
FTY144
10
FTY20
6
FTY308
6
FTY177
8
FTY158
6
FTY84
7
FTY29
8
FTY250
7
FTY364
4
FTY57
6
FTY377
4
FTY251
5
FTY217
7
FTY252
9
FTY42
5
FTY372
8
FTY176
6
FTY66
6
FTY198
10
FTY117
14
FTY159
6
FTY232
6
FTY343
6
FTY178
4
FTY112
13
FTY157
8
FTY148
10
FTY194
12
FTY317
7
FTY289
15
FTY345
6
FTY273
6
FTY30
5
FTY147
5
FTY302
9
FTY354
10
FTY326
6
FTY88
4
FTY248
9
FTY267
11
FTY170
7
FTY60
4
FTY167
5
FTY134
10
FTY235
8
FTY145
11
FTY14
9
FTY340
5
FTY293
5
FTY278
7
FTY269
11
FTY530
10
FTY1156
4
FTY1070
9
FTY1004
4
FTY31
5
FTY339
4
FTY113
6
FTY280
4
FTY255
7
FTY349
5
FTY58
11
FTY127
4
FTY321
7
FTY92
5
FTY392
8
FTY312
7
FTY135
5
FTY150
9
FTY294
5
FTY282
6
FTY905
6
FTY502
11
FTY743
7
FTY443
6
FTY670
12
FTY1042
12
FTY510
11
FTY512
5
FTY935
4
FTY563
10
FTY1016
11
FTY1049
8
FTY635
13
FTY861
12
FTY433
5
FTY259
5
FTY44
11
FTY233
9
FTY274
6
FTY34
5
FTY1068
11
FTY1051
5
FTY658
7
FTY800
12
FTY1025
12
FTY998
8
FTY445
11
FTY809
5
FTY428
8
FTY562
9
FTY897
5
FTY1064
7
FTY1052
7
FTY310
11
FTY189
5
FTY283
8
FTY28
7
FTY858
9
FTY446
11
FTY1006
12
FTY612
11
FTY507
10

FAQ: What STR interpretations does YFull provide for my sample?

Sample ID Country / Language Info Ref File Testing company Statistics Status
YF002057 —— N-Y4338* —— Hg19 .BAM FTDNA (Y500) 57X, 13.5 Mbp, 165 bp
ERS2540883 Sweden (Stockholms län) N-Y4339 N-Y4339*, N-Y12104*, N-Y5611*, N-Y12103*, N-F1983*, N-Y31253, N-Y21546*, N-A12167*, N-BY30478, N-Y21 Hg19 .BAM Ancient 2X, 19.5 Mbp, 66 bp
YF097258 —— N-Y4339* —— Hg38 .BAM Nebula Genomics 12X, 23.4 Mbp, 150 bp
VK508 Estonia (Saaremaa) N-Y10932 N-Y10932*, N-Y10931*, N-VL11*, N-VL14, N-VL12*, N-VL12a, N-Y29761 Hg19 .BAM Ancient 1X, 8.0 Mbp, 81 bp
YF014051 Sweden (Skåne län) N-Y57577 —— Hg38 .BAM FTDNA (Y500) 22X, 11.8 Mbp, 151 bp
YF004674 Sweden (Skåne län) N-Y57577 —— Hg19 .BAM FTDNA (Y500) 41X, 13.8 Mbp, 165 bp
YF065963 Finland (Länsi-Suomen lääni) / Finnish N-Y22774 YF001848 Hg38 .BAM FTDNA (Y700) 47X, 18.7 Mbp, 151 bp
YF006063 Finland (Länsi-Suomen lääni) N-Y22774 —— Hg19 .BAM FTDNA (Y500) 45X, 14.5 Mbp, 165 bp
YF001848 Finland (Länsi-Suomen lääni) / Finnish N-Y22774 YF065963 Hg19 .BAM FTDNA (Y500) 49X, 14.3 Mbp, 165 bp
YF005115 Sweden (Östergötlands län) N-Y12104* —— Hg19 .BAM FTDNA (Y500) 43X, 13.9 Mbp, 165 bp
YF002265 England N-Y5611* —— Hg19 .BAM FTDNA (Y500) 64X, 13.9 Mbp, 165 bp
YF071656 —— N-Y10932* —— Hg38 .BAM FTDNA (Y700) 31X, 18.5 Mbp, 151 bp
YF016036 Sweden (Uppsala län) N-Y85136 —— Hg38 .BAM FTDNA (Y500) 23X, 11.8 Mbp, 151 bp
YF008830 Sweden (Uppsala län) N-Y85136 —— Hg19 .BAM FTDNA (Y500) 52X, 13.5 Mbp, 165 bp
YF122608 —— N-Y43445 —— T2T .BAM Nebula Genomics 10X, 44.9 Mbp, 150 bp
YF001619 Finland N-Y43445 YF067134 Hg19 .BAM FTDNA (Y500) 49X, 13.8 Mbp, 101 bp
VK512 Estonia (Saaremaa) N-Y21546* —— Hg19 .BAM Ancient 1X, 8.0 Mbp, 81 bp
VK489 Estonia (Saaremaa) N-Y21546* —— Hg19 .BAM Ancient 1X, 7.4 Mbp, 81 bp
YF124426 —— N-BY88300 —— T2T .BAM Nebula Genomics 10X, 44.2 Mbp, 150 bp
YF124073 Russia (Tatarstan, Respublika) N-BY88300 —— Hg38 .VCF FTDNA ——
YF071388 Russia (Lipetskaya oblast') N-BY88300 —— Hg38 .VCF FTDNA ——
YF077626 —— N-Y31253 YF008710 Hg38 .BAM FTDNA (Y700) 44X, 18.4 Mbp, 151 bp
YF073910 Russia (Sankt-Peterburg) / French N-Y31253 YF001924 Hg38 .BAM FTDNA (Y700) 34X, 17.9 Mbp, 151 bp
YF010175 Sweden (Gävleborgs län) N-Y31253 —— Hg19 .BAM FTDNA (Y500) 48X, 14.0 Mbp, 165 bp
YF128392 new Russia (Moskva) N-Y10931* —— T2T .BAM Nebula Genomics 9X, 44.2 Mbp, 150 bp
YF009219 —— N-Y10931* —— Hg19 .BAM FTDNA (Y500) 68X, 13.4 Mbp, 165 bp
YF009286 —— N-VL15 —— Hg19 .BAM FTDNA (Y500) 72X, 13.7 Mbp, 165 bp
YF009238 —— N-VL15 —— Hg19 .BAM FTDNA (Y500) 58X, 13.9 Mbp, 165 bp
YF002719 —— N-VL15 —— Hg19 .BAM FTDNA (Y500) 42X, 14.0 Mbp, 165 bp
NEV2 Russia (Yaroslavskaya oblast') / Russian N-VL11 N-VL11*, N-VL14, N-Y59140 Hg19 .BAM Ancient 2X, 9.6 Mbp, 60 bp
YF127677 new Russia (Penzenskaya oblast') / Russian N-VL12 N-VL12*, N-VL12a Hg38 .BAM YSEQ 16X, 23.5 Mbp, 150 bp
YF070840 Sweden N-A12167* —— Hg38 .BAM FTDNA (Y700) 31X, 18.6 Mbp, 151 bp
YF002835 Finland N-A12167* —— Hg19 .BAM FTDNA (Y500) 51X, 14.5 Mbp, 165 bp
YF014382 Finland (Länsi-Suomen lääni) N-BY30478 —— Hg38 .BAM FTDNA (Y500) 25X, 11.7 Mbp, 151 bp
YF013934 Norway (Hedmark) N-BY30478 —— Hg38 .BAM FTDNA (Y500) 26X, 12.1 Mbp, 151 bp
YF008145 Sweden (Stockholms län) N-Y21549* —— Hg19 .BAM FTDNA (Y500) 49X, 12.9 Mbp, 165 bp
YF005641 Sweden (Västmanlands län) N-Y21547 —— Hg19 .BAM FTDNA (Y500) 61X, 14.6 Mbp, 165 bp
YF001767 Sweden N-Y21547 —— Hg19 .BAM FTDNA (Y500) 46X, 13.4 Mbp, 165 bp
YF002790 Russia N-Y59140 —— Hg19 .BAM FTDNA (Y500) 43X, 13.4 Mbp, 165 bp
YF007187 Russia N-VL14 —— Hg19 .BAM FTDNA (Y500) 66X, 14.4 Mbp, 165 bp
YF005890 Russia N-VL14 —— Hg19 .BAM FTDNA (Y500) 63X, 14.5 Mbp, 165 bp
YF005250 Russia N-VL14 —— Hg19 .BAM FTDNA (Y500) 40X, 13.7 Mbp, 165 bp
YF001697 Russia N-VL12* —— Hg19 .BAM FTDNA (Y500) 42X, 13.9 Mbp, 165 bp
YF005587 Russia N-VL12a —— Hg19 .BAM FTDNA (Y500) 44X, 14.1 Mbp, 165 bp
YF005251 Russia N-VL12a —— Hg19 .BAM FTDNA (Y500) 56X, 13.7 Mbp, 165 bp
YF007822 Russia (Zabajkal'skij kraj) N-Y29761 —— Hg38 .BAM FTDNA (Y500) 35X, 11.9 Mbp, 165 bp
YF005025 Russia N-Y29761 —— Hg19 .BAM FTDNA (Y500) 79X, 13.9 Mbp, 165 bp

You can watch theoretical computed paths using PhyloGeographer. We do not guarantee that provided information is correct.
- Theoretical Computed Paths > N-Y4338
- Y Heatmap > N-Y4338

* The PhyloGeographer is not affiliated with YFull