Узбеки

[кылышбай]

1 час назад, АксКерБорж сказал:

Momyn считает, что название племени не абакты, но абак. Если он прав, то вряд ли от тамги. И почему у вас все на -лы?

Momyn возможно прав т.к. везде абак-керей. При этом роды с названием абакты тоже встрнечаются.

-ла потому что речь шла в т.ч. о ногайцах. Понятно что у ногайцев и каракалпаков тараклы, абаклы, у казахов таракты, абакты.

[АксКерБорж]

18 часов назад, кылышбай сказал:

Momyn возможно прав т.к. везде абак-керей.

 

Если не прилагательное, то название племени не по тамге?

Тогда с чем оно связано по вашему?

Не связываете ли вы его с термином "обок" со значением "род"?

В "Юань ши" так именуются татары (та-та-эр), туланкиты (до-лан-ги), чжалаиры (я-ла-и-эр), тайчжиуты (тай-чи-у), найманы (най-мань), кереи (кэ-ле), меркиты (ме-ли-ци), роды Чингизхана, Чжамухи и др.

Абак-керей а-кающая форма о-кающего Обок-керей?

 

[asan-kaygy]

Абдуманапов Р. А., Сабитов Ж. М. Улус Ильчикдай в империи эмира Тимура Oriental Studies. 2024. Т. 17. No 3. С. 464–475.

https://www.academia.edu/126328118/Абдуманапов_Р_А_Сабитов_Ж_М_Улус_Ильчикдай_в_империи_эмира_Тимура_Oriental_Studies_2024_Т_17_No_3_С_464_475

[Clownman]

https://rus.azattyq.org/a/uchyonye-proveli-issledovanie-dnk-naseleniya-uzbekistana-dlya-sozdaniya-geneticheskoy-karty-strany/33568366.html

Быть может братьям узбекам стоить взять пример с азербайджанцев и запретить близкородственные браки

[asan-kaygy]

Опубликована статья об исследовании 27-маркерных Y-STR гаплотипов узбеков Казахстана.
Статья в открытом доступе.
https://www.sciencedirect.com/science/article/pii/S2352340926003665

Abstract

This article presents a population dataset of 27 Y- chromosomal short tandem repeat (Y-STR) loci obtained from 501 unrelated Uzbek males residing in southern Kazakhstan. Samples were collected from four geographic locations: Saryagash District (N = 79), Sayram District (N = 213), Taraz (N = 70), and Turkistan (N = 139). Genotyping was performed using the Yfiler™ Plus PCR Amplification Kit, and the resulting profiles were used to estimate haplotype frequencies, forensic parameters, and interpopulation genetic relationships. A total of 424 distinct haplotypes were identified, and summary diversity metrics were calculated for each regional group and for the pooled dataset. The overall haplotype diversity reached 0.9991, while discrimination capacity was 0.85. Allele frequency distributions for 23 single-copy loci and allele combination frequencies for multi-copy loci are provided, together with information on microvariants, null alleles, and copy number variations. Predicted haplogroup assignments derived from Y-STR haplotypes, AMOVA outputs, pairwise Rst matrices, median-joining networks, and multidimensional scaling plots based on overlapping marker sets for comparative populations, are included as part of the dataset. Haplogroup prediction based on Y-STR haplotypes showed that the paternal gene pool is mainly represented by haplogroups R1a (21.6%) and C2 (21.4%), followed by J2, R1b, N1, O2, and Q. These data expand the representation of Central Asian populations in forensic and population-genetic reference datasets and provide a resource for future studies of paternal lineage diversity, forensic reference data, interpopulation comparison, and comparative analyses of Y-chromosomal variation in Central Asia.

[Jagalbay]

В 06.05.2026 в 12:04, asan-kaygy сказал:

Опубликована статья об исследовании 27-маркерных Y-STR гаплотипов узбеков Казахстана.
Статья в открытом доступе.
https://www.sciencedirect.com/science/article/pii/S2352340926003665

Abstract

This article presents a population dataset of 27 Y- chromosomal short tandem repeat (Y-STR) loci obtained from 501 unrelated Uzbek males residing in southern Kazakhstan. Samples were collected from four geographic locations: Saryagash District (N = 79), Sayram District (N = 213), Taraz (N = 70), and Turkistan (N = 139). Genotyping was performed using the Yfiler™ Plus PCR Amplification Kit, and the resulting profiles were used to estimate haplotype frequencies, forensic parameters, and interpopulation genetic relationships. A total of 424 distinct haplotypes were identified, and summary diversity metrics were calculated for each regional group and for the pooled dataset. The overall haplotype diversity reached 0.9991, while discrimination capacity was 0.85. Allele frequency distributions for 23 single-copy loci and allele combination frequencies for multi-copy loci are provided, together with information on microvariants, null alleles, and copy number variations. Predicted haplogroup assignments derived from Y-STR haplotypes, AMOVA outputs, pairwise Rst matrices, median-joining networks, and multidimensional scaling plots based on overlapping marker sets for comparative populations, are included as part of the dataset. Haplogroup prediction based on Y-STR haplotypes showed that the paternal gene pool is mainly represented by haplogroups R1a (21.6%) and C2 (21.4%), followed by J2, R1b, N1, O2, and Q. These data expand the representation of Central Asian populations in forensic and population-genetic reference datasets and provide a resource for future studies of paternal lineage diversity, forensic reference data, interpopulation comparison, and comparative analyses of Y-chromosomal variation in Central Asia.

с2 к кому ближе из казахов?

[asan-kaygy]

Там разные С2 у них

[asan-kaygy]

POLITICAL PROCЕSSЕS IN THЕ KHORЕZM OASIS IN THЕ 14TH CЕNTURY 30-70S
Gulzoda Ibragimova
https://orcid.org/0009-0006-3908-5381
DOI: https://doi.org/10.69691/5z18j286
Keywords: Ulus of Chigatai, Goldеn Hordе, Kungrat Sufis, Amir Timur, Timurids, Khiva, Wazir, Tirsak, Yangishеhr (Shеmakha-kala), Adak (Ak-kala), Kumkеnd, Bagdadik.
Abstract
Thе problеm of thе accеssion to thе thronе of thе dynasty known as Kungirat Sufis in thе Khorеzm oasis has not bееn fully rеsolvеd. Bеcausе, according to thе availablе writtеn sourcеs, this dynasty was crеatеd in Khorеzm in thе 70s of thе 14th cеntury undеr thе influеncе of thе еvеnts of thе tеrmination of thе Chigatai dynasty by Amir Tеmur. Howеvеr, еvеn bеforе that, thе bеlls undеr thе influеncе of thе Goldеn Hordе statе wеrе taking powеr in Khorеzm, so it will bе possiblе to solvе this problеm with thе hеlp of archaеological and numismatic sourcеs. In this rеspеct, this articlе is dеdicatеd to this topic.
https://jurnal.tamaddunnuri.uz/index.php/tnj/article/view/2634
 

[asan-kaygy]

Population data of 27 Y-chromosome STR loci for Uzbek population from Kazakhstan
Abstract
This article presents a population dataset of 27 Y- chromosomal short tandem repeat (Y-STR) loci obtained from 501 unrelated Uzbek males residing in southern Kazakhstan. Samples were collected from four geographic locations: Saryagash District (N = 79), Sayram District (N = 213), Taraz (N = 70), and Turkistan (N = 139). Genotyping was performed using the Yfiler™ Plus PCR Amplification Kit, and the resulting profiles were used to estimate haplotype frequencies, forensic parameters, and interpopulation genetic relationships. A total of 424 distinct haplotypes were identified, and summary diversity metrics were calculated for each regional group and for the pooled dataset. The overall haplotype diversity reached 0.9991, while discrimination capacity was 0.85. Allele frequency distributions for 23 single-copy loci and allele combination frequencies for multi-copy loci are provided, together with information on microvariants, null alleles, and copy number variations. Predicted haplogroup assignments derived from Y-STR haplotypes, AMOVA outputs, pairwise Rst matrices, median-joining networks, and multidimensional scaling plots based on overlapping marker sets for comparative populations, are included as part of the dataset. Haplogroup prediction based on Y-STR haplotypes showed that the paternal gene pool is mainly represented by haplogroups R1a (21.6%) and C2 (21.4%), followed by J2, R1b, N1, O2, and Q. These data expand the representation of Central Asian populations in forensic and population-genetic reference datasets and provide a resource for future studies of paternal lineage diversity, forensic reference data, interpopulation comparison, and comparative analyses of Y-chromosomal variation in Central Asia.

https://www.sciencedirect.com/science/article/pii/S2352340926003665?fbclid=IwY2xjawR0ZYdleHRuA2FlbQIxMABicmlkETFtY3VKTG92dDIzWGZTQ1dEc3J0YwZhcHBfaWQQMjIyMDM5MTc4ODIwMDg5MgABHlE45InC4pOMc4AluLyM0_W2CUZDUs_89BFsMui1PEL2WeVqtGsVtEcP2-To_aem_oBgghHg25IB4ECoISA6Qzw