Section of Forensic Genetics, Department of Forensic Medicine, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark.
Escuela de Medicina, Facultad de Ciencias de la Salud, Universidad de Las Américas (UDLA), Quito, Ecuador; Grupo de Medicina Xenómica, Universidad de Santiago de Compostela, Santiago de Compostela, Spain.
Forensic Sci Int Genet. 2022 Jul;59:102708. doi: 10.1016/j.fsigen.2022.102708. Epub 2022 Apr 15.
Y haplogroups, defined by Y-SNPs, allow the reconstruction of the human Y chromosome genealogy, which is important for population, evolutionary and forensic genetics. In this study, Y-SNPs were typed and haplogroups inferred with the MPS Ion AmpliSeq™ HID Y-SNP Research Panel v1, as a high-throughput approach. Firstly, the performance of the panel was evaluated with different DNA input amounts, reagent volumes and cycle numbers. DNA-inputs from 0.5 to 1 ng generated the most balanced read depth. Combined with full reagent and 19 cycles, this offered the highest number of amplicons with a sequencing read depth of at least 20 reads. Secondly, the sub-haplogroups of 182 admixed South Americans and Greenlanders belonging to haplogroup Q were inferred and tested for potential improvement in resolution. Most samples were assigned to lineage Q-M3 with some samples assigned to lineages upstream (Q-M346, L56, L57; Q-L331, L53; Q-L54; Q-CTS11969, CTS11970) or parallel (Q-L330, L334; Q-Z780/M971) to Q-M3. Only one sample was assigned to a downstream lineage (Q-Z35615, Z35616). Most individuals of haplogroup Q with NAM ancestry could neither be distinguished from each other, nor from half of the Greenlandic samples. Typing additional, known SNPs within lineage Q-M3, Z19483 and SA05, increased the resolution of predicted haplogroups. The search for novel variants in the sequenced regions allowed the detection of 42 variants and the subdivision of lineage Q-M3 into new subclades. The variants found in six of these subclades were exclusive to certain South American countries. In light of the limited differentiation of haplogroup Q samples, the additional information on known or novel SNPs disclosed in this study when using MPS Ion AmpliSeq™ HID Y-SNP Research Panel v1 should be included in the Yleaf software, to increase the differentiation of lineage Q-M3.
Y 单倍群由 Y-SNPs 定义,可用于重建人类 Y 染色体的系统发生,这对于群体遗传学、进化遗传学和法医遗传学都很重要。在这项研究中,我们使用 MPS Ion AmpliSeq™ HID Y-SNP Research Panel v1 作为高通量方法对 Y-SNPs 进行分型并推断单倍群。首先,我们评估了该面板在不同 DNA 输入量、试剂体积和循环数下的性能。0.5 至 1ng 的 DNA 输入量产生了最平衡的读深度。与全试剂和 19 个循环相结合,这提供了具有至少 20 个读深度的扩增子数量最多。其次,我们推断了属于单倍群 Q 的 182 名混合南美人与格陵兰人的亚单倍群,并测试了其分辨率的潜在提高。大多数样本被分配到支系 Q-M3,一些样本被分配到上游支系(Q-M346、L56、L57;Q-L331、L53;Q-L54;Q-CTS11969、CTS11970)或平行支系(Q-L330、L334;Q-Z780/M971)。只有一个样本被分配到下游支系(Q-Z35615、Z35616)。具有 NAM 祖先的 Q 单倍群个体彼此之间以及与一半的格陵兰样本都无法区分。对支系 Q-M3、Z19483 和 SA05 内的其他已知 SNP 进行分型增加了预测单倍群的分辨率。在测序区域中寻找新的变异体可以检测到 42 个变异体,并将支系 Q-M3 细分为新的亚支系。在其中六个亚支系中发现的变体仅存在于某些南美国家。鉴于 Q 单倍群样本的分化有限,当使用 MPS Ion AmpliSeq™ HID Y-SNP Research Panel v1 时,本研究中发现的已知或新 SNP 的附加信息应包含在 Yleaf 软件中,以增加 Q-M3 支系的分化。
