Who do you look like in the world?

Face Recognition


Principle of population recognition is to use the average face of the population in all over the world to compare features with your face, and calculate the similarity. The similarity will generally be 1~80%
Using optimization algorithms, supervised learning, and Convolution Neural Network constructs feature value functions for face, and adjusts parameter weights through machine learning. AI analyzes the similarity of different faces.
The picture needs to have a person’s face. If there are multiple faces, only the largest one will be recognized. Supports bmp, jpg, jpeg, png pictures, and no more than 2MB.
Clear all user uploaded pictures every day, privacy is safe

Our Services


微基因
WeGene

WeGene 3.0 provides more than 1000 test reports in 10 different categories, including ancestry composition analysis, genefit, nutrition, skin, health risks, psychology, etc.

WeGene Whole Genome Sequencing Lite Edition uses a high-throughput sequencer independently developed by BGI, which can provide raw detection data with a base number of over 60G, covering approximately 3 billion sites in the human body.

WeGene whole-genome sequencing uses a high-throughput sequencer independently developed by BGI, which can provide raw detection data with a base number of over 90G, which can detect all the data of more than 3 billion sites in the human body.

Y/Mt Haplotyping

Human Y chromosomes are inherited by males, and Mt mitochondria are inherited by females. According to molecular biology, modern humans originated in Africa. After hundreds of thousands of years of genetic mutation evolution, populations of different regions have formed different Y and Mt mutations, forming different haplogroups.
Haplogroups are numbered by the letters A-Z. The common paternal Y haplogroups in the Eastern population are O, C, D, and N, and the common maternal Mt haplogroups are M, B, D, F, etc. The common paternal Y haplogroups in the western population are R, I, J, E, and the maternal Mt haplogroups are H, U, T, J and so on.
Support the import and analysis of WGS and NGS genetic sequencing data of genetic testing companies in worldwide, and refer to the latest haplogroup tree such as FamilyTreeDNA, ISOGG, YFull, etc., and adopt flexible algorithms to analyze your Y and Mt lineage. You can keep updated with the world's latest scientific results of human Y and Mt haplogroups, find your relatives, and explore the history and civilization of ancestors.

Ancestry

Based on the Maximum Likelihood Theory and Hidden Markov Model, we adopt a global and local optimization algorithm, and through reasonable segmentation identification of DNA chromosome data, we calculate it compared with the global human science samples to show you the best reliable ancestry story.

Nationality, Surname and Y-DNA

There are many ethnic groups in China, and the surname culture has a long history. Many ethnic groups have unique gene types. Many surnames have thousands of years of history. They represent the inheritance of Chinese patrilineal society. Through statistical analysis of the relationship between ethnic groups, surnames and Y-DNA, insights into history and evolution of Chinese ethnic groups and surnames cultures.

父系Y-DNA与母系Mt-DNA分型

GeneU 支持导入分析全球基因公司的WGS全基因组和NGS高通量芯片测序数据,并参照美国FamilyTreeDNA、ISOGG、俄罗斯YFull等全球基因公司的最新单倍群树型,采用快速灵活的算法,分析您的父系Y-DNA和母系Mt-DNA单倍群,您可随时掌握全球最新的人类父系和母系单倍群演化科研成果,联络您的同系族群,探索祖先迁徙的历史与文明。

没有测试DNA?获取优惠券,现在测试...
源基因优惠券
Y-STR 测序

测序男性Y染色体的29个Y-STR位点,可判断多人之间的家族近亲关系。

微基因优惠券
高通量基因芯片测序

测序全染色体的100多万个SNP位点,可对个人及其家族父系和母系朔源,包含祖源、运动、营养、美肤、健康、心理等 9 大类,近 500 项官方报告全面解读。

源基因优惠券
Y-SNP(含STR) 高通量测序

测序男性Y染色体上十余Mbp非重组、非重复区域,可得到此区域内几万年内Y染色体的所有SNP突变信息和STR位点信息,可对个人及其家族父系精准朔源。

微基因优惠券
WGS 全基因组测序

采用华大基因自主研发测序仪,高深度检测人体全基因组超 30 亿位点,提供专属全基因组解读报告。

已测试DNA?
选择单倍群分型参照树
FTDNA
FamilyTreeDNA树

个父系单倍群,个SNP
个母系单倍群,个SNP

YFull
YFull树

个父系单倍群,个SNP
个母系单倍群,个SNP

ISOGG
MF树

{this.state.mf.yHaplo}个父系单倍群,{this.state.mf.mtSNP}个SNP
{this.state.mf.mtHaplo}个母系单倍群,{this.state.mf.mtSNP}个SNP

您的DNA数据坐标格式
分型策略
父系Y单倍型 突变数 层级 可信度
母系Mt单倍型 突变数 层级 可信度
人体内有23对染色体,其中22对常染色体中,每一对染色体都有一条来自父系,一条来自母系,两条染色体在传代过程中对应的部分会发生交换,从而造成混血的效应,就是遗传学上说的重组。另一对性染色体包括X染色体和Y染色体。在女性体内,X染色体也是成对的,分别来自父母双方,所以也不能避免混血的影响。而在男性体内,却只有一条来自母亲的X染色体和一条来自父亲的Y染色体,也就是说男性的Y染色体只能来源于父亲,所以人体性染色体的遗传方式决定了Y染色体遵从严格的父系遗传。 Y染色体上的突变形成的个体差异主要有两大类,单核苷酸多态(SNP)和短串联重复(STR)。DNA分子由四种碱基(A、T、C、G)按照一定的顺序连接而成,SNP是仅仅一个位置上的碱基类型变化。由多个SNP突变构成的一种突变谱被称为一种单倍型。
根据分子生物学的测算,现代人类起源于非洲,经过几十万年的基因突变演化,不同的地域人群形成了不同的Y和Mt突变,形成了众多的基因分支。基因单倍群由字母A-Z编号,东方人群常见的Y父系单倍群有O、C、D、N,常见的Mt母系单倍群有M、B、D、F等。西方人群常见的Y父系单倍群有R、I、J、E、G、T,Mt母系单倍群有H、U、T、J等。

为什么会有多种可能性的染色体?