Insights into genetic diversity and phenotypic variations in domestic geese through comprehensive population and pan-genome analysis

Background Domestic goose breeds are descended from either the Swan goose(Anser cygnoides)or the Greylag goose(Anser anser),exhibiting variations in body size,reproductive performance,egg production,feather color,and other phenotypic traits.Constructing a pan-genome facilitates a thorough identification of genetic variations,thereby deepening our comprehension of the molecular mechanisms underlying genetic diversity and phenotypic variability.Results To comprehensively facilitate population genomic and pan-genomic analyses in geese,we embarked on the task of 659 geese whole genome resequencing data and compiling a database of 155 RNA-seq samples.By constructing the pan-genome for geese,we generated non-reference contigs totaling 612 Mb,unveiling a collection of 2,813 novel genes and pinpointing 15,567 core genes,1,324 softcore genes,2,734 shell genes,and 878 cloud genes in goose genomes.Furthermore,we detected an 81.97 Mb genomic region showing signs of genome selection,encompassing the TGFBR2 gene correlated with variations in body weight among geese.Genome-wide association studies utilizing single nucleotide polymorphisms(SNPs)and presence-absence variation revealed significant genomic associations with various goose meat quality,reproductive,and body composition traits.For instance,a gene encoding the SVEP1 protein was linked to carcass oblique length,and a distinct gene-CDS haplotype of the SVEP1 gene exhibited an association with carcass oblique length.Notably,the pan-genome analysis revealed enrichment of variable genes in the“hair follicle maturation”Gene Ontology term,potentially linked to the selection of feather-related traits in geese.A gene presence-absence variation analysis suggested a reduced frequency of genes associated with“regulation of heart contraction”in domesticated geese compared to their wild counterparts.Our study provided novel insights into gene expression features and functions by integrating gene expression patterns across multiple organs and tissues in geese and analyzing population variation.Conclusion This accomplishment originates from the discernment of a multitude of selection signals and candidate genes associated with a wide array of traits,thereby markedly enhancing our understanding of the processes underlying domestication and breeding in geese.Moreover,assembling the pan-genome for geese has yielded a comprehensive apprehension of the goose genome,establishing it as an indispensable asset poised to offer innovative viewpoints and make substantial contributions to future geese breeding initiatives.

Haplotype and Genetic Analysis of 41 Y-STR Loci in the Wuwei Han Population from Gansu Province,China

Objective Y-Chromosomal short tandem repeat polymorphism(Y-STR)analysis plays an indispensable role in the identification of male individuals,population genetics,and biogeographic research.While profiles of many populations based on Y-STR markers in human genomes are ample,haplotype data for the Wuwei Han are still scarce.Methods In this study,2180 unrelated Wuwei Han male individuals residing in Gansu Province,China were collected and genotyped using the novel Microreader™40Y Plus ID system.Phylogenetic relationship reconstructions,multidimensional scaling(MDS),and heatmap analysis were performed based on the genetic distance(Rst)values between our studied population and other populations of the Ymax module in the Y-STR Haplotype Reference Database(YHRD).Results A total of 2129 unique haplotypes were obtained,and the haplotype diversity(HD)and discrimination capacity(DC)for the Wuwei Han were 0.9999 and 0.9931,respectively.Conclusion Our results demonstrate that the Wuwei Han population had intimate genetic relationships with East Asians,especially the geographically close Han populations.Overall,this Y-Chromosomal assay gives valuable information about paternal lineages in male individual tracking and genealogical database construction.

Combined linkage and association mapping reveals two major QTL for stripe rust adult plant resistance in Shaanmai 155 and their haplotype variation in common wheat germplasm

The development and deployment of diverse resistance sources in new wheat cultivars underpin the durable control of stripe rust.In the present study,two loci for adult plant resistance(APR),QYr SM155.1 and QYr SM155.2,were identified in the Chinese wheat breeding line Shaanmai 155.QYr SM155.1 was mapped to a 3.0-c M interval between the single-nucleotide polymorphism(SNP)markers AX-109583610 and AX-110907562 on chromosome arm 2 BL.QYr SM155.2 was mapped to a 2.1-c M interval flanked by the SNP markers AX-110378556 and AX-86173526 on chromosome arm 7 AS.A genome-wide association study was used to identify markers associated with APR in a panel of 411 spring wheat lines.Thirteen and 11 SNPs were significantly associated with QYr SM155.1 and QYr SM155.2,respectively,corresponding to physical intervals of 653.75–655.52 Mb on 2 BL and 81.63–83.93 Mb on7 AS.To characterize the haplotype variation and the distribution of these QTL,haplotype analysis was performed based on these SNPs in an independent panel of 1101 worldwide wheat accessions.Three major haplotypes(2 B_h1,2 B_h2,and 2 B_h3)for QYr SM155.1 and four major haplotypes(7 A_h1,7 A_h2,7 A_h3,and 7 A_h4)for QYr SM155.2 were identified.Accessions individually harboring QYr SM155.1_h1 and QYr SM155.2_h1 haplotypes and their combination displayed resistance.Additional assays of 1306 current Chinese cultivars and breeding lines using markers flanking QYr SM155.1 and QYr SM155.2 indicated that the resistance haplotypes of the two QTL were present in respectively 1.45%and 14.16%of lines.Increasing resistance haplotype frequencies at these two loci using marker-assisted selection should benefit wheat production in China.

温热玉米种质间穗长基因RSH2的遗传结构变异与优异单倍型分析

鉴定穗长相关基因并揭示其遗传结构变异和优异单倍型,对深度剖析玉米产量形成的遗传机制和基于分子辅助的产量性状改良具有十分重要的理论意义和实践应用价值。本研究在前期图位克隆穗长相关基因RSH2的基础上,以西南地区玉米育种实践中广泛利用的120份温热玉米自交系组成的关联分析群体为材料,利用传统测序技术鉴定RSH2基因在该群体中的遗传结构变异,并结合该群体在不同环境条件下的穗长表型数据,剖析该基因的遗传结构变异和优异单倍型类型。结果表明,在RSH2基因外显子区域中共检测出28个变异位点,包括24个SNPs和4个InDel,共形成17个单倍型,其中Hap_5为优势单倍型,在35份材料中均存在。候选基因关联分析发现,3个突变位点与穗长显著关联(p<0.05),位于外显子区3946 bp处存在G/A突变,编码半胱氨酸(Cysteine,C)的密码子TGC突变成编码酪氨酸(Tyrosine,Y)TAC密码子,穗长显著提高。研究表明,位点S_3946可能是RSH2基因控制穗长变异的关键功能位点,可用于后续基于分子辅助的玉米穗长性状改良。

Y-STR单倍型在大家系中的差异研究

目的研究三种不同的Y-STR分型体系(Yfiler,Yfiler~?Plus和快速突变Y-STRs)在家系遗传过程中所展现出的变异程度。方法选取一遗传关系清晰的汉族家系,利用Yfiler~?Plus复合扩增系统和包含7个快速突变Y-STR基因座的复合扩增系统,得到所采男性样本32个Y-STR基因座的分型数据,统计分析Y-STR单倍型在世代遗传中的变化程度。结果同一家系不同男性个体的Y-STR单倍型具有一定的多样性,并且与Y-STR单倍型包含的基因座数量和基因座突变率有关;当家系中两名男性个体相隔10次减数分裂时,其Yfiler单倍型不一致的概率为7.35%,Yfiler Plus单倍型不一致的概率是91.2%,快速突变Y-STR单倍型不一致的概率则为100%。结论包含不同Y-STR基因座组合的Y-STR单倍型在世代遗传过程中的变化程度差异较大,在亲权鉴定和家系排查过程中特别是当Y-STR分型体系包含快速突变Y-STR基因座时应留心关注。本研究对Y-STR数据库建设中的采样规则和基因座选择也有参考价值。

苏姜猪mtDNA D-loop序列的遗传多样性分析

【目的】通过对苏姜猪线粒体DNA(mtDNA)D-loop高变区Ⅰ的序列扩增测序,探究苏姜猪种群的种质资源特性和遗传多样性。【方法】采集苏姜猪核心群100头经产母猪耳组织,提取DNA后扩增苏姜猪核心群母猪mtDNA D-loop高变区Ⅰ的基因片段并测序,运用NCBI在线BLAST对测序序列与参考序列进行比对、校正并寻找同源序列,确定mtDNA D-loop高变区Ⅰ序列的长度和位置;使用DnaSP v.5.10.1软件统计获得群体中核苷酸多态位点和变异位点数量,分析单倍型多样度(Hd)、核苷酸多样性(Pi)、平均核苷酸差异度(K)等参数;使用Mega 7.0软件对不同单倍型进行基于Kimura’s 2-prarmetermodel的遗传距离计算,采用邻接法(Neighbor-Joining,NJ)对苏姜猪的4个单倍型、17个中国地方猪种、欧洲家猪(登录号:AF034253.1)的mtDNA D-loop高变区Ⅰ序列构建系统发育树。【结果】对100头苏姜猪的mtDNA D-loop序列高变区Ⅰ进行扩增测序,获得长度为429 bp的有效序列,获得的序列中,AT含量为63.1%,GC含量为36.9%;中性检验Tajima’s D值为-1.80517(P<0.05),证实苏姜猪种群显著性偏离中性检验;被测序列中检测到19个变异位点,定义了4个单倍型,单倍型多样度为0.578,核苷酸多样性为0.0032;种群内4个单倍型之间的平均遗传距离在0.004~0.031之间。系统发育树结果显示,群体分为国内和国外2个类群,苏姜猪4个单倍型都聚集在国内分支上,其中单倍型H2和二花脸猪聚为一类,单倍型H4和姜曲海、皖南花猪等聚为一类。【结论】苏姜猪种群mtDNA D-loop高变区Ⅰ多态位点比例高,单倍型多样度高,核苷酸多样性低;苏姜猪群体内优势单倍型的遗传距离较近,占比较高,反映出苏姜猪群体母系来源较少。

不同地区褐黄血蜱的单倍型多态性、遗传分化和种系发育关系分析

为了探究不同地区褐黄血蜱的单倍型多态性、遗传分化和种系发育关系,本试验以采自于湖南、河南两省的褐黄血蜱(各10只,共20只)为研究对象,通过PCR扩增其细胞色素C氧化酶亚基Ⅰ(cox1)和还原型烟酰胺腺嘌呤二核苷酸脱氢酶亚基Ⅳ(nad4)基因序列,对其单倍型多态性(Hd)、遗传分化和种系发育关系进行分析。结果显示,cox 1基因序列(849 bp)包含4个变异位点,5个单倍型(h=5,A1~A5,Hd=0.653),其基因分化系数(Gst)=0.061,遗传分化系数(Fst)=-0.047,基因流(Nm)=-5.625;nad 4基因序列(626 bp)包含3个变异位点,3个单倍型(h=3,B1~B3,Hd=0.363),其Gst=0.004,Fst=0.074,Nm=3.125;cox 1+nad 4基因序列包含7个变异位点,7个单倍型(h=7,C1~C7,Hd=0.768),其Gst=-0.010,Fst=-0.015,Nm=-16.560;在所构建的种系发育树中,20只褐黄血蜱均处于种系发育树的一个分支。结果表明,湖南、河南两省的褐黄血蜱个体之间虽表现出单倍型多态性,但它们之间具有较近的亲缘关系,尚未出现遗传分化。

陕西榆林地区鸡蛔虫的单倍型多态性、遗传分化及种系发育关系分析

为探究陕西榆林地区鸡蛔虫单倍型多态性及遗传分化情况,并阐明其种系发育关系,试验以分离于榆林不同地区的30条鸡蛔虫为样品,采用PCR扩增其线粒体cox1与nad4基因,进行单倍型多态性、遗传分化与种系发育关系分析。结果显示:在所有的cox1基因(953 bp)序列中,共含30个变异位点(4个转换、26个颠换),17个单倍型(h=17,Hd=0.936),其基因分化系数(Gst)为-0.01285,遗传分化系数(Fst)为-0.02995,基因流(Nm)为11.53;在所有的nad4基因(876bp)序列中,共含29个变异位点(2个转换、27个颠换),16个单倍型(h=16,Hd=0.9356),其Gst为-0.01238,Fst为-0.0409,Nm为17.05;在所有的cox1+nad4基因(1829 bp)序列中,共含59个变异位点(6个转换、53个颠换),24个单倍型(h=24,Hd=0.977),其Gst为-0.0039,Fst为-0.0365,Nm为14.77;在所有cox1、nad4及cox1+nad4基因的Network图中,均未发现有单倍型聚集成簇的现象,构建的种系发育树中30条鸡蛔虫均聚集于一起,共同形成种系发育树的一个分支。研究表明,分离于陕西榆林地区的30条鸡蛔虫之间虽存在一定程度的基因变异,但其个体及单倍型之间具有较近的亲缘关系,尚未出现遗传分化。

Biogeographical informativeness of Y-STR haplotypes

Research on biogeographical ancestry(BGA)is becoming of growing interest in forensic genetics and in the biomedical literature(1)Thus,for instance,the need to predict ethnicity of an unknown suspect based on DNA profiles found at the crime scene is of maximum interest in criminalistics[2],and several autosomal SNP panels have been designed and tested for BGA investigations[3,4].Most of these panels aim at discriminating three main continental groups(sub-Saharan Africans,Europeans,and Asians)by way of testing a number of ancestry informative markers(AIMs)that run from a few dozens to a few hundred[5](see more background in Supplementary data online).

利用COI基因序列分析长江与澜沧江水系日本沼虾群体的遗传结构(英文)

测定了我国长江水系和澜沧江水系的日本沼虾9个群体,共79个个体的线粒体COI基因序列片段(约450bp),结果发现有89个变异位点,共计有46个单倍型。其中云南昆明(KM)群体具有较丰富的遗传多样性(h=1.000,π=0.028),而重庆(CQ)群体的遗传多样性最小(h=0.700,π=0.008)。AMOVA分析表明,群体间的遗传变异占总遗传变异的9.66%,而90.34%的遗传变异源于群体内。采用邻接法(NJ)构建的分子系统树显示,46个单倍型明显地聚为长江中下游和长江上游与澜沧江两个族群。其结果可以为合理开发和利用日本沼虾自然野生资源,以及建立和保护日本沼虾种质资源库及基因库提供必要的参考。

环氧化酶2启动子区遗传变异及其与胃癌发病风险的关系

目的 筛查环氧化酶2（COX-2）启动子区遗传变异并探讨其与胃癌发病风险的关系。方法 以单链构象多态及测序的方法筛查COX-2启动子区遗传变异，以PCR-限制性片断长度多态性方法对筛查到的变异在323例胃癌患者和646名健康对照中进行基因分型。以logistic回归计算比值比（OR）及其95％可信区限（CI）。单体型由Haplo．stat软件构建。结果 筛查到COX-2启动子区3个单核苷酸变异，即一1290A〉G、-1195G〉A和-765G〉C。-1290AG、-1195AA和-765CG基因型与胃癌风险增高相关，OR分别为1．64（95％CI1.03-2．61）、2．68（95％CI1．65-4．33）和2．66（95％CI1．53-4．64）。单体型分析结果显示，与A_1290^-G-1195^-G-765单体型比较，A_1290-A_1195^-C-765单体型发生胃癌的风险较高，OR为11．80（95％CI2．43-57．25）。结论 COX-2启动子区遗传变异与胃癌易感性相关。

利用线粒体DNA控制区序列分析细鳞鲑种群的遗传结构

细鳞鲑(Brachymystaxlenok)是我国重要的经济鱼类,由于过度捕捞、环境污染及其他因素的影响,其种群已处于濒危状态。研究细鳞鲑种群的遗传结构对于探讨这一物种的形成与演化及其有效保护等问题具有十分重要的意义。本文测定了我国东部水系的细鳞鲑7个种群71个个体的线粒体DNA控制区序列片段(835bp),发现43个变异位点,共计15个单倍型。AMOVA分析结果表明,不同的地理区域之间存在显著的遗传分化(63.55%),而区域内和种群内的遗传变异分别只有24.17%和12.28%。采用邻接法(NJ)构建分子系统树,结果表明,单倍型被分成3个与各自的地理区域相对应的族群,各地理区域之间没有共享的单倍型。细鳞鲑的这种独特的遗传结构与其进化历史(例如地理隔离造成基因流的长期中断)和生物学特性(例如有限的散布能力和基因交换能力)有密切的关系。根据上述研究结果,我们建议对这3个遗传分化显著的地理区域加以保护,并按照不同的水系来保护种群,避免不同区域的种群之间发生基因交流。

鸭mtDNA控制区遗传变异与进化研究

利用DNA测序技术测定了我国6个家鸭品种31个个体线粒体DNA控制区多变序列。序列分析结果显示:A、T、C、G碱基的平均含量分别为0.313、0.201、0.355和0.130;检测到6个变异位点,约占分析位点总数的1.80%;检测到两种变异类型:颠换和转换,没有插入缺失类型;确定了9种单倍型,其中单倍型A1为本研究中6个地方鸭种的共享单倍型;本研究系统发育树结果支持我国家鸭起源于绿头野鸭(Anas platyryhynchos)和斑嘴鸭(Anas peocilorhycha)的"二元论"。

同域分布二倍体和四倍体泥鳅群体的遗传结构

采用SRAP标记和线粒体DNA控制区测序方法对武汉和洞庭湖2个二倍体和四倍体泥鳅同域分布区4个泥鳅群体的遗传结构进行研究。SRAP分析结果表明,18对多态性引物组合在4个泥鳅群体中共检测到534个位点,每对引物组合检测的位点数为23～40个;各群体的Nei's基因多样性(h)和Shannon's信息指数(I)平均值分别为0.205～0.218和0.324～0.341,4个群体间的h以及I差异不明显;基于Nei's无偏遗传距离构建的UPGMA树显示,洞庭湖二倍体和四倍体泥鳅群体亲缘关系最近,先聚为一支,再与武汉四倍体泥鳅聚为一支,而武汉二倍体泥鳅聚为单独一支。测定了4个泥鳅群体40个个体线粒体DNA控制区序列片段(932～935bp),发现47个变异位点,共计29种单倍型。洞庭湖四倍体和二倍体泥鳅群体的核苷酸多样性(π)分别为0.898%和0.872%,明显大于武汉四倍体(π=0.465%)和二倍体(π=0.675%)。在同域分布二倍体和四倍体泥鳅群体中,洞庭湖四倍体遗传多样性略大于洞庭湖二倍体,武汉二倍体则明显大于武汉四倍体。AMOVA分析表明,泥鳅群体的遗传变异主要来自群体内(62.68%),群体间的变异达到37.32%;群体间成对固定指数FST及Kimura 2-parameter遗传距离均显示,洞庭湖四倍体与二倍体泥鳅群体无明显分化,其余群体间均存在显著分化。控制区序列单倍型Bayesian系统树与SRAP分析所揭示的4个泥鳅群体的亲缘关系相似。

等位基因结构变异及差异表达研究进展

等位基因的结构变异及差异表达在多种生物中普遍存在。等位基因差异表达对基因的表达起了很重要的调控作用,并最终可能与生物的表型多态性联系起来。但是,由于问题的复杂性和缺乏有效的技术,等位差异表达与基因表达变化乃至表型变化之间的关系至今没有解决,因此对等位差异表达在各种生物中所起的作用仍然是低估的。本文从等位基因差异表达产生的原因、其生物学意义以及检测方法等方面对目前等位基因结构变异及差异表达的研究进展做一简单介绍。

青南高原地区高原鼠兔棘球蚴的分子鉴定和遗传分化分析

基于线粒体coxl基因部分序列对青南高原地区称多、达日、玛沁3县高原鼠兔感染的20份棘球绦虫幼虫（棘球蚴）样品进行分子鉴定和遗传分化分析。在测序获得的700bp长度序列中检测到17个变异位点，其中11个为简约信息位点。共检测到9个单倍型，最大简约法和最大似然法都表明这些单倍型都属于石渠棘球绦虫。遗传距离和聚类分析显示，称多和达日种群遗传距离最近，而玛沁种群与称多、达日以及首次报道的石渠县样本的遗传关系较远，此外玛沁种群的遗传多样性要高于其他2个种群，推测玛沁地区可能是青南地区石渠棘球绦虫的起源地之一。单倍型谱系关系分析显示，所有单倍型以及之前报道（Xiaoeta1．，2005）的石渠县样本以Hl为中心形成辐射状结构，这与前人的研究结论即石渠棘球绦虫单倍型呈现链状结构相反，显示出石渠棘球绦虫遗传分化规律的复杂性。

云南8个地区食蚊鱼种群的遗传结构分析

利用线粒体细胞色素b基因序列对云南8个不同地理种群食蚊鱼的遗传结构进行了分析,并对8个地理种群共计210个样本进行PCR扩增;采用分子方差分析方法,对种群的遗传变异进行分析。结果表明:获得了786 bp的基因片段序列,共检测到5个多态位点,定义了5种单倍型,其中单倍型H1由7个地理种群的156个样本共享(占样本总量74.3%),单倍型H2由7个地理种群的52个样本共享(占样本总量24.8%)。碱基频率含量(A+T)为53.2%,大于(G+C)46.8%。核苷酸多态性以东大河种群最高,其他7个群体较低。种群间的基因流较小为0.28。种群间遗传变异占总变异的52.74%,种群内的遗传变异占总变异的47.26%,种群间的变异是总变异的主要来源,云南地区的食蚊鱼种群整体较为稳定。

谷子抽穗时间基因SiTOC1的表达与单倍型变异分析

【目的】谷子抽穗时间的适应性表现是广适性新品种选育的基础,分析抽穗时间关键基因的遗传变异和单倍型效应,为品种适应性改良提供基础信息。【方法】通过全基因组关联分析(genome-wide association study,GWAS),定位谷子抽穗时间关键基因SiTOC1,利用多组学数据库(multi-omics database for Setaria italica,MDSi)提供的SiTOC1数字表达量,分析SiTOC1的组织时空表达特性,并利用原生质体对SiTOC1蛋白进行亚细胞定位。采用qRT-PCR在短日(10 h光照/14 h黑暗)条件下进行SiTOC124 h节律表达模式分析。利用有代表性的99份谷子品种,分析SiTOC1编码区和启动子区的遗传多态性、单倍型以及转录水平,并对单倍型与抽穗时间的关系进行鉴定。【结果】在第1染色体物理位置31456761 bp处鉴定到了一个显著的关联信号,与抽穗时间紧密相关,该位点附近存在一个拟南芥抽穗期TOC1的同源基因SiTOC1。SiTOC1在光周期响应组织(根、茎、叶等)中高表达,亚细胞定位于细胞核,在傍晚表达量上调,呈现出24 h节律性表达模式。SiTOC1在不同谷子品种中存在丰富的多态性,但REC和CCT结构域高度保守。SiTOC1编码区2种主要单倍型H-2和H-6分别与启动子单倍型Hp-591C和Hp-591A共分离,其中,启动子单倍型Hp-591C较Hp-591A的相对表达量显著上调了约2.5倍(P=0.014),并且该单倍型在三亚市、长治市和乌鲁木齐市3个环境下的抽穗时间分别平均延迟9、11和12 d。【结论】SiTOC1启动子区第591 bp处的SNP是引起抽穗时间差异的主效位点,单倍型Hp-591A较Hp-591C早熟,可作为主效单倍型用于分子育种选择。

湘西地区吕氏泰勒虫的单倍型多样性及种系发育关系分析

为探究湘西地区吕氏泰勒虫的单倍型多样性及其种系发育关系,以采自于湘西地区的16株羊源吕氏泰勒虫为研究对象,PCR扩增其核糖体18S rRNA、线粒体细胞色素c氧化酶亚基Ⅰ(cox1)基因序列,并分析其单倍型多态性及种系发育关系。结果表明,湘西地区吕氏泰勒虫核糖体18S rRNA基因序列的长度为384 bp,含9个变异位点、7个单倍型(A1—A7),单倍型多样性Hd为0.775;cox1基因序列的长度为1 092 bp,存在2个变异位点、4个单倍型(B1—B4),单倍型多样性Hd为0.625;在18S rRNA+cox1重组的基因序列中,共含有11个变异位点、10个单倍型(C1—C10),单倍型多样性Hd为0.925;其中,A1、A4、B1、B3、B4、C1、C8与C9均为古老单倍型。系统发育分析结果显示,供试的16株羊源吕氏泰勒虫均处于系统发育树的同一分支上。这说明来自于湘西地区的16株羊源吕氏泰勒虫之间尽管存在一定程度的基因变异现象和单倍型多样性,但它们之间存在共同古老的单倍型,表明其个体之间和单倍型之间均具有较近的亲缘关系,未出现遗传分化。

The Global Landscape of SARS-CoV-2 Genomes, Variants, and Haplotypes in 2019nCoVR

On January 22,2020,China National Center for Bioinformation(CNCB)released the 2019 Novel Coronavirus Resource(2019nCoVR),an open-access information resource for the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2).2019nCoVR features a comprehensive integration of sequence and clinical information for all publicly available SARS-CoV-2 isolates,which are manually curated with value-added annotations and quality evaluated by an automated in-house pipeline.Of particular note,2019nCoVR offers systematic analyses to generate a dynamic landscape of SARS-CoV-2 genomic variations at a global scale.It provides all identified variants and their detailed statistics for each virus isolate,and congregates the quality score,functional annotation,and population frequency for each variant.Spatiotemporal change for each variant can be visualized and historical viral haplotype network maps for the course of the outbreak are also generated based on all complete and high-quality genomes available.Moreover,2019nCoVR provides a full collection of SARS-CoV-2 relevant literature on the coronavirus disease 2019(COVID-19),including published papers from PubMed as well as preprints from services such as bioRxiv and medRxiv through Europe PMC.Furthermore,by linking with relevant databases in CNCB,2019nCoVR offers data submission services for raw sequence reads and assembled genomes,and data sharing with NCBI.Collectively,SARS-CoV-2 is updated daily to collect the latest information on genome sequences,variants,haplotypes,and literature for a timely reflection,making 2019nCoVR a valuable resource for the global research community.2019nCoVR is accessible at https://bigd.big.ac.cn/ncov/.