The relationship between polymorphisms of HCMV UL144 ORF and clinical manifestations in 73 strains with congenital and/or perinatal HCMV infection

Summary. Human cytomegalovirus (HCMV) displays genetic variability and can cause a wide range of diseases in neonates. To explore the relationship between polymorphisms and clinical manifestations, the UL144 genes from 73 clinical strains were sequenced. All of the strains, which came from 70 infants with suspected congenital and/or perinatal HCMV infection, were non-passage strains. Among them, 23 strains were from surgery specimens, and the others were from urine samples. Clinically, 12 infants displayed asymptomatic infection and 58 patients displayed symptomatic infection. The results showed that 36 patients (49.3%) were infected with strains belonging to UL144 group G1 (G1a 33/36, G1b 3/36), 19 patients (28.8%) were infected with strains belonging to group G2, and 15 patients (21.9%) were infected with strains belonging to group G3. This result indicated that UL144 group G1 was the predominant genotype in congenital and/or perinatal HCMV infection in northern China. Compared with the distribution pattern of strains in UL144 genotypes of data from Chicago, Iowa and Texas, and Japan by chi-square test, the difference was statistically significant. This suggested that the distribution pattern of strains in UL144 genotype was related to geographic location. However, no linkage was observed between the UL144 genotypes and the severity and/or outcome of HCMV disease.     

先天性巨结肠患者人类巨细胞病毒UL144基因多态性的研究

目的研究人类巨细胞病毒（human cytomegalovirus,HCMV）UL144基因在先天性巨结肠（Hirschsprung＇s disease,HD）临床株中的多态性,探讨HCMV UL144基因多态性与致病性之间的关系.方法随机选取53个先天性巨结肠患儿痉挛段结肠手术标本及经荧光定量PCR方法检测HCMV DNA为阳性的4个HD患儿的尿标本,对照组为无症状或仅有皮肤轻度黄疸的6个尿标本.应用巢式聚合酶链反应的方法,扩增HCMV UL144基因开放阅读框架（ORF）,扩增阳性的临床株进行双向DNA测序,最后通过DNAclub、Bioedit、DNAstar、GeneDoc等软件进行分析.结果23份HD痉挛段肠组织（46%）及4份尿标本HCMV UL144基因扩增阳性,并且完成测序.种系进化树分析结果显示25个HD患儿的DNA序列分为3个基因型,G1A型64.0%,G2型24%,G3型12%.与对照组比较,经χ^2检验,χ^2=10.93,P为0.012;其中HD临床株G1A和G3型基因经Fisher检验,P为0.015,差异具有统计学意义.全结肠型、长段型及普通型HD分散分布于UL144各个基因型中.结论HD与HCMV感染有关,HCMV可能是HD的病因之一;在HD患儿中,HCMV感染以UL144基因G1A型为主;HD的临床分型与HCMV UL144基因分型无关.     

Distribution of UL144, US28 and UL55 genotypes in Polish newborns with congenital cytomegalovirus infections

Human cytomegalovirus (HCMV) is the most common congenital infection. HCMV strains display genetic variability in different regions. Distribution of HCMV genotypes in the population of congenitally infected newborns from Central Poland and viral load in newborns' blood is described and discussed. HCMV isolates were analysed by sequencing at three sites on the genome: the UL144 tumour necrosis factor-alpha (TNFα)-like receptor gene, the US28 beta-chemokine receptor gene and the UL55 envelope glycoprotein B (gB) gene. The newborns' blood was examined for HCMV DNA with a nested (UL144, UL55) or heminested (US28) polymerase chain reaction, and the genotypes were determined by sequence analysis. HCMV DNA was detectable in 25 out of 55 examined newborns born by HCMV-infected mothers (45.5%). The blood viral load in mother-infant pairs was determined. Most of the newborns had identical virus genotype, gB2 (96%), UL144 B1 (88%) and US28 A2 (84%). These genotypes were detected in all newborns with asymptomatic congenital infection. The occurrence of UL144 B1 or US28 A2 genotypes in the babies examined was significant in comparison to other genotypes (p=0.0002 and p=0.040 respectively). There was no association between specific gB subtypes in all patients groups (p=0.463). There was no correlation between HCMV genotypes and the outcome.     

Human cytomegalovirus a sequence and UL144 variability in strains from infected children

Human cytomegalovirus (HCMV) displays genetic polymorphisms. This variability may contribute to strain-specific tissue tropism and disease expression in HCMV-infected humans. To determine strain variability in a sequence and UL144 gene regions, 51 low-passage isolates from 44 HCMV-infected children were studied. Isolates were obtained from 28 healthy children attending child care centers in Iowa and from 16 congenitally infected infants born in Texas. Isolates demonstrated substantial nucleotide variation in each gene region. Phylogenetic analysis of a sequence variability allowed 39 isolates to be grouped into six clades. The largest clade contained 16 isolates with > or = 95% nucleotide homology. Forty-eight of the 49 HCMV isolates yielding UL144 amplicons was grouped according to the clades described a few years ago [Lurain et al. (1999) Journal of Virology 73:10040-10050]. No linkage was observed among a sequence, UL144, and glycoprotein B (gB; UL55) polymorphisms. Four Texas and 11 Iowa isolates displayed > or = 95% sequence homology for a sequence and UL144 regions and possessed identical gB genotypes. No relationship between UL144 polymorphisms and outcome of congenital HCMV infection was observed. These data indicate that HCMV strains circulating among young children have UL144 polymorphisms similar to those of HCMV strains excreted by immunocompromised adults. Identification of conserved nucleotide sequences among Iowa and Texas children suggests genetic stability and biologic importance of these gene regions.     

先天性巨结肠患者人类巨细胞病毒UL139基因多态性的研究

目的研究人巨细胞病毒（HCMV）UL139基因在先天性巨结肠（HD）临床株中的多态性，探讨其多态性与HD之间的关系。方法对53株HD患儿痉挛段肠组织标本和6株尿标本的临床株进行UL139开放阅读框（ORF）的扩增及测序。对照组为10个无症状HCMV感染患儿的尿标本。结果28个HD临床株完成测序，进化树分析结果显示UL139基因DNA序列分为3组5个基因型。G3为主要基因型（48．1％）。与对照组比较，X^2=7．378，P=0．194。24个临床株同时完成了HCMVUL144基因测序，HCMVUL144与UL139基因经Kendall等级相关分析r=-0．114，P=0．425。不同临床分型HD分散分布于UL139各个基因型中。结论HCMVUL139基因具有高度的多态性；UL139基因分型与HD的临床分型无关；UL139基因与UL144基因无相关性。     

Genetic variations in the gB,UL144 and UL149 genes of human cytomegalovirus strains collected from congenitally and postnatally infected Japanese children

Human cytomegalovirus (CMV) is the leading cause of intrauterine viral infection. The association of genetic polymorphisms in some particular genes with the incidence and severity of congenital infection has been controversial. To address this issue, we analyzed the genotypes of the glycoprotein B (gB), UL144 and UL149 genes of CMV clinical strains obtained from 33 congenitally and 31 postnatally infected Japanese children. Our results demonstrated that (1) CMV strains with any combination of genotypes could be vertically transmitted from mother to fetus, potentially causing neurological abnormalities, (2) the gB3 genotype was more prevalent in the congenital cases than in postnatally infected children (P < 0.05), particularly in congenital cases with sensorineural hearing loss (P = 0.009), (3) there was no relationship between gB genotype and viral load in the urine and dried umbilical cord specimens in the congenital cases, and (4) the UL144 and UL149 genotype distributions had no bias for congenial infection. In future studies, it would be interesting to see whether the gB genotypes serve as a prognostic indicator of CMV-associated diseases.     

Human Cytomegalovirus UL144 Is Associated with Viremia and Infant Development Sequelae in Congenital Infection

Human cytomegalovirus (HCMV) strains may be genotyped based on polymorphisms that exist within the UL144 gene, which is one of 19 viral genes lost in attenuated laboratory strains. In the present study, UL144 genotypes in congenitally infected babies (congenital cytomegalovirus [cCMV]) were determined, and the relationship between the genotype, viral load, cytokine profile, and patient developmental outcome was investigated. All cCMV infections identified during 2006 and 2007 were included (n = 29). A portion of the infants were clinically assessed at birth and at 12 to 18 months postinfection for cCMV clinical sequelae (n = 18/29). The plasma viral load (PVL) was requested for 23/29 patients, and the UL144 genotype was determined (n = 27/29). The cytokine profile in patient plasma or serum was assessed (n = 20/29). UL144 genotypes A, B, and C were detected within the cCMV population at 33.3%, 29.6%, and 25.9%, respectively. UL144 A and C were associated with a high PVL (P < 0.04). Furthermore, a significant association between the developmental outcome and UL144 A and C was observed (P < 0.04). Only patients infected with UL144 B and A/B were described as having a normal clinical outcome. In addition, a significant correlation between interleukin 10 (IL-10) levels and the PVL was observed (P < 0.04); however, there was no association between the genotype and the cytokine profile. The present study determined that the specific detection of UL144 genotypes A and C was indicative of serious cCMV infection and more likely to lead to long-term cCMV-associated clinical manifestations. The inclusion of HCMV UL144 genotyping along with the recommended PVL monitoring following cCMV diagnosis may aid prediction of the clinical outcome.Congenital cytomegalovirus (cCMV) infection is the most common congenital infection in the developed world, affecting approximately 1% of live-born neonates. It is a frequent cause of mental retardation and the leading nongenetic cause of sensorineural hearing loss (SNHL) (7, 11). cCMV disease can result from either primary maternal infection or reactivation from latency during pregnancy, although generally, the most severe clinical syndromes follow primary infection. However, at present there is no way of definitively identifying at birth those infants who will develop sequelae and those who will not.The clinical significance of human cytomegalovirus (HCMV) molecular epidemiology is unclear and controversial, as the 236-kb viral genome suggests that a large number of polymorphic strains may potentially exist (10). HCMV infects many different cell types, resulting in a diverse range of clinical manifestations and suggesting that the clinical outcome may be related to both genetic variation among HCMV strains and the host immune response(s). Previous studies have investigated genetic polymorphisms that exist within the envelope glycoprotein genes, as their encoded proteins are targets for neutralizing antibodies. However, the glycoprotein B (gB) gene, which encodes a putative target for HCMV vaccination, has shown no consistent relationship with disease outcome (3, 16, 25).HCMV strains may be genotyped based on polymorphisms that exist within the UL144 gene, which is one of 19 viral genes lost in attenuated laboratory strains (4). The majority of these deleted genes are nonessential for viral replication; however, expression in vivo may contribute to disease pathogenesis (8). Three main HCMV genotypes, based on the ectodomain of the UL144 protein, have been described: UL144 A, UL144 B, and UL144 C (1, 2, 16, 24). Conflicting reports on the association between the UL144 genotypes and the viral load, clinical presentation, and clinical outcome have been published. Arav-Boger and colleagues concluded that infection with the UL144 A and C strains was associated with unfavorable clinical outcome in neonates (2). In addition, genotype UL144 C was linked to termination of pregnancy following detection of HCMV in the amniotic fluid (1). In direct contrast, UL144 genetic polymorphisms were associated with neither clinical presentation nor viral-load levels in the amniotic fluid in a French population (18, 19). Furthermore, Bale and colleagues found no relationship between the UL144 genotype and the congenital clinical outcome (3).The present study addresses these inconsistent findings. The UL144 genotypes, detected in a well-defined, geographically distinct group of congenitally infected infants, were analyzed with respect to the viral loads, immunological cytokine profiles, and developmental outcomes of affected infants. Our findings show that the HCMV genotypes UL144 A and C are significantly associated with high plasma viral loads (PVLs) and long-term cCMV clinical sequelae.(Part of this work was presented in a 15-minute oral presentation [abstract number O-12] at the 2008 Congenital Cytomegalovirus Conference, Centers for Disease Control and Prevention, Atlanta, GA, 5 November 2008.)     

Polymorphisms within human cytomegalovirus chemokine (UL146/UL147) and cytokine receptor genes (UL144) are not predictive of sequelae in congenitally infected children

Human cytomegalovirus (HCMV) viral chemokine, UL146, and TNF alpha-like receptor UL144 genes show a high degree of hypervariability in clinical isolates. These proteins are predicted to be immune modulators and may contribute to the pathogenesis of HCMV infections. We analyzed the UL146 and UL144 genetic variation of 51 HCMV isolates from congenitally infected children and 13 isolates from children in childcare. There was no statistically significant correlation between UL146 and UL144 genotypes and HCMV disease and/or sequelae. However, there were some groups that had a relatively large proportion of asymptomatic outcomes. These included UL146 group 8 (7/8 asymptomatic) and UL146 group 10 (3/3 asymptomatic). UL144 group B had 11/15 (73%) asymptomatic. UL146 and UL144 genes remained stable in serial isolates from children in daycare for intervals up to three years. These results indicate that most UL146 and UL144 genotypes do not predict clinical sequelae following congenital HCMV infections.     

Human cytomegalovirus genetic variability in strains isolated from Japanese children during 1983-2003

The genetic variability of 74 human cytomegalovirus (HCMV) clinical isolates from 60 Japanese infants and children during 1983-2003 was investigated, and the relevance to their clinical course was studied. The patients consisted of 10 asymptomatic congenitally infected babies, 45 infected perinatally or postnatally resulting in HCMV mononucleosis/hepatitis and 5 immunocompromised hosts. The hypervariable region of the HCMV genome, that is the a sequence and UL144 region was analyzed using the polymerase chain reaction (PCR) and unrooted phylogenetic trees. HCMV glycoprotein B (gB) polymorphism was also studied. Unrooted phylogenetic trees of a sequence and UL144 allowed the isolates to be grouped to 5 and 3 clades, respectively. Three gB genotypes were also determined. However, there was no correlation between specific genotypes of these three genes and clinical forms, except for congenital infection which fell into one of three clades of the UL144 gene. In addition, the variability of the three genes had no correlation with each other. This implies that study of a single gene is insufficient for investigating the molecular epidemiology of HCMV. This study provides basic data on the genetic variability of HCMV in an Asian population and should help to determine the strains for vaccine candidates.     

Is the mixture of human cytomegalovirus genotypes frequent in infants with congenital infection at birth in a high seroprevalence population?

It is still not well known, in a population with high human cytomegalovirus (HCMV) seroprevalence, whether a child with congenital infection harbors multiple viral strains at birth, and whether the prolonged viral excretion in these children is secondary to the persistence of the same viral strain. To verify the genomic diversity of HCMV detected in congenitally infected children, the nucleotide viral sequences from urine and/or saliva obtained at birth from 14 newborns with congenital infection and breast milk obtained from mothers of 5 of these children were analyzed. Among the 14 children, 10 had sequential samples until the median age of 10 months. The viral nucleotide sequences in the breast milk were compared with those identified in the respective children at birth. The differentiation of viral strains was based on the variability of 3 regions of viral genes (UL55/gB, UL144, and UL73/gN). In 13/14 children (92.8%), a single genotype was observed at birth. Different viral genotypes were found in 1 child (7.2%). Among the sequential samples from 10 children, the same genotype obtained at birth was detected in 9/10 (90%), and in 1 of them (10%), a genotype change in the urine was found. More than 1 HCMV strain in milk was observed in 2 mothers (2/5, 40%). In a population with high seroprevalence, a single genotype was found in the majority of infected children. Reinfection did not frequently occur in the first months of life. Maternal reinfection does not seem to be a rare event in transmitter mothers.     

Molecular epidemiology of primary human cytomegalovirus infection in pregnant women and their families

The source of human cytomegalovirus (HCMV) infection was investigated in 29 pregnant women with primary HCMV infection by comparing DNA sequences of UL146, UL144 and a portion of UL55 gene of HCMV strains circulating within each family. Thirteen families were identified in which the pregnant woman, the husband and/or a child were shedding HCMV. In three of these families, both the woman and the husband suffered from a concomitant primary HCMV infection. Phylogenetic analysis of UL146, UL144, and UL55 genes indicated that strains circulating within each family were identical, whereas strains from different families appeared to be distinct. However, identical UL146, UL144, and UL55 DNA sequences were observed sporadically among unrelated strains. A child rather than the husband was the virus source for the great majority of pregnant women. No association was observed between UL144 polymorphisms and intrauterine transmission.     

HMA-SSCP方法研究人类巨细胞病毒UL144基因在临床低传代分离株中的多态性

目的 探讨人类巨细胞病毒（HCMV）UL144序列在临床患儿低传代分离株中的多态性及与临床疾病的关系。方法 对65株HCMV临床低传代分离株及7例同年龄组HCMV，DNA定量PCR方法检测阳性无症状感染儿尿液进行HCMV-ULl44 PCR扩增及HMA-SSCP分析，并对其中32份阳性标本进行测序。结果 65株分离株中有55株UL144全序列引物PCR扩增阳性，7份QPCR检测HCMV—DNA阳性无症状感染儿尿液中5份UL144全序列引物PCR扩增阳性。60份UL144扩增阳性标本HMA-SSCP（异源双链泳动及单链构象多态分析）呈现3种典型带形，巨结肠患儿分离株序列、小头畸形患儿的序列分布以1型为主，巨结肠患儿分离株序列没有2型，黄疽患儿以3型为主。结论 HCMV-UL144广泛存在于临床低传代分离株中，用HMA-SSCP检测HCMV-UL144基因在临床低传代分离株中的多态性是一种可行的方法。HCMV不同疾病类型的HCMV-UL144序列不同，提示UL144基因可能对HCMV致病性起一定作用。     

Stability of human cytomegalovirus genotypes in persistently infected renal transplant recipients

Although most genes are highly conserved among strains of human cytomegalovirus (HCMV), several are unusually variable. By analyzing the sequence of two variable genes (UL146 and UL74) amplified directly from whole blood DNA extracts, multiple HCMV strains were detected in blood samples from 5/11 virus-infected renal transplant patients. These five patients were seronegative prior to transplantation and their likely acquisition of the virus was via the donated organ; HCMV-positive immunocompetent donors may thus be capable of harboring and transmitting multiple virus genotypes. In sequential samples taken up to 140 days post transplant no mutations in either gene were detected from 9/10 patients, and in the remaining patient a single nucleotide change was detected in UL146, and none in UL74. All sequences grouped into previously defined genotypes, with the detection of multiple members of the UL74 group 5 genotype establishing this previously tentative genotype. Additionally, identical sequences were identified in viruses from different patients, including examples from geographically distinct regions. Thus, although UL146 and UL74 exhibit impressive variation among strains, their sequences are maintained stably within and between infected individuals, suggesting that sequence differences between genotypes may be driven by differing gene function.     

Human cytomegalovirus glycoprotein B genotypes in Brazilian mothers and their congenitally infected infants

A case-control study design was used in order to compare the distribution of human cytomegalovirus (HCMV) glycoprotein B (gB) genotypes in 48 mothers of 49 congenitally infected infants with that observed in 144 mothers of 146 uninfected infants to study genetic variation of HCMV strains and maternal-fetal transmission. Congenital infection with HCMV was characterized by DNA detection and virus isolation from two urine or saliva samples collected prior to the third week of life. Genotyping of HCMV was carried out by a polymerase chain reaction-restriction fragment length polymorphism analysis of the variable region of the gB gene, testing for four genotypes. Genotype frequency was similar among the 28 non-transmitting mothers who were shedding virus (gB1: 25%; gB2: 28.6%; gB3: 42.8%; gB4: 0%), the 37 transmitting mothers (gB1: 21.6%; gB2: 46%; gB3: 27%; gB4: 0%), and the 49 infected infants (gB1: 39%; gB2: 37%; gB3: 24%; gB4: 0%). The same genotype was detected at different body sites (urine, saliva, and blood) of each infected newborn and in the respective mother (breast milk, urine, and saliva). Co-infection with multiple genotypes was observed in the immediate postpartum period in two mothers of infected infants (5.4%) and one non-transmitting mother (3.6%). The gB genotype was not correlated with intrauterine HCMV transmission. The genotype distribution found reflects the overall frequency of wild strains circulating in this geographic region. A single genotype is responsible for congenital HCMV infection. Co-infection with more than one strain, as characterized by gB genotype, was infrequent in women who were presumably immunocompetent.     

人巨细胞病毒UL143基因在临床低传代分离株中的多态性研究

目的 探讨人巨细胞病毒(human eytomegalovirus,HCMV)UL143序列在临床患儿低传代分离株中的多态性及其与临床疾病的关系.方法 对19株HCMV临床低传代分离株进行HCMV-UL143 PCR扩增分析及伞序列测定分析.结果 19株HCMV感染患儿临床分离株均因碱基插入造成移码突变,开放阅读框架(ORF)比Toledo株短.根据序列变异情况可将19个序列分为2组,第1组16个序列新增一个MYRISTYL位点;缺失2个PKC磷酸化位点.未发现黄疸、小头畸形、先天性巨结肠等不同疾病类型的序列之间的差异.结论 HCMV-UL143较多存在于临床低传代分离株中,序列呈现一定多态性.     

人巨细胞病毒UL143基因在临床低传代分离株中的多态性研究

目的 探讨人巨细胞病毒(human eytomegalovirus,HCMV)UL143序列在临床患儿低传代分离株中的多态性及其与临床疾病的关系.方法 对19株HCMV临床低传代分离株进行HCMV-UL143 PCR扩增分析及伞序列测定分析.结果 19株HCMV感染患儿临床分离株均因碱基插入造成移码突变,开放阅读框架(ORF)比Toledo株短.根据序列变异情况可将19个序列分为2组,第1组16个序列新增一个MYRISTYL位点;缺失2个PKC磷酸化位点.未发现黄疸、小头畸形、先天性巨结肠等不同疾病类型的序列之间的差异.结论 HCMV-UL143较多存在于临床低传代分离株中,序列呈现一定多态性.     

人巨细胞病毒UL143基因在临床低传代分离株中的多态性研究

目的 探讨人巨细胞病毒(human eytomegalovirus,HCMV)UL143序列在临床患儿低传代分离株中的多态性及其与临床疾病的关系.方法 对19株HCMV临床低传代分离株进行HCMV-UL143 PCR扩增分析及伞序列测定分析.结果 19株HCMV感染患儿临床分离株均因碱基插入造成移码突变,开放阅读框架(ORF)比Toledo株短.根据序列变异情况可将19个序列分为2组,第1组16个序列新增一个MYRISTYL位点;缺失2个PKC磷酸化位点.未发现黄疸、小头畸形、先天性巨结肠等不同疾病类型的序列之间的差异.结论 HCMV-UL143较多存在于临床低传代分离株中,序列呈现一定多态性.     

人巨细胞病毒UL143基因在临床低传代分离株中的多态性研究

目的 探讨人巨细胞病毒(human eytomegalovirus,HCMV)UL143序列在临床患儿低传代分离株中的多态性及其与临床疾病的关系.方法 对19株HCMV临床低传代分离株进行HCMV-UL143 PCR扩增分析及伞序列测定分析.结果 19株HCMV感染患儿临床分离株均因碱基插入造成移码突变,开放阅读框架(ORF)比Toledo株短.根据序列变异情况可将19个序列分为2组,第1组16个序列新增一个MYRISTYL位点;缺失2个PKC磷酸化位点.未发现黄疸、小头畸形、先天性巨结肠等不同疾病类型的序列之间的差异.结论 HCMV-UL143较多存在于临床低传代分离株中,序列呈现一定多态性.     

人巨细胞病毒UL143基因在临床低传代分离株中的多态性研究

目的 探讨人巨细胞病毒(human eytomegalovirus,HCMV)UL143序列在临床患儿低传代分离株中的多态性及其与临床疾病的关系.方法 对19株HCMV临床低传代分离株进行HCMV-UL143 PCR扩增分析及伞序列测定分析.结果 19株HCMV感染患儿临床分离株均因碱基插入造成移码突变,开放阅读框架(ORF)比Toledo株短.根据序列变异情况可将19个序列分为2组,第1组16个序列新增一个MYRISTYL位点;缺失2个PKC磷酸化位点.未发现黄疸、小头畸形、先天性巨结肠等不同疾病类型的序列之间的差异.结论 HCMV-UL143较多存在于临床低传代分离株中,序列呈现一定多态性.     

人巨细胞病毒UL143基因在临床低传代分离株中的多态性研究

目的 探讨人巨细胞病毒(human eytomegalovirus,HCMV)UL143序列在临床患儿低传代分离株中的多态性及其与临床疾病的关系.方法 对19株HCMV临床低传代分离株进行HCMV-UL143 PCR扩增分析及伞序列测定分析.结果 19株HCMV感染患儿临床分离株均因碱基插入造成移码突变,开放阅读框架(ORF)比Toledo株短.根据序列变异情况可将19个序列分为2组,第1组16个序列新增一个MYRISTYL位点;缺失2个PKC磷酸化位点.未发现黄疸、小头畸形、先天性巨结肠等不同疾病类型的序列之间的差异.结论 HCMV-UL143较多存在于临床低传代分离株中,序列呈现一定多态性.