Su Yu Pin, Su Bor Sheu, Shien Jui Huang, Liu Hung Jen, Lee Long Huw
Department of Veterinary Medicine, College of Veterinary Medicine, National Chung Hsing University, Taichung, Taiwan.
J Virol Methods. 2006 May;133(2):146-57. doi: 10.1016/j.jviromet.2005.10.031. Epub 2005 Dec 6.
The sequences and phylogenetic analyses of the M-class genome segments of 12 avian reovirus strains are described. The S1133 M1 genome segment is 2283 base pairs long, encoding a protein muA consisted of 732 amino acids. Each M2 or M3 genome segment of 12 avian reovirus strains is 2158 or 1996 base pairs long, respectively, encoding a protein muB or muNS consisted of 676 and 635 amino acids, respectively. The S1133 genome segment has the 5' GCUUUU terminal motif, but each M2 and M3 genome segment displays the 5' GCUUUUU terminal motif which is common to other known avian reovirus genome segments. The UCAUC 3'-terminal sequences of the M-class genome segments are shared by both avian and mammalian reoviruses. Noncoding regions of both 5'- and 3'-termini of the S1133 M1 genome segment consist of 12 and 72 nucleotides, respectively, those of each M2 genome segment consist of 29 and 98 nucleotides, respectively, and those of each M3 genome segment are 24 and 64 nucleotides, respectively. Analysis of the average degree of the M-class gene and the deduced mu-class protein sequence identities indicated that the M2 genes and the muB proteins have the greatest level of sequence divergence. Computer searches revealed that the muA possesses a sequence motif (NH(2)-Leu-Ala-Leu-Asp-Pro-Pro-Phe-COOH) (residues 458-464) indicative of N-6 adenine-specific DNA methylase. Examination of the muB amino acid sequences indicated that the cleavage site of muB into muBN and muBC is between positions 42 and 43 near the N-terminus of the protein, and this site is conserved for each protein. During in vitro treatment of virions with trypsin to yield infectious subviral particles, both the N-terminal fragment delta and the C-terminal fragment phi were shown to be generated. The site of trypsin cleavage was identified in the deduced amino acid sequence of muB by determining the amino-terminal sequences of phi proteins: between arginine 582 and glycine 583. The predicted length of delta generated from muBC is very similar to that of delta generated from mammalian reovirus mu1C. Taken together, protein muB is structurally, and probably functionally, similar to its mammalian homolog, mu1. In addition, two regions near the C-terminal and with a propensity to form alpha-helical coiled-coil structures as previously indicated are observed for each protein muB. Phylogenetic analysis of the M-class genes revealed that the predicted phylograms delineated 3 M1, 5 M2, and 2 M3 lineages, no correlation with serotype or pathotype of the viruses. The results also showed that M2 lineages I-V consist of a mixture of viruses from the M1 and M3 genes of lineages I-III, reflecting frequent reassortment of these genes among virus strains.
描述了12株禽呼肠孤病毒株M类基因组片段的序列和系统发育分析。S1133 M1基因组片段长2283个碱基对,编码一种由732个氨基酸组成的μA蛋白。12株禽呼肠孤病毒株的每个M2或M3基因组片段分别长2158或1996个碱基对,分别编码一种由676和635个氨基酸组成的μB或μNS蛋白。S1133基因组片段具有5' GCUUUU末端基序,但每个M2和M3基因组片段显示出5' GCUUUUU末端基序,这是其他已知禽呼肠孤病毒基因组片段所共有的。禽和哺乳动物呼肠孤病毒的M类基因组片段共享UCAUC 3'-末端序列。S1133 M1基因组片段5'-和3'-末端的非编码区分别由12和72个核苷酸组成,每个M2基因组片段的非编码区分别由29和98个核苷酸组成,每个M3基因组片段的非编码区分别为24和64个核苷酸。对M类基因的平均程度和推导的μ类蛋白质序列同一性的分析表明,M2基因和μB蛋白具有最大程度的序列差异。计算机搜索显示,μA具有一个序列基序(NH(2)-Leu-Ala-Leu-Asp-Pro-Pro-Phe-COOH)(残基458-464),表明其为N-6腺嘌呤特异性DNA甲基转移酶。对μB氨基酸序列的检查表明,μB切割成μBN和μBC的切割位点在蛋白质N端附近的第42和43位之间,并且该位点在每种蛋白质中都是保守的。在用胰蛋白酶体外处理病毒粒子以产生感染性子病毒颗粒的过程中,显示出产生了N端片段δ和C端片段φ。通过确定φ蛋白的N端序列,在μB的推导氨基酸序列中鉴定出胰蛋白酶切割位点:在精氨酸582和甘氨酸583之间。从μBC产生的δ的预测长度与从哺乳动物呼肠孤病毒μ1C产生的δ非常相似。综上所述,蛋白μB在结构上,可能在功能上,与其哺乳动物同源物μ1相似。此外,在每种μB蛋白中观察到两个靠近C端且如先前所示倾向于形成α-螺旋卷曲螺旋结构的区域。对M类基因的系统发育分析表明,预测的系统发育树描绘了3个M1、5个M2和2个M3谱系,与病毒的血清型或致病型无关。结果还表明,M2谱系I-V由来自谱系I-III的M1和M3基因的病毒混合物组成,反映了这些基因在病毒株之间的频繁重配。
