Is the major capsid protein of iridoviruses a suitable target for the study of viral evolution?

被引：188

作者：

Tidona, CA ^{[1
]}

Schnitzler, P ^{[1
]}

Kehm, R ^{[1
]}

Darai, G ^{[1
]}

机构：

[1] Univ Heidelberg, Inst Med Virol, D-69120 Heidelberg, Germany

来源：

VIRUS GENES | 1998年 / 16卷 / 01期

关键词：

cytoplasmic DNA viruses; Iridoviridae; Phycodnaviridae; African swine fever virus; major capsid protein; computer analysis; DNA alignment; protein alignment;

D O I：

10.1023/A:1007949710031

中图分类号：

Q3 [遗传学];

学科分类号：

071007 ; 090102 ;

摘要：

Iridoviruses are large cytoplasmic DNA viruses that are specific for different insect or vertebrate hosts. The major structural component of the non-enveloped icosahedral virus particles is the major capsid protein (MCP) which appears to be highly conserved among members of the family Iridoviridae, Phycodnaviridae, and African swine fever virus. The amino acid sequences of the known MCPs were used in comparative analyses to elucidate the phylogenic relationships between different cytoplasmic DNA viruses including three insect iridoviruses (Tipula iridescent virus, Simulium iridescent virus, Chile iridescent virus), seven vertebrate iridoviruses isolated either from fish (lymphocystis disease virus, rainbow trout virus, European catfish virus, doctor fish virus), amphibians (frog virus 3), or reptiles (turtle virus 3, turtle virus 5), one member of the family Phycodnaviridae (Paramecium bursaria Chlorella virus type 1), and African swine fever virus. These analyses revealed that the amino acid sequence of the MCP is a suitable target for the study of viral evolution since it contains highly conserved domains, but is sufficiently diverse to distinguish closely related iridovirus isolates. Furthermore the results suggest that a substantial revision of the taxonomy of iridoviruses based on molecular phylogeny is required.

引用

页码：59 / 66

页数：8

共 40 条

[1] MORPHOLOGICAL CHARACTERISTICS OF AFRICAN SWINE FEVER VIRUS AND ITS RESEMBLANCE TO TIPULA IRIDESCENT VIRUS [J].

ALMEIDA, JD ;

WATERSON, AP ;

PLOWRIGHT, W .

ARCHIV FUR DIE GESAMTE VIRUSFORSCHUNG, 1967, 20 (03) :392-+

[2] STRUCTURAL POLYPEPTIDES OF FROG VIRUS-3, PHOSPHORYLATED PROTEINS [J].

AUBERTIN, AM ;

TONDRE, L ;

MARTIN, JP ;

KIRN, A .

FEBS LETTERS, 1980, 112 (02) :233-238

[3] IDENTIFICATION AND CHARACTERIZATION OF THE GENE ENCODING THE MAJOR STRUCTURAL PROTEIN OF INSECT IRIDESCENT VIRUS TYPE-22 [J].

CAMERON, IR .

VIROLOGY, 1990, 178 (01) :35-42

[4] ANALYSIS OF THE GENOME OF FISH LYMPHOCYSTIS DISEASE VIRUS ISOLATED DIRECTLY FROM EPIDERMAL TUMORS OF PLEURONECTES [J].

DARAI, G ;

ANDERS, K ;

KOCH, HG ;

DELIUS, H ;

GELDERBLOM, H ;

SAMALECOS, C ;

FLUGEL, RM .

VIROLOGY, 1983, 126 (02) :466-479

[5] MOLECULAR-CLONING AND PHYSICAL MAPPING OF THE GENOME OF FISH LYMPHOCYSTIS DISEASE VIRUS [J].

DARAI, G ;

DELIUS, H ;

CLARKE, J ;

APFEL, H ;

SCHNITZLER, P ;

FLUGEL, RM .

VIROLOGY, 1985, 146 (02) :292-301

[6]

DARAI G, 1990, DEV MOL VIROLOGY

[7] A COMPARISON OF THE STRUCTURAL POLYPEPTIDES OF 3 IRIDESCENT VIRUSES (TYPE-6, TYPE-9, AND TYPE-16) AND THE MAPPING OF THE DNA REGION CODING FOR THEIR MAJOR CAPSID POLYPEPTIDES [J].

DAVISON, S ;

CARNE, A ;

MCMILLAN, NAJ ;

KALMAKOFF, J .

ARCHIVES OF VIROLOGY, 1992, 123 (1-2) :229-237

[8] DNA ANALYSIS OF INSECT IRIDESCENT VIRUS-6 - EVIDENCE FOR CIRCULAR PERMUTATION AND TERMINAL REDUNDANCY [J].

DELIUS, H ;

DARAI, G ;

FLUGEL, RM .

JOURNAL OF VIROLOGY, 1984, 49 (02) :609-614

[9] FROG VIRUS-3 REPLICATION - INDUCTION AND INTRACELLULAR-DISTRIBUTION OF POLYPEPTIDES IN INFECTED-CELLS [J].

ELLIOTT, RM ;

KELLY, DC .

JOURNAL OF VIROLOGY, 1980, 33 (01) :28-51

[10] VIRAL-PROTEINS AND ADENOSINE-TRIPHOSPHATE PHOSPHOHYDROLASE ACTIVITY OF FISH LYMPHOCYSTIS DISEASE VIRUS [J].

FLUGEL, RM ;

DARAI, G ;

GELDERBLOM, H .

VIROLOGY, 1982, 122 (01) :48-55

← 1 2 3 4 →