Joel M. Dalrymple scite author profile

SUMMARYThe recently established virus family Flaviviridae contains at least 68 recognized members. Sixty-six of these viruses were tested by cross-neutralization in cell cultures. Flaviviruses were separated into eight complexes [tick-borne encephalitis (12 viruses), Rio Bravo (six), Japanese encephalitis (10), Tyuleniy (three), Ntaya (five), Uganda S (four), dengue (four) and Modoc (five)] containing 49 viruses; 17 other viruses were not sufficiently related to warrant inclusion in any of these complexes.

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Antigenic and Genetic Properties of Viruses Linked to Hemorrhagic Fever with Renal Syndrome

Schmaljohn

Hasty

Dalrymple

et al. 1985

Science

388

213

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Hemorrhagic fever with renal syndrome (HFRS) comprises a variety of clinically similar diseases of viral etiology that are endemic to and sporadically epidemic throughout the Eurasian continent and Japan. Although HFRS has not been reported in North America, viruses that are antigenically similar to HFRS agents were recently isolated from rodents in the United States. Examination and comparison of eight representative isolates from endemic disease areas and from regions with no known associated HFRS indicate that these viruses represent a new and unique group that constitutes a separate genus in the Bunyaviridae family of animal viruses.

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Comparison of the virulent Asibi strain of yellow fever virus with the 17D vaccine strain derived from it.

Hahn¹,

Dalrymple²,

Strauss³

et al. 1987

Proc. Natl. Acad. Sci. U.S.A.

211

154

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We have sequenced the virulent Asibi strain of yellow fever virus and compared this sequence to that of the 17D vaccine strain, which was derived from it. These two strains of viruses differ by more than 240 passages. We found that the two RNAs, 10,862 nucleotides long, differ at 68 nucleotide positions; these changes result in 32 amino acid differences. Overall, this corresponds to 0.63% nucleotide sequence divergence, and the changes are scattered throughout the genome. The overall divergence at the level of amino acid substitution is 0.94%, but these changes are not randomly distributed among the virus proteins. The capsid protein is unchanged, while proteins NS1, NS3, and NS5 contain 0.5% amino acid substitutions, and proteins ns4a and ns4b average 0.8% substitutions. In contrast, proteins ns2a and ns2b have 3.0 and 2.3% amino acid divergence, respectively. The envelope protein also has a relatively high rate of amino acid change of 2.4% (a total of 12 amino acid substitutions). The large number of changes in ns2a and ns2b, which are largely conservative in nature, may result from lowered selective pressure against alteration in this region; among flaviviruses, these polypeptides are much less highly conserved than NS1, NS3, and NS5. However, many of the amino acid substitutions in the E protein are not conservative. It seems likely that at least some of the difference in virulence between the two strains of yellow fever virus results from changes in the envelope protein that affect virus binding to host receptors. Such differences in receptor binding could result in the reduced neurotropism and vicerotropism exhibited by the vaccine strain.

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Non-neutralizing monoclonal antibodies can prevent lethal alphavirus encephalitis

Schmaljohn

Johnson

Dalrymple

et al. 1982

Nature

214

123

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Identification of Distinct Antigenic Determinants on Dengue-2 Virus Using Monoclonal Antibodies

Gentry¹,

Henchal²,

McCown³

et al. 1982

242

131

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Joel M. Dalrymple

Antigenic Relationships between Flaviviruses as Determined by Cross-neutralization Tests with Polyclonal Antisera

Antigenic and Genetic Properties of Viruses Linked to Hemorrhagic Fever with Renal Syndrome

Comparison of the virulent Asibi strain of yellow fever virus with the 17D vaccine strain derived from it.

Non-neutralizing monoclonal antibodies can prevent lethal alphavirus encephalitis

Identification of Distinct Antigenic Determinants on Dengue-2 Virus Using Monoclonal Antibodies

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