Respiratory syncytial virus envelope glycoprotein (G) has a novel structure

doi:10.1093/nar/13.21.7795

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Nucleic Acids Research, 1985, Vol. 13, No. 21 7795-7812
© 1985

Articles

Respiratory syncytial virus envelope glycoprotein (G) has a novel structure

Masanobu Satake¹, John E. Coligan², Narayanasamy Elango³, Eriing Norrby⁴ and Sundararajan Venkatesan⁵^,*

Laboratory of Infectious Diseases, National Institute of Allergy and Infectious Diseases Bethesda, MD 20205 ¹Basic Research Program, Litton Bionetics, Inc., FCRF Frederick, MD 21701 ²Laboratory of Immunogenetics, National Institute of Allergy and Infectious Diseases Bethesda, MD 20205 ³Laboratory of Viral Diseases, National Institute of Allergy and Infectious Diseases Bethesda, MD 20205 ⁴Department of Virology, State Bacteriological Laboratory and Karolinska Institute S-105 21, Stockholm, Sweden ⁵Laboratory of Molecular Microbology, National Institute of Allergy and Infectious Diseases Bethesda, MD 20205

^*To whom correspondence should be addressed at LMM/NIAID, Bldg. 550, Frederick Cancer Research Facility, Frederick, MD 21701, USA

Received May 6, 1985. Revised October 7, 1985. Accepted October 7, 1985.

Amino acid sequence of human respiratory syncytial virus envelopeglycoprotein (G) was deduced from the DNA sequence of a recombinantplasmid and confirmed by limited amino add microsequendng ofpurified 90K G protein. The calculated molecular mass of theprotein encoded by the only long open reading frame of 298 aminoacids was 32,588 daltons and was somewhat smaller than the 36Kpolypeptide translated in vitro from mRNA selected by this plasmid.Inspection of the sequence revealed a single hydrophobic domainof 23 amino acids capable of membrane insertion at 41 residuesfrom the N-terminus. There was no N-terminal signal sequenceand the hydrophilic N-terminal 20 residues probably representthe cytoplasmic tail of the protein. The N-terminally orientedmembrane insertion was somewhat analogous to paramyxovirus hemagglutinin-neuraminidase(HN) and influenza neuraminidase (NA). The protein was moderatelyhydrophilic and rich in hydroxy-amino adds. It was both N- andO-glycosylated with the latter contributing significantly tothe net molecular mass 90K.

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