1984
DOI: 10.1016/0168-1702(84)90034-0
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Localized conserved regions of the S RNA gene products of bunyaviruses are revealed by sequence analyses of the Simbu serogroup Aino virus

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Cited by 35 publications
(20 citation statements)
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“…Since the N protein is the major protein component of nucleocapsids, these regions represent possible functional domains which play a role in N protein interactions with L protein, virus RNA or other N protein molecules (Akashi et al, 1984) and may contain the epitopes that react with complement-fixing antibodies. Alignment of NSs proteins also reveals many highly conserved regions that represent potential functional domains.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Since the N protein is the major protein component of nucleocapsids, these regions represent possible functional domains which play a role in N protein interactions with L protein, virus RNA or other N protein molecules (Akashi et al, 1984) and may contain the epitopes that react with complement-fixing antibodies. Alignment of NSs proteins also reveals many highly conserved regions that represent potential functional domains.…”
Section: Discussionmentioning
confidence: 99%
“…S RNA sequences were deposited into the GenBank sequence database and accession numbers are given in Table 2 along with the accession numbers and references for other CAL serogroup virus S RNA sequences that were retrieved from the GenBank sequence database. The GenBank accession numbers and references for Simbu and BUN serogroup S RNA sequences used in phylogenetic analyses are: Aino, M22011 (Akashi et al, 1984); BUN, D00379 (Elliott, 1989b): Germiston (GER), M19420 (Gerbaud et al, 1987); Maguari (MAG), D00380 (Elliott & McGregor, 1989); Batai (BAT), X73464; Cache Valley (CV), X73465; GRO, X73466; Kairi (KRI), X73467; Main Drain (MD), X73469 and Northway (NOR), X73470 (Dunn et al, 1994).…”
Section: Methodsmentioning
confidence: 99%
“…The 5h complementary and sense RNAs of AKA virus were similar in sequence for 25 residues with only a single nucleotide gap in the 5h end of the complementary sense RNA at position 17. Finally, 22 out of the 24 terminal nucleotides at the 3h end of the deduced AKA S sequence were complementary to the 5h end, showing greater terminal sequence similarity to other bunyaviruses (Akashi & Bishop, 1983 ;Bishop et al, 1982 ;Bowen et al, 1995 ;Dunn et al, 1994 ;Elliott, 1989 ;Elliott & McGregor, 1989 ;Gerbaud et al, 1987) than to Aino virus (Akashi et al, 1984).…”
mentioning
confidence: 99%
“…revealed that the 3h and 5h ends were similar in sequence for approximately 25 residues with one mismatch at position 9 and a single nucleotide addition at position 10 from the 5h end of genomic sense RNA (Akashi et al, 1984). Thus we synthesized two 5h end reverse primers, one a common bunyavirus type (AKSRS : 5h AGTAGTGTGCTCCAC) and the other an Aino type (AKSRL : 5h AGTAGTGTGGCTC-CAC).…”
mentioning
confidence: 99%
“…Nucleotide sequences are now available for the S RNA segments of six bunyaviruses which represent three serogroups in the Bunyavirus genus: Bunyamwera, Maguari (R. M. Elliott & A. McGregor, unpublished data) and Germiston (Gerbaud et al, 1987) viruses of the Bunyamwera serogroup, snowshoe hare and La Crosse (Akashi et al, 1983;Cabradilla et al, 1983) viruses of the California serogroup and Aino virus of Simbu serogroup (Akashi et al, 1984). The N proteins of these viruses are very similar in size, ranging from 233 to 235 amino acids; the NSs proteins are more variable in length, from 91 to 109 amino acids.…”
Section: Short Communicationmentioning
confidence: 99%