Influenza A (H3N2) outbreak, Nepal.In July 2004, an outbreak of influenza A influenza A n. Influenza caused by infection with a strain of influenza virus type A. influenza A Infectious disease An avian virus, especially of ducks–which in China live near the pig reservoir and 'vector'; (H3N2) was detected at 3 Bhutanese refugee Bhutanese refugees are a group of people Nepalese in origin some of whom had been living in Southern Bhutan and many of whom now live in refugee camps in Nepal. Much of the details are debated. So, are presented under two different sections. camps in southeastern Nepal. Hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. inhibition showed that ~40% of the viruses from this outbreak were antigenically distinct from the A/Wyoming/3/03 vaccine strain. Four amino acid amino acid (əmē`nō), any one of a class of simple organic compounds containing carbon, hydrogen, oxygen, nitrogen, and in certain cases sulfur. These compounds are the building blocks of proteins. differences were observed in most of the 26 isolates compared with the A/Wyoming/3/2003 vaccine strain. All 4 substitutions are located within or adjacent to known antibody-binding sites. Several isolates showed a lysine-to-asparagine substitution at position 145 (K145N) in the hemagglutinin hemagglutinin /he·mag·glu·ti·nin/ (-gloo´ti-nin) an antibody that causes agglutination of erythrocytes. cold hemagglutinin one which acts only at temperatures near 4° C. molecule, which may be noteworthy since position 145 is located within a glycosylation site and adjacent to an antibody-binding site. H3N2 viruses continue to drift from the vaccine strain and may remain as the dominant strains during the 2005-2006 influenza season. Thus, the 2005-2006 Northern Hemisphere vaccine strain was changed to A/California/7/2004, a virus with all 4 amino acid substitutions observed in these Nepalese isolates. ********** The 2003-2004 influenza season was severe in terms of its impact on illness because of widespread circulation of antigenically distinct influenza A (H3N2) Fujian-like viruses. These viruses first appeared late during the 2002-2003 influenza season and continued to persist as the dominant circulating strain throughout the subsequent 2003-2004 influenza season, replacing the A/Panama/2007/99-like H3N2 viruses (1). Of the 172 H3N2 viruses genetically characterized by the Department of Defense in 2003-2004, only 1 isolate (from Thailand) belonged to the A/Panama-like lineage. In February 2003, the World Health Organization (WHO) changed the H3N2 component for the 2004-2005 influenza vaccine influenza vaccine Flu vaccine A vaccine recommended for those at high risk for serious complications from influenza: > age 65; Pts with chronic diseases of heart, lung or kidneys, DM, immunosuppression, severe anemia, nursing home and other chronic-care to afford protection against the widespread emergence of Fujian-like viruses (2). The annually updated trivalent trivalent /tri·va·lent/ (tri-va´lent) having a valence of three. tri·va·lent adj. Having valence 3. tri·va vaccine consists of hemagglutinin (HA) surface glycoprotein glycoprotein (glī'kōprō`tēn), organic compound composed of both a protein and a carbohydrate joined together in covalent chemical linkage. components from influenza H3N2, H1N1, and B viruses. The HA1 segment of the influenza HA protein is the most rapidly evolving gene product (3) and plays a major role in viral attachment and evasion from the adaptive immune response immune response n. An integrated bodily response to an antigen, especially one mediated by lymphocytes and involving recognition of antigens by specific antibodies or previously sensitized lymphocytes. . Previous studies have demonstrated 5 antigenic sites on the HA1 polypeptide polypeptide: see peptide. where antibody binding can occur (4,5). Additionally, several studies have documented specific immunodominant codons corresponding to specific amino acids of the HA protein that are directly involved in the divergence of antigenically distinct influenza viruses (6-8). In July 2004, an outbreak of influenza A (H3N2) was detected in patients at 3 Bhutanese refugee camps in southeastern Nepal. To elucidate the molecular mechanism underlying the emergence of this H3N2 outbreak, we conducted a molecular analysis of the HA1 region of the HA protein. In this report, we describe the epidemiologic and molecular aspects of isolates obtained from this off-season influenza A (H3N2) outbreak. Materials and Methods Sample Collection and Antigenic Analysis Sixty-four patients in Nepal that met US Department of Defense enrollment criteria (9) for influenzalike illness were evaluated by using onsite rapid influenza tests (Optical Immunoassay Immunoassay An assay that quantifies antigen or antibody by immunochemical means. The antigen can be a relatively simple substance such as a drug, or a complex one such as a protein or a virus. Rapid Diagnostic Tests, Thermo Electron Thermo Electron Corporation (TMO (NYSE)) (incorporated 1956) is a major provider of analytical instruments and services for a variety of domains. Thermo has revenues of over $2 billion, and employs 11,000 people in 30 countries. Corp., San Jose San Jose, city, United States San Jose (sănəzā`, săn hōzā`), city (1990 pop. 782,248), seat of Santa Clara co., W central Calif.; founded 1777, inc. 1850. , CA, USA) according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the manufacturer's instructions. Throat swab specimens were collected within the first 72 hours of onset of symptoms, routed through the Armed Forces Research Institute for Medical Sciences in Bangkok, Thailand, and shipped on dry ice to Brooks City Base in San Antonio, Texas “San Antonio” redirects here. For other uses, see San Antonio (disambiguation). San Antonio is the second most populous city in Texas, the third most populous metropolitan area in Texas, and is the seventh most populous city in the United States. As of the 2006 U.S. , for clinical characterization and diagnosis using traditional culturing techniques and monoclonal antibody monoclonal antibody, an antibody that is mass produced in the laboratory from a single clone and that recognizes only one antigen. Monoclonal antibodies are typically made by fusing a normally short-lived, antibody-producing B cell (see immunity) to a fast-growing staining (10). Antigenic analysis of select isolates was performed at the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ) in Atlanta, Georgia, by using the hemagglutination inhibition (HI) assay and postinfection ferret antisera (11). Molecular Analysis RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic was extracted from 48-hour shell vial cultures (10) by using the MagnaPure LX (Roche Molecular, Mannheim, Germany) and RNA Isolation Kit II (Roche Molecular) according to the manufacturer's protocols. For reverse transcription-polymerase chain reaction (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) amplification, 5 [micro]L RNA was added to a 50-[micro]L master mixture containing 1 x reaction buffer, 1.6 mmol/L MgS[O.sub.4], 1 x enzyme mixture, and 400 nmol/L primers (H3-F7, 5'-ACT-ATC-ATT-GCT-TTG-AGC-3' and H3R-1184, 5'-ATG-GCT-GCT-TGA-GTG-CTT-3') by using the SuperScript Any letter, digit or symbol that appears above the line. For example, 10 to the 9th power is written with the 9 in superscript (109). Contrast with subscript. III One-Step RT-PCR System (Invitrogen, Carlsbad, CA, USA). PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) thermocycling consisted of an RT step at 50[degrees]C for 30 min, hot start activation at 95[degrees]C for 3 min, followed by 40 amplification cycles of 95[degrees]C for 30 s, 52[degrees]C for 15 s, and 68[degrees]C for 1 min, with a final extension cycle at 68[degrees]C for 7 min. All PCR products were visualized after electrophoresis in 2% precast pre·cast adj. Relating to or being a structural member, especially of concrete, that has been cast into form before being transported to its site of installation. gels stained with ethidium bromide Ethidium bromide (sometimes abbreviated as EtBr) is an intercalating agent commonly used as a nucleic acid stain in molecular biology laboratories for techniques such as agarose gel electrophoresis. (Invitrogen) under UV illumination. PCR products were purified by using the PCR Purification Kit (Qiagen Inc., Valencia, CA, USA). The HA1 amplicon (1177 bp) was sequenced by using the H3-F7 and H3R-1184 PCR primers (described above) and 2 additional internal oligonucleotides, H3R-466 (5'-GGT-GCA-ACC-AAT-TCA-ATC-3') and H3F-282 (5'-CAG-CAA-CTGTTA-CCC-3'). Unincorporated fluorescent nucleotides were removed by using a Dye Ex 96-well plate kit (Qiagen) according to the manufacturer's recommendations. Nucleotide sequencing was performed by using the Big Dye Terminator v3.1 Kit and analyzed by using an ABI Abi (ā`bī) [short for Abijah], in the Bible, King Hezekiah's mother. (Application Binary Interface) A specification for a specific hardware platform combined with the operating system. 3100 Genetic Analyzer (both from Applied Biosystems Applied Biosystems, Inc. (formerly NASDAQ: ABIO) is the original name of a pioneer biotechnology company founded in 1981 in Foster City, California, among the Silicon Valley cities of the southern San Francisco Bay Area. , Foster City, CA, USA) according to the manufacturer's specifications. Multiple sequence alignments, protein translation, and phylogenetic phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history. analysis were performed with the DNAStar (DNAStar Inc., Madison, WI, USA) software package. Three-dimensional HA protein structures were generated by using MOLMOL (12) and the Swiss-PDB Viewer programs (13). HA nucleotide sequences for all 26 Nepal isolates depicted in the phylogenetic analysis are available from GenBank under accession nos. AY945263 AY945288. Results Epidemiologic and Laboratory Assessment Clinical evaluations and throat specimens were obtained from 64 patients from 3 refugee camps in southeastern Nepal (Figure 1). Of the 64 patients, 61 were refugees from Bhutan, 1 was a foreign aid worker from Japan, and 2 were Nepalese nationals. Most of the patients were <10 years of age; 36 were male and 28 were female. None had previously been vaccinated against influenza and of the 64 specimens collected, 42 (66%) tested positive for influenza A by culture. [FIGURE 1 OMITTED] Antigenic Analysis HI was performed by using postinfection ferret antisera with reference antigens that included the 2004-2005 H3N2 vaccine seed strain (A/Wyoming/03/2003) and the 2005-2006 Southern Hemisphere H3N2 vaccine strain (A/Wellington/1/2004). When compared with A/ Wyoming/03/2003, 4 of 9 Nepal isolates showed 4-fold lower titers (1:320 versus 1:1,280 HI units) than that allowed for homologous homologous /ho·mol·o·gous/ (ho-mol´ah-gus) 1. corresponding in structure, position, origin, etc. 2. allogeneic. ho·mol·o·gous adj. 1. titer titer /ti·ter/ (ti´ter) the quantity of a substance required to react with or to correspond to a given amount of another substance. of the reference antisera. This indicated that these 4 isolates were antigenically distinct. Six of 9 Nepal isolates were antigenically distinct when compared with the A/Wellington/1/2004 strain and showed a 4-fold (1:160 versus 1:640) reduction in titer to ferret antisera (Table 1). Molecular Analysis RT-PCR-based molecular subtyping showed that all 42 specimens were the H3N2 influenza subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. . Twenty-six of the 42 influenza A positive samples were randomly selected for molecular characterization using direct nucleotide sequencing of the HA gene. The 26 Nepal isolates exhibited 99.8% nucleotide sequence identity and contained the Fujian-like amino acid substitutions at positions 155 (H155T) and 156 (Q156H) in the HA protein (Table 2). Alignment of the 329-amino acid HA protein from 26 isolates obtained from this outbreak with the 2004/05 A/Wyoming/3/03 vaccine strain and previous H3N2 vaccine strains indicated 4 evident amino acid changes present in most of the isolates (Table 2). All 4 amino acid changes observed within most of these outbreak isolates are present within A/California/7/04, a variant strain selected as the H3N2 vaccine strain for the 2005-2006 influenza season. Of the 26 Nepal strains examined, 24 exhibited a novel lysine-to-asparagine substitution at position 145 in the HA protein (K145N). This substitution is noteworthy because most strains characterized in 2003-2004, including the Fujian/411/2002 vaccine strain, contained a lysine lysine (lī`sēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. (K) at this position. Prior to this outbreak, the US Department of Defense had only observed K145N substitutions in 6 strains obtained from Ramstein, Germany, (data not shown) in June 2004. Additionally, all 26 Nepal sequences exhibited a serine-to-asparagine substitution at position 189 (S189N) that had also been observed in the 6 isolates from Germany, as well as in a few isolates from Asia characterized at the end of the 2003 2004 influenza season. Two other substitution mutations in the HA1 hemagglutinin, i.e., valine valine (văl`ēn), organic compound, one of the 22 α-amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. to isoleucine isoleucine (ī'səl  `sēn), organic compound, one of the 20 amino acids commonly found in animal proteins. at position 226 (V226I) and serine serine (sĕr`ēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. to proline proline (prō`lēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. at
position 227 (S227P), were also observed in 24 (92%) and 26 of 26 of the
Nepal isolates, respectively. Both substitutions differ from most
influenza A H3N2 field isolates collected in 2003 2004, including the
Fujian and Wyoming vaccine strain for 2004 2005 (Table 2).The phylogeny of H3N2 HA proteins indicates a drifting of the Nepal isolates from the A/Fujian/411/03 and A/Wyoming/03/03 vaccine strains and shows that these outbreak isolates have a higher genetic homology homology (hōmŏl`əjē), in biology, the correspondence between structures of different species that is attributable to their evolutionary descent from a common ancestor. to A/Wellington/1/04, a prototype strain selected as the 2005-2006 Southern Hemisphere H3 vaccine strain (Figure 2). The A/Wellington/1/04 strain contains 2 of the 4 amino acid changes (S227P and S 189N) observed in the Nepal isolates, but does not contain the K145N and V2261 substitutions. [FIGURE 2 OMITTED] Three-dimensional views of influenza HA proteins highlighting amino acid changes in a representative Nepal isolate and the A/Wyoming/3/03 vaccine strains are shown in Figure 3A and B, respectively. The mutation at position 145 (shown in yellow), which is located adjacent to antibody-binding site A and within a known glycosylation site, introduces an asparagine-for-lysine substitution. This substitution results in a more accessible receptor-binding cleft located directly above residue 145 (comparing panels A and B). Located above the receptor-binding pocket is a serine-to-asparagine change (shown in green) that possibly alters the regional surface topography at position 189 within antibody-binding site B. A serine-to-proline mutation at position 227 (shown in magenta) appears to marginally affect the HA surface features. This substitution resides within antibody-binding site D, which corresponds to residues 225-228, which make up the left side of the receptor-binding pocket (14). Interestingly, this proline residue is located within a [beta] barrel (a protein motif consisting of an antiparallel antiparallel /an·ti·par·al·lel/ (-par´ah-lel) denoting molecules arranged side by side but in opposite directions. [beta] sheet domain) and does not appreciably alter the predicted protein structure, as shown by the absence of any substantial changes in the computer-modeled, 3-dimensional structure compared with the HA1 of A/Wyoming/3/2003. [FIGURE 3 OMITTED] Discussion The 4 substitutions described represent a growing lineage of influenza A (H3N2) viruses characterized since July 2004. Three amino acid changes are confined within known antibody-binding sites, i.e., the S189N change within antibody-binding site B (4,5) and the V226I and S227P changes residing in antibody-binding site D (4,5). Because of rotational restrictions, a proline substitution at position 227 (S227P) would typically give rise to considerable conformation con·for·ma·tion n. One of the spatial arrangements of atoms in a molecule that can come about through free rotation of the atoms about a single chemical bond. change; however, this particular substitution is located within a [beta] barrel motif and therefore has little effect on regional protein conformation. Cumulatively, field isolates characterized subsequent to this outbreak continue to exhibit these 4 changes, and they appear to constitute a distinct branch in the phylogeny of HA sequences when compared with H3N2 isolates from the 2003-2004 season. The K145N mutation represents a change from a charged to uncharged amino acid R group. This change may affect protein-protein interactions since it is immediately adjacent to antibody-binding site A, where neutralizing antibodies have been shown to bind (4,5). Furthermore, since the K145N substitution is located within a glycosylation site, the charge alteration may affect glycosyl transferase transferase /trans·fer·ase/ (trans´fer-as) a class of enzymes that transfer a chemical group from one compound to another. trans·fer·ase n. activity, which results in altered glycosylation. Differences in glycosylation have been shown to contribute to antigenic variation Antigenic variation is the process by which an infectious organism alters its surface proteins in order to evade a host immune response. This change in antigenic profile may occur as the pathogen passes through a host population (also called "antigenic diversity") or may take place by preventing antibody binding to antigenic sites (15). Additionally, 3-dimensional analysis suggests this amino acid substitution may also promote enhanced receptor binding since the asparagine asparagine (əspâr`əjēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer participates in the biosynthesis of mammalian proteins. R group is shorter, which may make binding requirements less stringent and the receptor cleft more accessible. The 3-dimensional depiction provides a unique regional residue perspective, demonstrating how the rapidly evolving HA surface antigens in the vaccine strain differ at the molecular level. These changes are consistent with both antigenic and genetic data. Collectively, the clinical isolates obtained from this outbreak in Nepal cannot be considered antigenically distinct from the A/Wyoming/3/03 vaccine strain because only 4 of 9 isolates evaluated exhibited 4-fold lower titers by HI (Table 1). Furthermore, the varying reactivity noted in several isolates from this outbreak having identical HA1 sequences is suggestive that other viral antigens aside from the HA1 protein may have contributed to the antigenic variability observed in the HI panel. With the exception of A/Nepal/1670/2004 and A/Nepal/1672/2004, all isolates evaluated by HI (Table 1) exhibited identical HA1 amino acid sequences and varying antigenicity profiles to A/Wyoming/03/2003 reference antisera. One explanation for this observation is that genetic differences in other influenza surface proteins contribute to the observed immunoreactivity. Alternative viral surface protein candidates include the neuraminidase neuraminidase /neu·ra·min·i·dase/ (-ah-min´i-das) an enzyme of the surface coat of myxoviruses that destroys the neuraminic acid of the cell surface during attachment, thereby preventing hemagglutination. , HA2, and M2 glycoproteins, which have been shown to exhibit antigenic properties (16-19). In this report, we describe the genetic analysis of the HA proteins from viruses obtained from an early season outbreak and compare them to current vaccine strains. Three amino acids changes (S189N, I226V, and S227P) were noted in known (4,5) antibody-binding sites (Table 2). The fourth change (K145N), which was located within a glycosylation site, may enhance viral binding since the smaller asparagine R group is located close to the HA receptor-binding cleft (Figure 3). Phylogenetic analyses show that the Nepal isolates make up a distinct branch in the evolution of H3N2 viruses when they are compared with vaccine and reference strains (Figure 2). However, antigenic data appear more ambiguous, suggesting a multi-genic effect that cannot solely be attributed to properties of the influenza HA (Table 1). Studies are in progress to characterize the neuraminidase, M2, and HA2 proteins to determine the molecular basis responsible for antigenicity differences observed within isolates from this outbreak. The K145N substitution change has become a marker for an increasingly large subset of the Fujian-like viruses. CDC and the US Department of Defense have recently characterized viruses with the KI45N change in Singapore, Taiwan, China, Australia, Canada, and the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. . In February 2005, WHO reported the emergence of a new influenza H3N2 strain in the United States. The A/California/7/2004 strain, which was first identified in the United States in September 2004, contains all 4 changes observed in isolates from this Nepalese outbreak. The A/California/7/2004 strain differs by only 1 amino acid in HA1 (which is of no immunologic importance) from most isolates from the outbreak in Nepal. All viruses characterized ([approximately equal to] 150 globally isolated strains) subsequent to the preparation of this report (March 2005) by the US Department of Defense are genetically similar in amino acid sequence to these Nepalese strains (and the A/California strain). Most of the isolates (80%) analyzed by CDC since October 2004 are antigenically related to A/California (20), which indicates that this strain has emerged as the dominant influenza A H3N2 strain. These data indicate that these viruses may persist as the dominant strain at the onset of the 2005-2006 influenza season. In February 2005, WHO recommended inclusion of an A/California/7/2004-like strain in the 2005-2006 trivalent influenza vaccine to afford immunologic protection from this variant H3N2 virus. Our findings emphasize the importance of continued molecular surveillance for characterizing emerging influenza drift variants.
Table 1. Hemagglutination inhibition (HI) reciprocal titers of
influenza A (H3N2) viruses with ferret antisera *
Reference ferret antisera
Strain designation PAN/2007 KO/770 WY/03 TX/40
Reference antigens
A/Panama/2007/99 2,560 160 640 320
A/Korea/770/2002 ([dagger]) 80 640 1,280 640
A/WyomingG/03/2003 640 320 1,280 1,280
A/Texas/40/2003 640 1,280 1,280 2,560
A/Oklahoma/8/2004 160 1,280 1,280 2,560
A/Wellington/1/2004 160 320 320 640
Test antigens
A/Nepal/1679/04 40 160 1,280 640
A/Nepal/1685/04 40 320 1,280 640
A/Nepal/1670/04 10 160 1,280 320
A/Nepal/1659/04 10 320 640 320
A/Nepal/1660/04 10 160 640 320
A/Nepal/1680/04 20 320 320 320
A/Nepal/1672/04 10 160 320 160
A/Nepal/1678/04 40 160 320 160
A/Nepal/1694/04 10 160 320 160
Reference ferret antisera
Date
Strain designation OK/8 WEL/01 collected
Reference antigens
A/Panama/2007/99 640 160 7/12/99
A/Korea/770/2002 ([dagger]) 640 320 12/2/02
A/WyomingG/03/2003 1,280 320 2/13/03
A/Texas/40/2003 1,280 640 10/2/03
A/Oklahoma/8/2004 1,280 640 12/8/03
A/Wellington/1/2004 320 640 1/26/04
Test antigens
A/Nepal/1679/04 2,560 320 7/2/04
A/Nepal/1685/04 2,560 320 7/2/04
A/Nepal/1670/04 1,280 320 7/2/04
A/Nepal/1659/04 1,280 160 7/2/04
A/Nepal/1660/04 2,560 160 7/2/04
A/Nepal/1680/04 1,280 160 7/2/04
A/Nepal/1672/04 1,280 160 7/2/04
A/Nepal/1678/04 1,280 160 7/2/04
A/Nepal/1694/04 2,560 160 7/3/04
* Test antigens are considered antigenically different from
the reference strain if HI titers show a 4-fold difference.
([dagger]) A/Korea/770/2002 is antigenically equivalent to
the A/Fujian/411/02 vaccine strain.
Table 2. Unique hemagglutinin amino acid substitutions from
influenza virus isolates obtained during July 2004 influenza
outbreak in southeast Nepal compared with 5 vaccine strains *
Amino acid position
145 155
Glycosylation Fujian-like lineage
site adjacent to amino acid
Virus strain antibody site A substitution
A/Nepal Consensus/04
([dagger]) N T
A/Fujian/411/02 K T
A/Wyoming/3/03 K T
A/Wellington/1/04 K T
A/California/7/04 N T
A/Panama/2007/99 K H
Amino acid position
156
Fujian-like
lineage 189 226 227
amino acid Antibody Antibody Antibody
Virus strain substitution site B site D site D
A/Nepal Consensus/04
([dagger]) H N I P
A/Fujian/411/02 H S V S
A/Wyoming/3/03 H S I S
A/Wellington/1/04 H N V P
A/California/7/04 H N I P
A/Panama/2007/99 Q S V S
* N, asparagine; T, threonine; H, histidine; I, isoleucine; P,
proline; K, lysine; S, serine; V, valine; Q, glutamine.
([dagger]) Consensus sequence derived from a multiple sequence
protein alignment of 26 HA1 hemagglutinin sequences from Nepal.
Acknowledgments We thank Bishnu K. Shrestha, Subash Malla Thakuri, and Atma K. Ranjit for help in collecting throat swab specimens and performing preliminary optical immunoassay rapid diagnostic tests. We acknowledge Joel Gaydos and the Global Emerging Infections System for funding the Department of Defense influenza strain surveillance program at the Center for Excellence in Biotechnology and Bioprocessing Education and Research, Brooks City Base, San Antonio, Texas. References (1.) CDC influenza weekly report: influenza summary update, questions and answers, the 2003-2004 influenza season. [cited 19 May 2005]. Available from http: www.cdc.gov/flu/about/qa/fluseason.htm (2.) Harper SA, Fukuda K, Uyeki TM, Cox NJ, Bridges CB. 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The structure and role of the carbohydrate moieties of influenza virus hemagglutinin. Biochem Soc Trans. 1983;11:145-7. (16.) Hughey PG, Roberts PC, Holsinger LJ, Zebedee SL, Lamb RA, Compans RW. Effects of antibody to the influenza A virus M2 protein on M2 surface expression and virus assembly. Virology. 1995;212:411-21. (17.) Zebedee SL, Lamb RA. Influenza A virus M2 protein: monoclonal antibody restriction of virus growth and detection of M2 in virions. J Virol. 1988:62:2762-72. (18.) Webster RG, Brown LIE, Laver WG Antigenic and biological characterization of influenza virus neuraminidase (N2) with monoclonal antibodies This is a list of monoclonal antibodies, antibodies which are clones of a single parent cell. When used as medications, the generic names end in -mab (see "Nomenclature of monoclonal antibodies"). . Virology. 1984;135:30-42. (19.) Okuno Y, Isegawa Y, Sasao F, Ueda S. A common neutralizing epitope epitope: see immunity. conserved between the hemagglutinins of influenza A virus H1 and H2 strains. J Virol. 1993;67:2552-8. (20.) CDC weekly report: influenza summary update (week ending April 16, 2005). [cited 19 May 2005]. Available from http://www. cdc.gov/flu/weekly/ Luke T. Daum, * ([dagger]) Michael W. Shaw, ([double dagger]) Alexander I. Klimov, ([double dagger]) Linda C. Canas, * Elizabeth A. Macias, Debra Niemeyer, * James P. Chambers, ([dagger]) Robert Renthal, ([dagger]) Sanjaya K. Shrestha, ([section]) Ramesh P. Acharya For the pen name of D. Murdock, see . An acharya is an important religious teacher. The word has different meanings in Hinduism and Jainism. In Hinduism In the Hindu religion, an acharya (आचार्य) is a Divine personality , ([paragraph]) Shankar P. Huzdar, ([paragraph]) Nirmal Rimal, ([paragraph]) Khin S. Myint, (#) and Philip Gould * * Air Force Institute for Operational Health, Brooks City Base, San Antonio, Texas; ([dagger]) University of Texas, San Antonio, Texas; ([double dagger]) Centers for Disease Control and Prevention, Atlanta, Georgia; ([section]) Walter Reed/Armed Forces Research Institute of Medical Sciences Research Unit-Nepal, Kathmandu, Nepal; ([paragraph]) Association of Medical Doctors of Asia-Nepal, Kathmandu, Nepal; and (#) US Army Medical Component of the Armed Forces Research Institute of Medical Sciences, Bangkok, Thailand Dr. Daum is a molecular biologist at the Air Force Institute for Operational Health, Brooks City Base, Texas, and a PhD candidate at the University of Texas at San Antonio The main campus is situated on 600 acres (2.4 km²,) at the intersection of Interstate 10 and Loop 1604 near the northern edge of San Antonio, Texas in Bexar County. The university is also one of the UT System's fastest growing schools, maintaining a 12. . His research interests include viral evolution, influenza strain surveillance, and the development of field-deployable real-time PCR assays for pathogen detection. Address for correspondence: Luke T. Daum, Air Force Institute for Operational Health, Building 175 West, Brooks City Base, San Antonio, TX, 78235, USA; fax: 210-536-2638, email: Luke.Daum@brooks.af.mil. |
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