Your search keyword '"Jeffery Tjaden"' showing total 4 results

1. Aggregation of Single Nucleotide Polymorphisms in a Human H5N1 Clade 2.2 Hemagglutinin

Author

Kenneth C. Earhart, Abdelattar Arafa, Ehab Ayoub, Ahmed S. Abdelghani, Magdi D. Saad, Marshall R. Monteville, Moustafa M. Mansour, Bruce Boynton, William Ampofo, Henry Niman, Gregory Raczniak, Ahmed Nayel, Jeffery Tjaden, Nasr El-Sayed, Mensah Agyen-Frempong, Hala Esmat, Emad Labib, and Mona M. Aly

Subjects

Genetics, Evolutionary Biology, Ecology, Bioinformatics, Immunology, virus diseases, Hemagglutinin (influenza), Single-nucleotide polymorphism, Biology, Genetics & Genomics, medicine.disease_cause, Microbiology, Genome, Influenza A virus subtype H5N1, Genetic drift, Polymorphism (computer science), medicine, biology.protein, General Materials Science, Clade, Gene, Biotechnology

Abstract

The evolution of H5N1 has attracted significant interest 1-4 due to linkages with avian 5,6 and human infections 7,8. The basic tenets of influenza genetics 9 attribute genetic drift to replication errors caused by a polymerase complex that lacks a proof reading function. However, recent analysis 10 of swine influenza genes identifies regions copied with absolute fidelity for more than 25 years. In addition, polymorphism tracing of clade 2.2 H5N1 single nucleotide polymorphisms identify concurrent acquisition 11 of the same polymorphism onto multiple genetic backgrounds in widely dispersed geographical locations. Here we show the aggregation of regional clade 2.2 polymorphisms from Germany, Egypt, and sub-Sahara Africa onto a human Nigerian H5N1 hemagglutinin (HA), implicating recombination in the dispersal and aggregation of single nucleotide polymorphisms from closely related genomes.

Published

2007

2. Concurrent Acquisition of a Single Nucleotide Polymorphism in Diverse Influenza H5N1 Clade 2.2 Sub-clades

Author

Henry Niman, Magdi Saad, Mona Aly, Jeffery Tjaden, Kenneth Earhart, Marshall Monteville, Moustafa Mansour, Nasr El-Sayed, Ahmed Nayel, Ahmed Abdelghani, Hala Esmat, Emad Labib, Ehab Ayoub, Abdelattar Arafa, Gregory Raczniak, Mensah Agyen-Frempong, William Ampofo, and Bruce Boynton

Subjects

General Materials Science

Abstract

Highly pathogenic Influenza A H5N1 was first identified in Guangdong Province in 1996, followed by human cases in Hong Kong in 1997. The number of confirmed human cases now exceeds 300, and the associated Case Fatality Rate exceeds 60%. The genetic diversity of the serotype continues to increase. Four distinct clades or sub-clades have been linked to human cases. The gradual genetic changes identified in the sub-clades have been attributed to copy errors by viral encoded polymerases that lack an editing function, thereby resulting in antigenic drift. We report here the concurrent acquisition of the same polymorphism by multiple, genetically distinct, clade 2.2 sub-clades in Egypt, Russia, and Ghana. These changes are not easily explained by the current theory of “random mutation” through copy error, and are more easily explained by recombination with a common source. This conclusion is supported by additional polymorphisms shared by clade 2.2 isolates in Egypt and Germany.

Published

2007

3. Concurrent Acquisition of a Single Nucleotide Polymorphism in Diverse Influenza H5N1 Clade 2.2 Sub-clades

Author

Henry L. Niman, Magdi D. Saad, Mona M. Aly, Jeffery Tjaden, Kenneth C. Earhart, Marshall R. Monteville, Moustafa M. Mansour, Nasr El-Sayed, Ahmed E. Nayel, Ahmed S. Abdelghani, Hala M. Esmat, Emad M. Labib, Ehab A. Ayoub, Abdelattar Arafa, Gregory A. Raczniak, Mensah Agyen-Frempong, William K. Ampofo, and Bruce R. Boynton

Subjects

Chemistry, Ecology, Bioinformatics, Immunology, Genetics & Genomics, Microbiology, Biotechnology

Abstract

Highly pathogenic Influenza A H5N1 was first identified in Guangdong Province in 1996, followed by human cases in Hong Kong in 1997. The number of confirmed human cases now exceeds 300, and the associated Case Fatality Rate exceeds 60%. The genetic diversity of the serotype continues to increase. Four distinct clades or sub-clades have been linked to human cases. The gradual genetic changes identified in the sub-clades have been attributed to copy errors by viral encoded polymerases that lack an editing function, thereby resulting in antigenic drift. We report here the concurrent acquisition of the same polymorphism by multiple, genetically distinct, clade 2.2 sub-clades in Egypt, Russia, and Ghana. These changes are not easily explained by the current theory of “random mutation” through copy error, and are more easily explained by recombination with a common source. This conclusion is supported by additional polymorphisms shared by clade 2.2 isolates in Egypt and Germany.

Published

2007

4. H5N1 Clade 2.2 Polymorphism Tracing Identifies Influenza Recombination and Potential Vaccine Targets

Author

Henry Niman, Magdi Saad, Bruce Boynton, Jeffery Tjaden, Kenneth Earhart, Moustafa Mansour, Nasr ElSayed, A Nayei, A Abdelghani, Hala Essmat, Elassai Labib, E Ayoub, Mona Aly, A-SA Arafa, and Marshall Monteville

Subjects

Serotype, Genetics, Genetic diversity, Ecology, biology, Bioinformatics, Hemagglutinin (influenza), Ocean Engineering, Genetics & Genomics, medicine.disease_cause, Microbiology, Influenza A virus subtype H5N1, Antigenic drift, Polymorphism (computer science), medicine, biology.protein, General Materials Science, Clade, Gene, Biotechnology

Abstract

Highly pathogenic Influenza A H5N1 was first identified in Guangdong Province in 1996, followed by human cases in Hong Kong in 1997 1. The number of confirmed human cases now exceeds 300 and the associated Case Fatality Rate exceeds 60% 2. The genetic diversity of the serotype continues to increase. Four distinct clades or sub-clades have been linked to human cases 3.4. The gradual genetic changes identified in the sub-clades have been attributed to copy errors by viral encoded polymerases that lack an editing function, thereby resulting in antigenic drift 5. We traced polymorphism acquisition in Clade 2.2 sequences. We report here the concurrent acquisition of the same polymorphism by multiple, genetically distinct, Clade 2.2 sub-clades in Egypt, Russia and Ghana. These changes are not easily explained by the current theory of “random mutation” through copy error, and are more easily explained by recombination with a common source. This conclusion is supported by additional polymorphisms shared by Clade 2.2 isolates in Egypt, Nigeria and Germany including aggregation of regional polymorphisms from each of these areas into a single Nigerian human hemagglutinin gene.

Published

2007