Revising a Personal Genome by Comparing and Combining Data from Two Different Sequencing Platforms

Kim, Deokhoon; Kim, Woo-Yeon; Lee, Sun-Young; Lee, Sung-Yeoun; Yun, Hongseok; Shin, Soo-Yong; Lee, Jungyoun; Hong, Young Ki; Won, Youngmi; Kim, Seong‐Jin; Lee, Yong Seok; Ahn, Sung‐Min

doi:10.1371/journal.pone.0060585

Cited by 4 publications

(2 citation statements)

References 36 publications

(28 reference statements)

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“…Progeny viruses in culture supernatants of infected SAE cells and CEFs at 96 h postinfection were amplified by RT-PCR using HA-specific primers, and 30 clones per trial were analyzed by Sanger sequencing. In this study, we utilized Sanger sequencing rather than next-generation sequencing (NGS) because although NGS is a powerful tool for studying nucleotide variation in biological samples, occasional biases introduced during preparation steps (e.g., high-magnitude amplification and fragmentation) could result in uneven coverage and possible false interpretation of data (31)(32)(33)(34)(35). Therefore, our study was designed to investigate HA diversity present in Ͼ3.3% (1/30) of the progeny virus populations produced by single-virus infections (Fig.…”

Section: Resultsmentioning

confidence: 99%

Characterization of H5N1 Influenza Virus Quasispecies with Adaptive Hemagglutinin Mutations from Single-Virus Infections of Human Airway Cells

Watanabe

Arai

Kawashita

et al. 2018

J Virol

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Transmission of avian influenza (AI) viruses to mammals involves phylogenetic bottlenecks that select small numbers of variants for transmission to new host species. However, little is known about the AI virus quasispecies diversity that produces variants for virus adaptation to humans. Here, we analyzed the hemagglutinin (HA) genetic diversity produced during AI H5N1 single-virus infection of primary human airway cells and characterized the phenotypes of these variants. During single-virus infection, HA variants emerged with increased fitness to infect human cells. These variants generally had decreased HA thermostability, an indicator of decreased transmissibility, that appeared to compensate for their increase in α2,6-linked sialic acid (α2,6 Sia) binding specificity and/or in the membrane fusion pH threshold, each of which is an advantageous mutational change for viral infection of human airway epithelia. An HA variant with increased HA thermostability also emerged but could not outcompete variants with less HA thermostability. These results provided data on HA quasispecies diversity in human airway cells. The diversity of the influenza virus quasispecies that emerges from a single infection is the starting point for viral adaptation to new hosts. A few studies have investigated AI virus quasispecies diversity during human adaptation using clinical samples. However, those studies could be appreciably affected by individual variability and multifactorial respiratory factors, which complicate identification of quasispecies diversity produced by selective pressure for increased adaptation to infect human airway cells. Here, we found that detectable HA genetic diversity was produced by H5N1 single-virus infection of human airway cells. Most of the HA variants had increased fitness to infect human airway cells but incurred a fitness cost of less HA stability. To our knowledge, this is the first report to characterize the adaptive changes of AI virus quasispecies produced by infection of human airway cells. These results provide a better perspective on AI virus adaptation to infect humans.

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Section: Resultsmentioning

confidence: 99%

Characterization of H5N1 Influenza Virus Quasispecies with Adaptive Hemagglutinin Mutations from Single-Virus Infections of Human Airway Cells

Watanabe

Arai

Kawashita

et al. 2018

J Virol

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“…SNPs typically occur throughout one’s DNA. They occur once in every 300 nucleotides on average, which translates to approximately 10 million SNPs in the entire human genome [8]. Usually, these variations can be located in the DNA between genes.…”

Section: Introductionmentioning

confidence: 99%

Customized DNA–directed precision nutrition to balance the brain reward circuitry and reduce addictive behaviors

Blum¹,

Febo²,

Braverman³

et al. 2018

Precision Medicine in Cancers and Non-Communicable Diseases

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DNA Customization of nutraceutical products is here. In the truest sense, “Gene Guided Precision Nutrition™” and KB220 variants (a complex mixture of amino–acids, trace metals, and herbals) are the pioneers and standard-bearers for a state of the art DNA customization. Findings by both, Kenneth Blum, Ph.D. and Ernest Noble, Ph.D. concerning the role of genes in shaping cravings and pleasure- seeking, opened the doors to comprehension of how genetics control our actions and effect our mental and physical health. Moreover, technology that is related to KB220 variants in order to reduce or eradicate excessive cravings by influencing gene expression is a cornerstone in the pioneering of the practical applications of nutrigenomics. Continuing discoveries have been an important catalyst for the evolution, expansion, and scientific recognition of the significance of nutrigenomics and its remarkable contributions to human health. Neuro-Nutrigenomics is now a very important field of scientific investigation that offers great promise to improving the human condition. In the forefront is the development of the Genetic Addiction Risk Score (GARS™), which unlike 23andMe, has predictive value for the severity of drug and alcohol abuse as well as other non-substance related addictive behaviors. While customization of neuronutrients has not yet been commercialized, there is emerging evidence that in the future, the concept will be developed and could have a significant impact in addiction medicine.

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Controversy and debate on clinical genomics sequencing—paper 1: genomics is not exceptional: rigorous evaluations are necessary for clinical applications of genomic sequencing

Wilson

Miller

Rousseau

2017

Journal of Clinical Epidemiology

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Revising a Personal Genome by Comparing and Combining Data from Two Different Sequencing Platforms

Cited by 4 publications

References 36 publications

Characterization of H5N1 Influenza Virus Quasispecies with Adaptive Hemagglutinin Mutations from Single-Virus Infections of Human Airway Cells

Characterization of H5N1 Influenza Virus Quasispecies with Adaptive Hemagglutinin Mutations from Single-Virus Infections of Human Airway Cells

Customized DNA–directed precision nutrition to balance the brain reward circuitry and reduce addictive behaviors

Controversy and debate on clinical genomics sequencing—paper 1: genomics is not exceptional: rigorous evaluations are necessary for clinical applications of genomic sequencing

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