|1.||Suzuki, Yasuo: 3 articles (01/2011 - 02/2006)|
|2.||Kawaoka, Yoshihiro: 2 articles (09/2012 - 02/2006)|
|3.||White, Gavin A: 2 articles (01/2010 - 01/2009)|
|4.||Kuchipudi, Suresh V: 2 articles (01/2010 - 01/2009)|
|5.||Zhang, Qingzhan: 1 article (06/2015)|
|6.||Yoo, Dongwan: 1 article (06/2015)|
|7.||Tong, Shuang: 1 article (12/2013)|
|8.||Yu, Meng: 1 article (12/2013)|
|9.||Ning, Zhangyong: 1 article (12/2013)|
|10.||Zhou, Fei: 1 article (12/2013)|
10/01/2005 - "The rapid progress in molecular biologic techniques also helped resolve many virologic puzzles and yielded highly valuable data hitherto unavailable, such as characterization of virus receptors, the genetic basis of vertebrate resistance to viral infection, and phylogenetic evidence of the history of host range shifts in arboviruses. "
11/01/2013 - "Decrease of virus receptors during highly pathogenic H5N1 virus infection in humans and other mammals."
01/01/2013 - "Such APC-to-T cell trans infection first involves a complex set of virus subtype, attachment, entry, and replication patterns that have many similarities among APC, as well as distinct differences related to virus receptors, intracellular trafficking, and productive and nonproductive replication pathways. "
01/01/2013 - "Differential expression of candidate virus receptors in human T lymphocytes prone or resistant to infection with patient-derived hepatitis C virus."
11/09/2012 - "Insight into how virus receptors are organized prior to virus binding and how they assemble into functional platforms for virus docking is helpful to develop novel strategies to prevent virus entry and infection."
07/05/2003 - "Downregulation of virus receptors on the cell surface is considered to be important in preventing superinfection. "
08/01/1999 - "The resistance of cured cells to superinfection with picornaviruses seemed attributable neither to interferon action nor to destruction or blockade of virus receptors but more likely to the consumption of some host factor(s) involved in the expression of early viral functions during the original infection."
|3.||Human Influenza (Influenza)
12/01/2010 - "This study aims to investigate the anatomical distribution of avian and human influenza virus receptors using the double staining lectin histochemistry method. "
01/01/2011 - "Avian and human influenza virus receptors and their distribution."
12/01/2010 - "We have demonstrated that avian and human influenza virus receptors were abundantly present in trachea, bronchus and bronchiole, but in alveoli of dogs, cats and tigers showed SA alpha2,6 Gal only. "
12/01/2010 - "Avian and human influenza A virus receptors in trachea and lung of animals."
05/01/2008 - "We also review the various molecular determinants of increased pathogenicity that have been identified in recent years and the role of avian and human influenza virus receptors in relation to the transmissibility of the H5N1 virus. "
|4.||Influenza in Birds (Avian Flu)
01/01/2013 - "Specifically, we chemically synthesized human and avian influenza virus receptors analogues, N-acetylneuraminic acid-2,6-lactose and N-acetylneuraminic acid-2,3-lactose derivatives with an azidopropyl aglycon, using α-2,6- and α-2,3-sialyltransferases, respectively. "
08/01/2005 - "Cells in the respiratory and intestinal tracts of chickens have different proportions of both human and avian influenza virus receptors."
09/01/2013 - "In the mouse brain, human influenza virus receptors (HuIV-R) were expressed in part of brainstem and cerebellar white matter while avian influenza virus receptors (AIV-R) were expressed in the cerebellar Purkinje neurons. "
02/01/2006 - "Thus, cultured NHBE cells showed both alpha2-3-linked Sias recognized by hPIV-1 and avian influenza virus receptors, and alpha2-6-linked Sias recognized by human influenza virus receptors."
12/01/2013 - "In chicken, ST3 beta-galactoside alpha-2, 3-sialyltransferase III (ST3GAL III) is one of the key enzymes participating in the biosynthesis of avian influenza virus receptors. "
12/01/2004 - "Protein transduction domains fused to virus receptors improve cellular virus uptake and enhance oncolysis by tumor-specific replicating vectors."
03/01/1994 - "These differences may reflect the presence of different virus receptors in cancer cells with different morphologic potential, or, they may indicate that the specific HPV infection actually plays a direct role in the process of carcinogenesis."
01/01/1987 - "We have proposed that such virus receptors on lymphoid tumors are the antigen-specific receptors present on their normal lymphocyte counterparts. "
03/01/2010 - "They serve as virus receptors (poliovirus and herpes simplex virus), they are involved in orofacial malformation (CLPED1) and recently they have been described as markers, actors and potential therapeutics targets in cancer. "
|4.||Membrane Proteins (Integral Membrane Proteins)
|5.||Membrane Glycoproteins (Membrane Glycoprotein)
|7.||Hepatitis B e Antigens
|9.||N-Acetylneuraminic Acid (Sialic Acid)
|10.||Stem Cell Factor