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1. Sialic Acid Binding Activity of Transmissible Gastroenteritis Coronavirus Affects Sedimentation Behavior of Virions and Solubilized Glycoproteins

2. Characterization of the sialic acid binding activity of transmissible gastroenteritis coronavirus by analysis of haemagglutination-deficient mutants

3. Importance of the Carboxyl-terminal FTSL Motif of Membrane Cofactor Protein for Basolateral Sorting and Endocytosis

4. Membrane Cofactor Protein (CD46) Is a Basolateral Protein That Is Not Endocytosed

5. Transfer of an Esterase-Resistant Receptor Analog to the Surface of Influenza C Virions Results in Reduced Infectivity Due to Aggregate Formation

6. The catalytic triad of the influenza C virus glycoprotein HEF esterase: characterization by site-directed mutagenesis and functional analysis

7. A synthetic sialic acid analogue is recognized by influenza C virus as a receptor determinant but is resistant to the receptor-destroying enzyme

8. A single point mutation of the influenza C virus glycoprotein (HEF) changes the viral receptor-binding activity

9. The S protein of bovine coronavirus is a hemagglutinin recognizing 9-O-acetylated sialic acid as a receptor determinant

10. Isolated HE-protein from hemagglutinating encephalomyelitis virus and bovine coronavirus has receptor-destroying and receptor-binding activity

11. Hemagglutinating encephalomyelitis virus attaches to N-acetyl-9-O-acetylneuraminic acid-containing receptors on erythrocytes: comparison with bovine coronavirus and influenza C virus

12. A sialic acid analogue acting as a receptor determinant for binding but not for infection by influenza C virus

13. Proteolytic activation of respiratory syncytial virus fusion protein. Cleavage at two furin consensus sequences

14. Neuraminidase treatment of avian infectious bronchitis coronavirus reveals a hemagglutinating activity that is dependent on sialic acid-containing receptors on erythrocytes

15. Importance of the carboxyl-terminal FTSL motif of membrane cofactor protein for basolateral sorting and endocytosis. Positive and negative modulation by signals inside and outside the cytoplasmic tail

16. Polarized budding of measles virus is not determined by viral surface glycoproteins

17. Molecular characterization of gp40, a mucin-type glycoprotein from the apical plasma membrane of Madin-Darby canine kidney cells (type I)

18. Membrane cofactor protein (CD46) is a basolateral protein that is not endocytosed. Importance of the tetrapeptide FTSL at the carboxyl terminus

19. Point mutations in the S protein connect the sialic acid binding activity with the enteropathogenicity of transmissible gastroenteritis coronavirus

20. Two different cytoplasmic tails direct isoforms of the membrane cofactor protein (CD46) to the basolateral surface of Madin-Darby canine kidney cells

21. Structural and functional analysis of the S proteins of two human coronavirus OC43 strains adapted to growth in different cells

22. Membrane cofactor protein with different types of N-glycans can serve as measles virus receptor

23. Analysis of the Sialic Acid-Binding Activity of Transmissible Gastroenteritis Virus

24. Analysis of Cellular Receptors for Human Coronavirus OC43

25. Polarized Entry of Bovine Coronavirus in Epithelial Cells

26. Binding of measles virus to membrane cofactor protein (CD46): importance of disulfide bonds and N-glycans for the receptor function

27. Recognition of N-acetyl-9-O-Acetylneuraminic Acid by Bovine Coronavirus and Hemagglutinating Encephalomyelitis Virus

28. Recognition of cellular receptors by bovine coronavirus

29. Structural and functional analysis of the surface protein of human coronavirus OC43

30. Monoclonal antibodies differentiate between the haemagglutinating and the receptor-destroying activities of bovine coronavirus

31. Differential Reactivity of Bovine Coronavirus (BCV) and Influenza C Virus with N-Acetyl-9-O-Acetylneuraminic Acid (NEU5,9AC2)-Containing Receptors

32. Influenza C virus uses 9-O-acetyl-N-acetylneuraminic acid as a high affinity receptor determinant for attachment to cells

33. The receptor-destroying enzyme of influenza C virus is neuraminate-O-acetylesterase

34. Influenza C virus uses 9-O-acetyl-N-acetylneuraminic acid as a high affinity receptor determinant for attachment to cells

35. [The nature of the influenza C virus receptor and the specificity of the receptor-destroying enzyme]

36. The glycoprotein of influenza C virus is the haemagglutinin, esterase and fusion factor

37. Transmissible gastroenteritis coronavirus, but not the related porcine respiratory coronavirus, has a sialic acid (N-Glycolylneuraminic acid) binding activity

38. Different populations of A(H1N1)pdm09 viruses in a patient with hemolytic-uremic syndrome.

39. Infection of porcine enteroids and 2D differentiated intestinal epithelial cells with rotavirus A to study cell tropism and polarized immune response.

40. Canine Distemper Virus Alters Defense Responses in an Ex Vivo Model of Pulmonary Infection.

41. Infection Studies with Airway Organoids from Carollia perspicillata Indicate That the Respiratory Epithelium Is Not a Barrier for Interspecies Transmission of Influenza Viruses.

42. Phenotypic and Transcriptional Changes of Pulmonary Immune Responses in Dogs Following Canine Distemper Virus Infection.

43. Overcoming the Barrier of the Respiratory Epithelium during Canine Distemper Virus Infection.

44. Time-dependent viral interference between influenza virus and coronavirus in the infection of differentiated porcine airway epithelial cells.

45. Infection of polarized bovine respiratory epithelial cells by bovine viral diarrhea virus (BVDV).

46. Infection of bovine well-differentiated airway epithelial cells by Pasteurella multocida: actions and counteractions in the bacteria-host interactions.

47. The Cell Tropism of Porcine Respiratory Coronavirus for Airway Epithelial Cells Is Determined by the Expression of Porcine Aminopeptidase N.

48. Surveillance of European Domestic Pig Populations Identifies an Emerging Reservoir of Potentially Zoonotic Swine Influenza A Viruses.

49. Avian Influenza A Virus Infects Swine Airway Epithelial Cells without Prior Adaptation.

50. SARS-CoV-2 Cell Entry Depends on ACE2 and TMPRSS2 and Is Blocked by a Clinically Proven Protease Inhibitor.

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