The kinetics of cellular mRNA decay in influenza virus-infected cells have been studied by means of blot hybridization using as probes cloned cDNAs of alpha- and beta-actin, alpha- and beta-tubulin and vimentin.
Production of DR3 molecules having the conformation-dependent 16.23 epitope and efficient DR1-restricted presentation of influenza viral epitopes occurred in a B cell line that has a mutation specifically eliminating expression of the TAP1 transporter gene, which is in the approximately 230 kb interval and is needed for production of HLA class I/peptide complexes.
Direct polymerase chain reaction (PCR) amplifications of cDNA and subsequent nucleotide sequence analysis of part of the HA-1 gene of the original infecting influenza B strain and the nasal wash material from an infected volunteer were performed.
The evolutionary relationships of the variable portion of the haemagglutinin (HA1) genes of these viruses were determined by comparison with influenza B HA1 sequences previously obtained.
We found that loss of expression of HMW-1 by the prototypic strain and a HMW-1-like protein in a heterologous nontypable H. influenzae strain markedly decreased the capacity to adhere.
Consistent with this observation, hemagglutination inhibition studies performed with a series of glycoconjugates indicated that BPF pili and H. influenzae type b pili possess the same erythrocyte receptor specificity.
Three propositi and six additional family members with properdin deficiency have been found following analysis of the hemolytic activity of the classical (CH50) and the alternative (AP50) complement pathways in the sera of 101 survivors of meningococcal infections and 59 survivors of severe pneumococcal and Haemophilus influenza infections.
Direct polymerase chain reaction (PCR) amplifications of cDNA and subsequent nucleotide sequence analysis of part of the HA-1 gene of the original infecting influenza B strain and the nasal wash material from an infected volunteer were performed.
Moreover, the sequence had a high degree of similarity to the peptidoglycan-associated outer membrane lipoprotein P6 of Haemophilus influenzae and the peptidoglycan-associated lipoprotein PAL of E. coli.
Moreover, the sequence had a high degree of similarity to the peptidoglycan-associated outer membrane lipoprotein P6 of Haemophilus influenzae and the peptidoglycan-associated lipoprotein PAL of E. coli.
Moreover, the sequence had a high degree of similarity to the peptidoglycan-associated outer membrane lipoprotein P6 of Haemophilus influenzae and the peptidoglycan-associated lipoprotein PAL of E. coli.
The fact that influenza A and influenza B virus NS1 proteins bind to NS1-I suggests that this cellular protein plays a role in the influenza virus life cycle.
The fact that influenza A and influenza B virus NS1 proteins bind to NS1-I suggests that this cellular protein plays a role in the influenza virus life cycle.
Alternatively, it may be that maternal B lymphocytes that do not express the DR4 antigen encoded by DRB1*04 respond to influenza virus by producing antibodies that perturb neurodevelopment, thus underpinning a proportion of schizophrenia cases.
We previously demonstrated that trimethoprim (Tmp) resistance in Haemophilus influenzae is mediated by chromosomally encoded dihydrofolate reductase (DHFR) with a modified primary structure and distinct kinetic properties.
Alternatively, it may be that maternal B lymphocytes that do not express the DR4 antigen encoded by DRB1*04 respond to influenza virus by producing antibodies that perturb neurodevelopment, thus underpinning a proportion of schizophrenia cases.
Partial DNA sequences were determined, and several homologies were discovered with known S. aureus sequences (plasmid pSH6 DNA with insertion sequences, agrA and agrB sequences, hld genes, the gene for 23S rRNA, the lysyl tRNA synthetase gene, and the threonyl tRNA synthetase gene) and with genes from other species (Haemophilus influenzae bexA and Bacillus subtilis spoF and ctrA).
Partial DNA sequences were determined, and several homologies were discovered with known S. aureus sequences (plasmid pSH6 DNA with insertion sequences, agrA and agrB sequences, hld genes, the gene for 23S rRNA, the lysyl tRNA synthetase gene, and the threonyl tRNA synthetase gene) and with genes from other species (Haemophilus influenzae bexA and Bacillus subtilis spoF and ctrA).
Partial DNA sequences were determined, and several homologies were discovered with known S. aureus sequences (plasmid pSH6 DNA with insertion sequences, agrA and agrB sequences, hld genes, the gene for 23S rRNA, the lysyl tRNA synthetase gene, and the threonyl tRNA synthetase gene) and with genes from other species (Haemophilus influenzae bexA and Bacillus subtilis spoF and ctrA).