Similarly, swapping in nearly any other H3N2 sequence from the low mortality rate class, including those from the 1970s would alter the candidate marker set
due to a lack of conservation. Evolutionary pathways through reassortment and mutation show that strain combinations starting with H1N1 human and swine need the fewest events to acquire the pandemic conserved markers. Several of these pathways would lead to novel strains with H5N1 subtypes that could challenge human immunity. The potential need for an extended time or number of exposures for strains to acquire the human persistent mutations combined with the high mortality #https://www.selleckchem.com/products/tucidinostat-chidamide.html randurls[1|1|,|CHEM1|]# rate markers associated with avian strains suggests how swine could act as a mixing vessel where both human specific and high mortality rate markers are found to persist. Additional work may reveal restrictions that limit the strain combinations that lead to viable
new strains. Measuring the rate of co-infection in swine and human, particularly in cases where an avian like strain is suspected to be present, could provide additional data for more precisely modeling the likelihood of the reassortment events that combine with mutations to facilitate mutation combinations important to infection. Methods A pattern classification approach [23] is used with heuristic feature selection [14,24] to predict the candidate markers. Taken as input is a multiple sequence Tangeritin alignment (using MUSCLE [25]) for a collection of influenza genomes, where the 11 proteins are concatenated together. MK-8931 datasheet Each position in the alignment is converted to a bit vector of length 21, where an entry of 1 in the vector
indicates the presence of one of the 20 amino acids or an insertion symbol. For an input alignment of lengthx(and 21 ×xlength bit vector), to find allnsized mutation subsets,xchoosencombinations are checked, which is time prohibitive even for smallnwhenxis large. A heuristic is used to exploit the information obtained from the linear support vector machine (LSVM) to reduce the size ofxto 60 and limitnto 10. Note that even this size (~7 × 1010) in theory could be too large to efficiently process. Since smaller combination sizes were found, the search space size was sufficiently reduced to compute a solution. The LSVM computes weights for each position in the alignment reflecting the relative influence on the classifier. These weights are used to select thexmost heavily weighted mutations from which to consider combinations. A similar approach was used in document classification [26] and a related approach was taken to classify 70 antibody light chain proteins [27]. LSVM code was developed by modifying the software package LIBSVM [28]. The expected classification accuracy is defined by the accuracy of the LSVM using the aligned proteome as input and 5-fold cross validation.