Casari, M.: Can genetic algorithms explain experimental anomalies? An application to common property resources. Computational Economics 24, 257–275 (2004) MATHCasari, M., 2004. Can genetic algorithms explain experimental anomalies? An application to common property resources. Computational Economics ...
Copy-number-variable (CNV) loci are an important cause of genetic variation in human genomes, and give rise to differences of 4.8–9.5% in the overall length of human genomes10,11. However population genetic divergence at the genome-wide CNV loci has not been investigated in detail12,13, ...
Algorithms can turn patterns like this into unique numeric codes.When a computer checks your fingerprints, there obviously isn't a little person with a magnifying glass sitting inside, comparing your fingerprints with all the hundreds or thousands stored in the database! So how can a computer ...
Evidence for selection directly on the genetic level may help avoid this error (Fieder & Huber, 2016; Schaschl et al., 2015). Even the genomic level, however, harbors problems of selection detection. Although genome-wide selection detection algorithms (Field et al., 2016; Sabeti et al., ...
Writing inProceedings of the National Academy of Sciences, the pair from the University of Michigan Medical School and University of California, Berkeley introduce a framework for using math to understand how genetic information and interactions between cells give rise to the actual function of a parti...
“The Benford law has been an intriguing question for me for years, ever since I read about it,” Torres, who specializes in plasma physics, toldPhysOrg.com. “I have used it as a surprising example at statistical physics classes to arouse the curiosity of my pupils.” ...
Section 4 describes our case of study, BPP, explaining, in general terms, its purpose and complexity. Then, we present the instances used to analyze the performance of two state-of-the-art algorithms for solving this problem (Section 4.1). Next, we introduce the indexes for measuring the ...
Thus, only one short genetic sequence would have been needed to trigger the process, and the receptor could then have evolved by gene duplication followed by ligation to membrane-spanning and second-messenger-activating sequences [60] (Figure 1). In this way, binding specificity was built into...