Error Correcting Codes and the Human Genome by Suzanne McLean Lyle In this work, we study error correcting codes and generalize the concepts with a view toward a novel application in the study of DNA sequences. The author investigates the possibility that an error correcting linear code could be included in the human genome through application and research. The author finds that while it is an accepted hypothesis that it is reasonable that some kind of error correcting code is used in DNA, no one has actually been able to identify one. The author uses the application to illustrate how the subject of coding theory can provide a teaching enrichment activity for undergraduate mathematics.
The genetic code, which directs the protein biosynthesis, is an information system [1]. Although not...
A new approach for encoding DNA sequences as input for DNA sequence analysis is proposed using the e...
Genetics is an ever-developing concept. The realm of Mathematics and Science have always been that o...
In this work, we study error correcting codes and generalize the concepts with a view toward a novel...
Since a genome is a discrete sequence, the elements of which belong to a set of four letters, the qu...
Since a genome is a discrete sequence, the elements of which belong to a set of four letters, the qu...
Modern methods of encoding information into digital form include error check digits that are functio...
The conservation of genetic information through the ages can not be explained unless one assumes the...
One of the puzzling problems in mathematical biology is to show the existence of any form of error-c...
AbstractA major problem in communication engineering system is the transmitting of information from ...
Abstract: In the present day scenario, information transmission is a big issue in a biological syste...
Abstract-DNA error correcting codes over the edit metric create embeddable markers for sequencing pr...
In a world where science and mathematics are ever-advancing and ever-growing, it is no surprise that...
Combinatorial algorithms have long been used to design error correcting codes with various constrain...
The application of various areas of the theory of coding in the problems of analysis of the genome ...
The genetic code, which directs the protein biosynthesis, is an information system [1]. Although not...
A new approach for encoding DNA sequences as input for DNA sequence analysis is proposed using the e...
Genetics is an ever-developing concept. The realm of Mathematics and Science have always been that o...
In this work, we study error correcting codes and generalize the concepts with a view toward a novel...
Since a genome is a discrete sequence, the elements of which belong to a set of four letters, the qu...
Since a genome is a discrete sequence, the elements of which belong to a set of four letters, the qu...
Modern methods of encoding information into digital form include error check digits that are functio...
The conservation of genetic information through the ages can not be explained unless one assumes the...
One of the puzzling problems in mathematical biology is to show the existence of any form of error-c...
AbstractA major problem in communication engineering system is the transmitting of information from ...
Abstract: In the present day scenario, information transmission is a big issue in a biological syste...
Abstract-DNA error correcting codes over the edit metric create embeddable markers for sequencing pr...
In a world where science and mathematics are ever-advancing and ever-growing, it is no surprise that...
Combinatorial algorithms have long been used to design error correcting codes with various constrain...
The application of various areas of the theory of coding in the problems of analysis of the genome ...
The genetic code, which directs the protein biosynthesis, is an information system [1]. Although not...
A new approach for encoding DNA sequences as input for DNA sequence analysis is proposed using the e...
Genetics is an ever-developing concept. The realm of Mathematics and Science have always been that o...