Fundamentals of genomic analysis and bioinformatics
Huttley, Gavin
Fundamentals of genomic analysis and bioinformatics - Wilmington : American Academic Publisher, 2024. - vii, 283 pages
In contrast, genomics studies all the genes in an organism, also known as the genome. Genomic scientists examine vast volumes of DNA sequence data to look for mutations that affect health, sickness, or treatment response using bioinformatics, a branch of high-performance computers and mathematics. In humans, that entails looking through 23,000 genes and 3 billion DNA units. Proteomics is the study of a biological subset known as the proteome. The set of proteins expressed in a particular cell under a specific set of circumstances is known as the proteome, which is dynamic. As many as 2 million proteins can be found in a single human proteome. Proteins play a crucial role in the precise management of cellular machinery and frequently make up that machinery. There are thousands of unique proteins and peptides in practically every creature, and they each perform several tasks within the cell. The field of bioinformatics relies heavily (though not completely) on computers. This is because computers are essential for storing and retrieving enormous amounts of biological data. However, the truth that no computer on earth, no matter how sophisticated, can store information and carry out tasks like a living cell must be accepted. As a result, every creature's cell contains highly complicated information technology. This largely refers to the organism's genes and how they control its behavior and biological functions. Functional genomics and the application of bioinformatics to search for and use the data will be the main topics of this book.
9781666868807
Genomics
Bioinformatics
575.11 / HUT-F
Fundamentals of genomic analysis and bioinformatics - Wilmington : American Academic Publisher, 2024. - vii, 283 pages
In contrast, genomics studies all the genes in an organism, also known as the genome. Genomic scientists examine vast volumes of DNA sequence data to look for mutations that affect health, sickness, or treatment response using bioinformatics, a branch of high-performance computers and mathematics. In humans, that entails looking through 23,000 genes and 3 billion DNA units. Proteomics is the study of a biological subset known as the proteome. The set of proteins expressed in a particular cell under a specific set of circumstances is known as the proteome, which is dynamic. As many as 2 million proteins can be found in a single human proteome. Proteins play a crucial role in the precise management of cellular machinery and frequently make up that machinery. There are thousands of unique proteins and peptides in practically every creature, and they each perform several tasks within the cell. The field of bioinformatics relies heavily (though not completely) on computers. This is because computers are essential for storing and retrieving enormous amounts of biological data. However, the truth that no computer on earth, no matter how sophisticated, can store information and carry out tasks like a living cell must be accepted. As a result, every creature's cell contains highly complicated information technology. This largely refers to the organism's genes and how they control its behavior and biological functions. Functional genomics and the application of bioinformatics to search for and use the data will be the main topics of this book.
9781666868807
Genomics
Bioinformatics
575.11 / HUT-F