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19.1.9: Barcoding
https://bio.libretexts.org/Bookshelves/Introductory_and_General_Biology/Biology_(Kimball)/19%3A_The_Diversity_of_Life/19.01%3A_Eukaryotic_Life/19.1.09%3A_Barcoding
This page discusses barcoding technology for identifying and classifying living organisms through genetic sequencing, focusing on the COI gene. The process includes DNA extraction, amplification, and ...This page discusses barcoding technology for identifying and classifying living organisms through genetic sequencing, focusing on the COI gene. The process includes DNA extraction, amplification, and sequencing for database comparison, showing alignment with traditional species identification despite some discrepancies.
4.5: Cellular Respiration
https://bio.libretexts.org/Bookshelves/Introductory_and_General_Biology/Biology_(Kimball)/04%3A_Cell_Metabolism/4.05%3A_Cellular_Respiration
This page discusses cellular respiration, detailing its conversion of glucose into ATP through glycolysis and mitochondrial processes, including the citric acid cycle and electron transport chain. It ...This page discusses cellular respiration, detailing its conversion of glucose into ATP through glycolysis and mitochondrial processes, including the citric acid cycle and electron transport chain. It highlights mitochondrial DNA (mtDNA) mutations as a cause of diseases, influenced by heteroplasmy. Mitochondrial Replacement Techniques are being studied to prevent the transmission of defective mtDNA from mothers.
24.1: DNA Replication
https://bio.libretexts.org/Bookshelves/Biochemistry/Fundamentals_of_Biochemistry_(Jakubowski_and_Flatt)/03%3A_Unit_III-_Information_Pathway/24%3A_DNA_Metabolism/24.01%3A_DNA_Replication
The page provides an in-depth exploration of DNA replication, including its mechanisms, regulation, and interaction with chromatin. The semiconservative model of DNA replication, demonstrated by the M...The page provides an in-depth exploration of DNA replication, including its mechanisms, regulation, and interaction with chromatin. The semiconservative model of DNA replication, demonstrated by the Meselson-Stahl experiment, is explained, emphasizing the roles of essential enzymes like DNA polymerases, ligase, and helicase. Differences between prokaryotic and eukaryotic DNA replication are discussed, focusing on the regulatory processes involved in each system.

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